@article {pmid41529381,
year = {2026},
author = {Haars, J and Cumlin, T and Ladenvall, C and Lennerstrand, J and Kaden, R},
title = {Twist-ONT: Combining nanopore sequencing with the twist comprehensive viral research panel.},
journal = {Virology},
volume = {616},
number = {},
pages = {110789},
doi = {10.1016/j.virol.2026.110789},
pmid = {41529381},
issn = {1096-0341},
mesh = {Humans ; *Nanopore Sequencing/methods ; *Viruses/genetics/classification/isolation & purification ; Genome, Viral ; *Metagenomics/methods ; *Virus Diseases/virology ; High-Throughput Nucleotide Sequencing/methods ; Virome ; },
abstract = {The Twist Comprehensive Viral Research Panel (Twist CVRP) is a probe-based hybridization capture enrichment method for whole-genome sequencing, designed to target all known pathogenic viruses. Unlike shotgun metagenomics, where human DNA dominates, this method enriches for viral sequences within samples. This study presents a novel protocol called Twist-ONT, integrating Twist CVRP with Oxford Nanopore Technologies (ONT) long-read sequencing. Using clinical nasopharyngeal/throat swab and plasma samples PCR-positive for a variety of different viruses, the protocol's capability for viral species classification was demonstrated. It is also shown how high-quality whole-genome assemblies and consensus sequences can be generated from the sequencing reads of this protocol. This protocol facilitates further studies into the viromes of clinical samples and viral genomics in general using ONT sequencing.},
}

Humans
*Nanopore Sequencing/methods
*Viruses/genetics/classification/isolation & purification
Genome, Viral
*Metagenomics/methods
*Virus Diseases/virology
High-Throughput Nucleotide Sequencing/methods
Virome

@article {pmid41492364,
year = {2025},
author = {Solly, EF and Jaeger, ACH and Barthel, M and Six, J and Mueller, RC and Hartmann, M},
title = {Soil water limitation intensity alters nitrogen cycling at the plant-soil interface in Scots pine mesocosms.},
journal = {Plant and soil},
volume = {516},
number = {1},
pages = {705-723},
pmid = {41492364},
issn = {0032-079X},
abstract = {BACKGROUND AND AIM: More intense episodes of drought are expected to affect terrestrial nitrogen (N) cycling by altering N transformation rates, the functioning of soil microorganisms, and plant N uptake. However, there is limited empirical evidence of how progressive water loss affects N cycling at the plant-soil interface.

METHODS: We adopted [15]N tracing techniques and metagenomic analyzes of microbial genes involved in N cycling to assess how different levels of soil water availability influenced the fate of N derived from decomposing litter in mesocosms with Scots pine saplings.

RESULTS: With increasing water limitation, the release of N from decomposing litter into the soil declined rapidly. However, moderate levels of water limitation barely affected the microbial metagenome associated with N cycling and the uptake of N by the saplings. Comparatively, severe levels of water limitation impaired plant N uptake, and increased the prevalence of microbial N-cycling genes potentially involved in mechanisms that protect against water stress. Genes associated with the uptake and release of N during mineralization and nitrification declined under low soil water contents.

CONCLUSIONS: When soil water becomes largely unavailable, the cycling of N at the plant-soil interface is slowed down, and microbial and plant tolerance mechanisms may prevail over N uptake and microbial decomposition.

SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s11104-025-07758-z.},
}

@article {pmid41492410,
year = {2025},
author = {Wallau, GDL and Barbier, E and Machado, LC and da Silva, AF and Dias, YJM and Dezordi, FZ and Tomazatos, A and Horváth, B and Lins, RD and Bernard, E and Cadar, D},
title = {Ambecovirus, a novel Betacoronavirus subgenus circulating in neotropical bats, sheds new light on bat-borne coronaviruses evolution.},
journal = {Virus evolution},
volume = {11},
number = {1},
pages = {veaf094},
pmid = {41492410},
issn = {2057-1577},
abstract = {Understanding the viral diversity harboured by wildlife is essential for effective mapping and prevention of future zoonotic outbreaks. Bats, in particular, are recognized as natural reservoirs for several high-impact zoonotic viral pathogens, including coronaviruses responsible for Severe Acute Respiratory Syndrome (SARS), the rabies virus, diverse paramyxoviruses, Marburg, Ebola, Nipah, and Hendra viruses. However, a large extent of bat viruses remains unexplored, especially in highly biodiverse regions of the Neotropics such as Brazilian ecosystems. We used a meta-transcriptomic approach to characterize new virus genomes found in blood, oral, and anal samples collected from cave- and noncave bats from Northeast Brazil, Caatinga, and Atlantic Forest biomes. From a total of 19 coronavirus-positive bats, we have assembled two complete genomes of a new Betacoronavirus subgenus, named Ambecovirus (American betacoronavirus). The subgenus herein described is phylogenetically placed between the Sarbeco-/Hibeco-/Nobecovirus and the Merbeco-/Embecovirus clades, being basal to the former. While the conserved S2 region of the spike protein retained hallmark domains, including HR1 and HR2, the S1/S2 cleavage site and the furin cleavage site, the S1 region consistently displayed only the N-terminal domain. The receptor-binding domain from the C-terminal domai (CTD) region could not be identified due to high dissimilarity relative to known congeners. The detection of Ambercovirus in sympatric Pteronotus gymnonotus and Carollia perspicillata bats suggests potential interspecies transmission. Longitudinal sampling confirmed persistent Ambecovirus infection in P. gymnonotus over multiple years and virus dispersion at a minimum distance of 270 km between caves. The present study confirms that viral diversity in neotropical hosts remains largely unknown, not just in Brazil but likely in the other countries of the region, supporting the need for a systematic approach to virome exploration and analysis followed by in vitro experimentation to assess zoonotic potential.},
}

@article {pmid41493379,
year = {2026},
author = {Forry, SP and Servetas, SL and Kralj, JG and Hunter, ME and Dootz, JN and Jackson, SA},
title = {A mathematical framework to correct for compositionality in microbiome data sets.},
journal = {Applied and environmental microbiology},
volume = {92},
number = {1},
pages = {e0112625},
pmid = {41493379},
issn = {1098-5336},
mesh = {Humans ; *Metagenomics/methods ; *Microbiota ; *Gastrointestinal Microbiome ; *Bacteria/classification/genetics/isolation & purification ; Metagenome ; },
abstract = {The increasing use of metagenomic sequencing (MGS) for microbiome analysis has significantly advanced our understanding of microbial communities and their roles in various biological processes, including human health, environmental cycling, and disease. However, the inherent compositionality of MGS data, where the relative abundance of each taxon depends on the abundance of all other taxa, complicates the measurement of individual taxa and the interpretation of microbiome data. Here, we describe an experimental design that incorporates exogenous internal standards in routine MGS analyses to correct for compositional distortions. A mathematical framework was developed for using the observed internal standard relative abundance to calculate "Scaled Abundances" for native taxa that were (i) independent of sample composition and (ii) directly proportional to actual biological abundances. Through analysis of mock community and human gut microbiome samples, we demonstrate that Scaled Abundances outperformed traditional relative abundance measurements in both precision and accuracy and enabled reliable, quantitative comparisons of individual microbiome taxa across varied sample compositions and across a wide range of taxon abundances. By providing a pathway to accurate taxon quantification, this approach holds significant potential for advancing microbiome research, particularly in clinical and environmental health applications where precise microbial profiling is critical.IMPORTANCEMetagenomic sequencing (MGS) analysis has become central to modern characterizations of microbiome samples. However, the inherent compositionality of these analyses, where the relative abundance of each taxon depends on the abundance of all other taxa, often complicates interpretations of results. We present here an experimental design and corresponding mathematical framework that uses internal standards with routine MGS methods to correct for compositional distortions. We validate this approach for both amplicon and shotgun MGS analysis of mock communities and human gut microbiome (fecal) samples. By using internal standards to remove compositionality, we demonstrate significantly improved measurement accuracy and precision for quantification of taxon abundances. This approach is broadly applicable across a wide range of microbiome research applications.},
}

Humans
*Metagenomics/methods
*Microbiota
*Gastrointestinal Microbiome
*Bacteria/classification/genetics/isolation & purification
Metagenome

@article {pmid41494246,
year = {2026},
author = {Ding, J and Guo, T and Xia, H and Huang, K and Li, M and Li, F},
title = {Earthworm mediated microbial quorum sensing accelerates organic matter transformation during vermicomposting of dewatered sludge.},
journal = {Waste management (New York, N.Y.)},
volume = {212},
number = {},
pages = {115332},
doi = {10.1016/j.wasman.2026.115332},
pmid = {41494246},
issn = {1879-2456},
mesh = {*Oligochaeta/physiology ; *Quorum Sensing ; Animals ; *Composting/methods ; *Sewage/microbiology ; Biodegradation, Environmental ; Humic Substances ; Microbiota ; Bacteria/metabolism ; Acyl-Butyrolactones/metabolism ; },
abstract = {Vermicomposting (VC) relies on the synergistic interaction between earthworms and microorganisms to drive the degradation of organic matter (OM). Quorum sensing (QS), which governs earthworm-microorganism interactions, may influence dissolved organic matter (DOM) transformation during VC. However, the presence of QS and the functional roles of signaling molecules during VC remain unclear. This study investigated earthworm mediated microbial QS in driving microbial community succession and accelerating DOM transformation during VC, by contrasting the process without earthworms. The results showed that VC exhibited a distinct decomposition pathway, achieving significantly faster DOM degradation and mineralization (P < 0.01), compared to the control. Additionally, earthworms markedly facilitated the transformation of protein-like compounds into humic-like substances over a shorter period. Their presence also modified acyl-homoserine lactone (AHL) synthesis patterns and suppressed AHLs hydrolysis, resulting in a 96.14 % increase (P < 0.01) in short-chain AHLs. Metagenomic analysis revealed that earthworm in VC significantly altered the bacterial diversity (P < 0.05), enriching modularity coefficient and deterministic processes by 18.75 % and 87.03 %, respectively. Finally, AHL-responsive microorganisms significantly influencing physicochemical and DOM transformation during the VC. This study suggests that earthworms enhance AHL-type QS regulation in microbial communities, improving their metabolic functions and accelerating DOM transformation.},
}

*Oligochaeta/physiology
*Quorum Sensing
Animals
*Composting/methods
*Sewage/microbiology
Biodegradation, Environmental
Humic Substances
Microbiota
Bacteria/metabolism
Acyl-Butyrolactones/metabolism

@article {pmid41494287,
year = {2026},
author = {Feng, N and Fu, C and You, J and Wang, D and Feng, X and Su, Y},
title = {Controlled release of coated antioxidants inhibits Citrobacter rodentium colonization in the colon of rats by reducing gut redox potential.},
journal = {Redox biology},
volume = {89},
number = {},
pages = {104005},
pmid = {41494287},
issn = {2213-2317},
mesh = {Animals ; *Citrobacter rodentium/drug effects/pathogenicity ; Oxidation-Reduction/drug effects ; Rats ; *Antioxidants/pharmacology/administration & dosage/chemistry ; *Colon/microbiology/drug effects/metabolism ; Delayed-Action Preparations/pharmacology ; *Gastrointestinal Microbiome/drug effects ; *Enterobacteriaceae Infections/microbiology/drug therapy/metabolism ; Male ; Coumaric Acids/pharmacology/administration & dosage ; },
abstract = {Intestinal redox potential serves as a critical parameter reflecting the dynamic characteristics of the gut microenvironment. To precisely modulate the intestinal redox potential and evaluate its inhibition of pathogenic colonization, this study built a controlled release system and further investigated its role in gut health under a lower redox potential. The results demonstrated that the controlled release formulation significantly reduced fecal redox potential more effectively than uncoated antioxidants. By optimizing the hydrodynamic size and zeta potential of ethoxyquin (EQ) and ferulic acid (FA), the coated FA formulation maintained high efficiency in reducing redox potential and reversed body weight loss induced by pathogenic infection. Both coated EQ (EQC) and FA (FAC) selectively enriched beneficial genera, such as Lactobacillus and Limosilactobacillus, while suppressing opportunistic pathogens like Klebsiella. Notably, coated FA demonstrated enhanced efficacy in alleviating Citrobacter rodentium (C. rodentium)-induced weight loss and reducing pathogens burden compared to uncoated FA. Mechanistically, coated FA promoted the enrichment of Lactobacillus reuteri (L. reuteri), suppressed the proliferation of Enterobacteriaceae, and enhanced intestinal Muc2 gene expression. Functional metagenomic analysis revealed that FAC significantly downregulated ABC transporter activity in Enterobacteriaceae, thereby impairing biofilm formation and synergizing with mucus secretion to inhibit pathogen colonization. Further in vitro co-culture trials confirmed that under a lower redox system, L. reuteri had a stronger inhibitory effect on C. rodentium as well as the expression of their virulence genes ((tir, ler). Collectively, these findings suggest that precise modulation of colonic redox potential through controlled release strategies represents a promising approach to enhance host defense against enteric pathogens via microbiota reprogramming.},
}

Animals
*Citrobacter rodentium/drug effects/pathogenicity
Oxidation-Reduction/drug effects
Rats
*Antioxidants/pharmacology/administration & dosage/chemistry
*Colon/microbiology/drug effects/metabolism
Delayed-Action Preparations/pharmacology
*Gastrointestinal Microbiome/drug effects
*Enterobacteriaceae Infections/microbiology/drug therapy/metabolism
Male
Coumaric Acids/pharmacology/administration & dosage

@article {pmid41494802,
year = {2026},
author = {Mayorga, L and Noguera Segura, A and Campderros, L and Pons-Tarin, M and Soler, Z and Vega-Abellaneda, S and Serrano-Gomez, G and Herrera-deGuise, C and Robles-Alonso, V and Borruel, N and Manichanh, C},
title = {Distinct microbial mediators link diet to inflammation in Crohn's disease and ulcerative colitis.},
journal = {Gut},
volume = {75},
number = {6},
pages = {1136-1146},
pmid = {41494802},
issn = {1468-3288},
mesh = {Humans ; *Colitis, Ulcerative/microbiology ; *Crohn Disease/microbiology ; Female ; Male ; *Gastrointestinal Microbiome/physiology ; Adult ; Longitudinal Studies ; Middle Aged ; *Diet/adverse effects ; Inflammation/microbiology ; Diet, Mediterranean ; Case-Control Studies ; Feces/microbiology ; },
abstract = {BACKGROUND: Inflammatory bowel disease (IBD) arises from complex interactions among diet, host and gut microbiome. Although diet influences intestinal inflammation, the microbial and metabolic pathways involved, and their differences between Crohn's disease (CD) and ulcerative colitis (UC), the two main subtypes of IBD remain unclear.

OBJECTIVE: To investigate how the gut microbiome mediates the effects of habitual diet on inflammatory activity in IBD.

DESIGN: This longitudinal study included 198 adults (100 healthy controls, 49 CD, 49 UC), participants completed a validated food frequency questionnaire. Dietary quality was evaluated using established indices (Alternative Mediterranean Diet, Healthy Eating Index-2015, Índice de Alimentación Saludable, Mean Adequacy Ratio, Plant-Based Dietary Indexes, Healthy Food Diversity). Participants also provided two stool samples (baseline and 6 months). Shotgun metagenomics (n=366) enabled taxonomic and functional profiling. Causal mediation analyses were used to identify microbial features mediating the effect of diet on inflammation.

RESULTS: IBD patients exhibited lower dietary diversity, fibre intake and nutritional adequacy compared with controls. Microbiome diversity was lowest in CD, intermediate in UC and correlated positively with higher intake of fibre, fruit, vegetables and nuts, and negative with processed foods and sugary beverages. Causal mediation analyses revealed that in CD, coffee, whole wheat bread and healthier diets lowered the Harvey-Bradshaw index through specific bacterial species and metabolites. In UC, Mediterranean-like diets, fruits and coffee reduced C reactive protein via greater microbial richness, reduced dysbiosis and short-chain fatty acid-related functions.

CONCLUSION: Diet quality influences inflammation in IBD through distinct microbiome pathways: specific taxa and metabolites mediate effects in CD, whereas microbial richness and global composition drive protection in UC.},
}

Humans
*Colitis, Ulcerative/microbiology
*Crohn Disease/microbiology
Female
Male
*Gastrointestinal Microbiome/physiology
Adult
Longitudinal Studies
Middle Aged
*Diet/adverse effects
Inflammation/microbiology
Diet, Mediterranean
Case-Control Studies
Feces/microbiology

@article {pmid41495312,
year = {2026},
author = {Kiran, R and Sharma, M and Subramanian, S and Patil, SA},
title = {Halophilic Anaerobic Cultures Enriched with CO2:H2 from Different Saline Environments Reveal Unknown Autotrophic Bacterial Diversity and Modular Carbon Fixation Pathways.},
journal = {Microbial ecology},
volume = {89},
number = {1},
pages = {40},
pmid = {41495312},
issn = {1432-184X},
mesh = {*Carbon Dioxide/metabolism ; *Geologic Sediments/microbiology ; *Carbon Cycle ; *Hydrogen/metabolism ; Formates/metabolism ; Autotrophic Processes ; Seawater/microbiology ; Acetic Acid/metabolism ; Lakes/microbiology ; Biodiversity ; Phylogeny ; *Bacteria, Anaerobic/metabolism/genetics/classification/isolation & purification ; *Bacteria/metabolism/classification/genetics ; Metagenome ; Metagenomics ; },
abstract = {The subsurface sediments of saline-aquatic systems host diverse microbes, with unclear ecological roles and challenging lab cultivability. Chemolithotrophic anaerobes involved in CO2-fixation are one of the poorly studied groups. This study focused on understanding these bacteria from subsurface sediments of four representative saline environments, two marine (i.e., Coastal Arabian and Bay of Bengal seas) and two lake (Sambhar and Lonar) systems through enrichment and metagenomics. Enrichment cultures with bicarbonate/CO2 and hydrogen as the carbon and energy sources, respectively, showed CO2 fixation, producing acetic and formic acids as the major organic products. Enriched culture with Sambhar Lake sediment produced more formic acid (391 ± 8 mg/L) than acetic acid (92 ± 20 mg/L); however, other enriched cultures produced considerably higher acetic acid (up to 966 ± 24 mg/L) than formic acid (up to 367 ± 30 mg/L). The organics production was accompanied by unique thread-like (up to 500 μm long) aggregates, harbouring chains of rod and oval-shaped microbes in all cultures. Metagenome sequencing revealed dominance of Vibrio spp. (relative sequence abundance of 91% to 97%) across all cultures, while canonical CO2-fixing taxa were nearly absent (< 0.01%). KEGG analysis revealed partial genes for various CO2 fixation pathways, including Wood-Ljungdahl, reverse-TCA, dicarboxylate-hydroxybutyrate, hydroxypropionate bicycle, hydroxypropionate-hydroxybutyrate, and the reductive-glycine pathway. The presence of a near-complete serine variant of the reductive glycine pathway, which has been demonstrated in engineered systems, suggests that this pathway may play an operational role in natural systems. The consistent production of organic acids and incomplete pathway representation suggests modular CO2 fixation within the Vibrio-dominated enriched mixed cultures.},
}

*Carbon Dioxide/metabolism
*Geologic Sediments/microbiology
*Carbon Cycle
*Hydrogen/metabolism
Formates/metabolism
Autotrophic Processes
Seawater/microbiology
Acetic Acid/metabolism
Lakes/microbiology
Biodiversity
Phylogeny
*Bacteria, Anaerobic/metabolism/genetics/classification/isolation & purification
*Bacteria/metabolism/classification/genetics
Metagenome
Metagenomics

@article {pmid41495321,
year = {2026},
author = {Sato, Y and Sato, Y and Deki, O and Tsuji, K and Tsurui-Sato, K},
title = {Estimated predator composition using environmental DNA analyses and color patterns of male guppies in introduced rivers.},
journal = {Scientific reports},
volume = {16},
number = {1},
pages = {4066},
pmid = {41495321},
issn = {2045-2322},
support = {17K19298//Japan Society for the Promotion of Science/ ; 26249024//Japan Society for the Promotion of Science/ ; 19K12419//Japan Society for the Promotion of Science/ ; },
mesh = {Animals ; *Poecilia/genetics/physiology ; Male ; *Predatory Behavior ; Rivers ; *DNA, Environmental/analysis/genetics ; *Introduced Species ; Japan ; *Pigmentation ; Ecosystem ; DNA Barcoding, Taxonomic ; Color ; },
abstract = {Understanding the mechanisms underlying the successful invasion of the guppy, Poecilia reticulata, a globally invasive species, is important in the field of invasion biology. The body color pattern of male guppies is known to influence predation risk; however, the relationship between body color pattern and local predator guilds has been addressed in only a few studies. To investigate this relationship, we analyzed 32 water samples and 305 male guppies from eight introduced populations on the main island of Okinawa, Japan. The environmental DNA metabarcoding analysis of teleosts from the waters identified six potential guppy predator families, Anguillidae, Eleotridae, Gobiidae, Cichlidae, Mugilidae, and Cyprinidae; however, there was no detection of Characiformes, which are one of the major predators of guppies in their original habitat. Using imaging analysis of color spot areas of male guppies, we found that 16 of 18 potential predator × color combinations exhibited a statistically significant association between body color and the presence of predator families. For example, a negative association between orange spots and Anguillidae, and a positive association between blue-green spots and Cichlidae. These results suggest that the guppy in Okinawa was ecologically released from a major predator in its native habitat and adapted to the new environment through color pattern changes.},
}

Animals
*Poecilia/genetics/physiology
Male
*Predatory Behavior
Rivers
*DNA, Environmental/analysis/genetics
*Introduced Species
Japan
*Pigmentation
Ecosystem
DNA Barcoding, Taxonomic
Color

@article {pmid41495863,
year = {2026},
author = {Ali, H and Rafiq, M and Manzoor, M and Gillani, SW and Degen, A and Iqbal, A and Wang, W and Rafiq, MK and Shang, Z},
title = {Seasonal shifts in vegetation, soil properties, and microbial communities in Western Himalayan forests.},
journal = {Environmental microbiome},
volume = {21},
number = {1},
pages = {22},
pmid = {41495863},
issn = {2524-6372},
support = {31961143012//Natural Science Foundation of China/ ; ANSO-SBA-2023-02//Science-based Advisory Program of The Alliance of National and International Science Organizations for the Belt and Road Regions/ ; },
abstract = {BACKGROUND: The western Himalayan forest ecosystem faces escalating pressures from climate change and anthropogenic activities, demanding improved conservation strategies. Effective management requires understanding the seasonal fluctuations in vegetation, soil properties and microbial communities, but they remain poorly characterized across high altitude forests. We assessed these variables in 10 forest sites during the winter of 2023 and summer of 2024, analysing vegetation diversity, soil parameters, and microbial metagenomics.

RESULTS: We found pronounced seasonal shifts in plant and microbial diversities, and in soil properties. Plant species richness, and Shannon and Simpson diversity indices were higher (p < 0.001) in summer than in winter while the community maturity index was higher (p < 0.02) in winter than in summer. Soil properties exhibited clear seasonal patterns: pH, available phosphorus (AP), microbial biomass carbon (MBC) and cation exchange capacity (CEC) were higher (p < 0.05) in summer, whereas soil moisture (SM) and soil organic carbon (SOC) were higher (p < 0.05) in winter. Microbial alpha diversity indices (Shannon, Chao, and Sobs) were elevated (p < 0.05) in summer, while the Simpson index was elevated in winter, indicating a shift in community dominance. Beta diversity analyses revealed a significant seasonal shift in overall metabolic potential (KEGG orthologs; ANOSIM R = 0.222, p = 0.016), but not in general protein functions (COG), carbohydrate-active enzymes (CAZy), or taxonomic composition (RefSeq). Therefore, despite taxonomic turnover, core metabolic functions were maintained, indicating strong functional redundancy. Structural equation models (SEM) confirmed distinct seasonal dynamics, revealing stronger plant-soil-microbe interactions and a greater proportion of variance explained by the model in summer (R[2]=0.64-0.72 for key paths) than in winter (R[2]=0.52-0.63).

CONCLUSIONS: The findings demonstrate that the western Himalayan ecosystem undergoes a fundamental seasonal reorganization. Summer is characterized by increased biodiversity, distinct soil conditions, and more dynamic microbial-ecosystem interactions, while winter exhibits greater community maturity and functional stability. The resilience of core ecosystem processes is underpinned by microbial functional redundancy, which ensures metabolic continuity despite taxonomic shifts. We recommend that forest management strategies account for these seasonal dynamics and focus on preserving the conditions that support this critical functional redundancy.},
}

@article {pmid41496069,
year = {2026},
author = {Zhao, Y and Wang, H and Lu, Y and Lou, D},
title = {Evolving landscapes in childhood asthma-gut microbiota research: A bibliometric analysis from 2000 to 2024.},
journal = {Medicine},
volume = {105},
number = {1},
pages = {e46594},
pmid = {41496069},
issn = {1536-5964},
support = {ZHGF2024-1//The Key Construction Discipline of Immunology and Pathogen biology in Zhuhai Campus of Zunyi Medical University/ ; NO. QKHRC-CXTDã€"2025〕046//The Program for High level Innovative Talents in the Guizhou Province/ ; },
mesh = {Humans ; *Asthma/microbiology ; *Bibliometrics ; Child ; *Gastrointestinal Microbiome ; Dysbiosis ; },
abstract = {BACKGROUND: Pediatric asthma, a chronic inflammatory airway disorder, is increasingly recognized for its association with gut microbiota dysbiosis, mediated through immune dysregulation and systemic inflammation. Recent advancements in multi-omics technologies and the "gut-lung axis" hypothesis have propelled this field into a research frontier. This bibliometric study delineates global research trends, collaborative networks, and emerging directions in pediatric asthma-gut microbiota research.

METHODS: Publications from the Web of Science Core Collection (2000-2024) were systematically retrieved using keywords related to asthma, children, and gut microbiota. Data from 635 articles (392 original studies, 243 reviews) were analyzed via CiteSpace and VOSviewer to map country/institutional contributions, author networks, citation metrics, and keyword clusters. Non-English publications, patents, and conference abstracts were excluded.

RESULTS: Global output demonstrated exponential growth, with 62% of articles published between 2018 to 2022. The United States led in productivity (180 articles, 28.35%) and citations (10,851), while Canada achieved the highest citation impact (121.12 citations/article). Key contributors included Prof Stuart E. Turvey (19 articles, 2463 citations) and Prof B. Brett Finlay (140.07 citations/article). The University of British Columbia dominated institutional contributions (28 articles, 149.11 citations/article). The Journal of Allergy and Clinical Immunology emerged as the top journal (33 articles, 126.48 citations/article). Seminal works highlighted early-life gut dysbiosis (e.g., reduced Lachnospira and Faecalibacterium) and cesarean delivery's role in asthma risk. Keyword clustering revealed 6 themes: disease phenotypes (asthma-allergy comorbidity), microbiota dynamics (dysbiosis, short-chain fatty acids [SCFAs]), immune mechanisms (T helper 17 cells/Treg imbalance, gut-lung axis), developmental exposures (antibiotics, breastfeeding), methodologies (metagenomics), and therapeutic strategies.

CONCLUSION: This study underscores a paradigm shift from descriptive microbial profiling to mechanistic exploration of microbiota-derived metabolites (e.g., SCFAs) and early-life interventions. Future priorities include elucidating causal pathways via longitudinal cohorts, developing microbiota-targeted therapies, and leveraging multi-omics integration. Despite limitations in database scope, this analysis highlights accelerating translation from basic research to clinical applications through global collaboration. Researchers should prioritize interdisciplinary studies to unravel the "microbiome-immune-development" triad and optimize personalized asthma management.},
}

Humans
*Asthma/microbiology
*Bibliometrics
Child
*Gastrointestinal Microbiome
Dysbiosis

@article {pmid41496335,
year = {2026},
author = {Li, G and Zhao, Z and Machitani, M and Ishikawa, R and Ishikawa, K and Yokota, N and Haba, R and Nakamura, K and Sun, Z and Kurahara, LH and Hirano, K},
title = {Elucidation of mechanisms underlying the therapeutic effects of cordycepin on pulmonary hypertension, with a focus on cell senescence and gut microbiota.},
journal = {Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie},
volume = {194},
number = {},
pages = {118923},
doi = {10.1016/j.biopha.2025.118923},
pmid = {41496335},
issn = {1950-6007},
mesh = {Animals ; *Deoxyadenosines/pharmacology/therapeutic use ; *Cellular Senescence/drug effects ; *Hypertension, Pulmonary/drug therapy/microbiology/pathology/metabolism ; Humans ; *Gastrointestinal Microbiome/drug effects ; Myocytes, Smooth Muscle/drug effects/metabolism/pathology ; Tumor Suppressor Protein p53/metabolism ; Mice ; Male ; Rats ; Vascular Remodeling/drug effects ; Cyclin-Dependent Kinase Inhibitor p16/genetics/metabolism ; Pulmonary Artery/drug effects/pathology/metabolism ; Macrophages/drug effects/metabolism ; Disease Models, Animal ; Mice, Inbred C57BL ; Signal Transduction/drug effects ; Lung/drug effects ; },
abstract = {INTRODUCTION: Pulmonary hypertension (PH) is a progressive cardiopulmonary disorder characterized by excessive pulmonary vascular remodeling and aberrant proliferation of pulmonary artery smooth muscle cells (PASMCs). Emerging evidence suggests that gut microbiota dysbiosis contributes to PH development. Cordycepin, a natural adenosine analogue derived from Cordyceps militaris, has demonstrated antiproliferative and microbiota-modulating properties; however, its mechanism of action in PH remains unclear.

OBJECTIVE: Elucidate the mechanisms underlying the therapeutic effects of cordycepin on PH, focusing on cellular senescence and gut microbiota.

METHODS: The effects of cordycepin on PH pathology were investigated by transcriptome analysis of PASMCs from patients, and metagenomic analysis of rodent PH models. Cellular senescence was analyzed in lung tissue from p16[Ink4a]-Cre[ERT2] reporter mice and in rat bone marrow-derived macrophages (BMDMs).

RESULTS: RNA sequencing analysis revealed activation of p53 signaling by cordycepin in PASMCs. Cordycepin suppressed CDK1 expression and TERT phosphorylation at threonine 249. It ameliorated vascular and cardiac remodeling in PH rat and mouse models. Cordycepin induced M1-like macrophage senescence in p16 [Ink4a] reporter mice lungs and rat BMDMs. Cordycepin significantly reshaped the gut microbiota, increasing beneficial genera (e.g. Alistipes and Acetatifactor) and reducing proinflammatory taxa (e.g., Ruminococcus), with modulating key metabolic pathways, including short-chain fatty acid, tryptophan, and vitamin K2 metabolism.

CONCLUSION: Cordycepin exerts multi-target therapeutic effects in PH by inhibiting PASMC proliferation via the p53-CDK1/pTERT axis, modulating gut microbiota-linked immunometabolism and induces proinflammatory macrophage senescence. These findings support cordycepin as a promising candidate for PH therapies targeting the vascular, immune, and gut-lung axes.},
}

Animals
*Deoxyadenosines/pharmacology/therapeutic use
*Cellular Senescence/drug effects
*Hypertension, Pulmonary/drug therapy/microbiology/pathology/metabolism
Humans
*Gastrointestinal Microbiome/drug effects
Myocytes, Smooth Muscle/drug effects/metabolism/pathology
Tumor Suppressor Protein p53/metabolism
Mice
Male
Rats
Vascular Remodeling/drug effects
Cyclin-Dependent Kinase Inhibitor p16/genetics/metabolism
Pulmonary Artery/drug effects/pathology/metabolism
Macrophages/drug effects/metabolism
Disease Models, Animal
Mice, Inbred C57BL
Signal Transduction/drug effects
Lung/drug effects

@article {pmid41496502,
year = {2026},
author = {Majzoub, ME and Santiago, FS and Raich, SS and Sirigeri, P and Simovic, I and Tedla, N and Kaakoush, NO},
title = {Immunoglobulin A protease from Sutterella wadsworthensis modifies outcome of infection with Campylobacter jejuni and is associated with microbiome diversity.},
journal = {Gut microbes},
volume = {18},
number = {1},
pages = {2611543},
pmid = {41496502},
issn = {1949-0984},
mesh = {Humans ; Animals ; Immunoglobulin A/metabolism ; *Campylobacter jejuni/physiology ; *Serine Endopeptidases/metabolism/genetics ; Phylogeny ; *Campylobacter Infections/microbiology/immunology ; Epithelial Cells/microbiology ; Mice ; Neutrophils/immunology/microbiology ; Phagocytosis ; *Gammaproteobacteria/enzymology/genetics/classification ; Bacterial Proteins/genetics/metabolism ; *Gastrointestinal Microbiome ; Fiji ; },
abstract = {Sutterella wadsworthensis is an enigmatic member of the microbiota, previously reported to be present in healthy humans yet also associated with certain gut diseases and their therapeutic outcomes. Here, we report on S. wadsworthensis classified to S. wadsworthensis_A that encodes an immunoglobulin A (IgA) protease that digests human IgA1 and IgA2 but not mouse IgA. The activity of this IgA protease could influence the trajectory of Campylobacter jejuni infection in human epithelial cells and phagocytosis in primary neutrophils. Comparative genomics and screening of metagenomic samples revealed that the protease shared sequence identity with an IgA protease from a bacterium that colonized other mammals and that S. wadsworthensis harboring IgA protease can be detected in individuals globally. Individuals positive for S. wadsworthensis IgA protease in China and Fiji (detection at >90% similarity) were found to have a different microbiome when compared to individuals where the protease was not detected. Phylogenetic analysis of pathogen IgA proteases along with IgA proteases from members of the microbiota suggested that there may be a unique subset of microbiota-derived IgA proteases. Our results highlight the importance of taxonomic resolution in microbiome studies and identify a subgroup of S. wadsworthensis that may be of potential clinical relevance.},
}

Humans
Animals
Immunoglobulin A/metabolism
*Campylobacter jejuni/physiology
*Serine Endopeptidases/metabolism/genetics
Phylogeny
*Campylobacter Infections/microbiology/immunology
Epithelial Cells/microbiology
Mice
Neutrophils/immunology/microbiology
Phagocytosis
*Gammaproteobacteria/enzymology/genetics/classification
Bacterial Proteins/genetics/metabolism
*Gastrointestinal Microbiome
Fiji

@article {pmid41496864,
year = {2025},
author = {Shi, H and Zhang, X and Liu, L and Thompson, F and Li, X and Sun, H and Mi, H and Zhang, XH and Zhang, Y},
title = {Vertically stratified carbon fixation and coupling processes in deep-sea sediment.},
journal = {ISME communications},
volume = {5},
number = {1},
pages = {ycaf242},
pmid = {41496864},
issn = {2730-6151},
abstract = {Deep-sea sediments represent a vast yet underexplored reservoir of microbial carbon fixation, playing a critical role in global carbon cycling. However, the vertical distribution of carbon-fixing microorganisms, metabolic pathways, and the underlying energy sources and environmental drivers remain poorly understood. In this study, we investigated microbial carbon fixation and associated energy metabolism in South China Sea (SCS) sediment across 0-690 cm depth. Our findings revealed that dissolved inorganic carbon (DIC) and ammonium (NH4[+]) concentrations were key environmental drivers of carbon fixation and linked redox processes. Carbon fixation gene diversity increased with sediment depth, while the network complexity of functional genes and taxa involved in these processes declined. A distinct vertical succession of dominant microbial carbon-fixation pathways and their associated energy metabolisms was observed along the sediment depth: the Calvin-Benson-Bassham (CBB) and reductive glycine (rGLY) pathways dominated surface sediments, driven by nitrite oxidation, whereas the Wood-Ljungdahl (WL) pathway prevailed in deeper anoxic layers, supported by hydrogen and carbon monoxide oxidation. Taxonomically, Gammaproteobacteria and Methylomirabilia were abundant carbon-fixing groups in surface sediments, while Desulfobacterota, Chloroflexota, and Aerophobota became predominant at depth. Most carbon-fixing metagenome-assembled genomes (MAGs) exhibited mixotrophic lifestyles, and representative carbon fixation MAGs from Methylomirabilota, Dehalococcoidia (Chloroflexota) and Aerophobetes exhibited different metabolic features compared to their counterparts from other environments. These findings underscore the carbon fixation potential of deep-sea subsurface microbial communities and advance the understanding of carbon fluxes in deep biosphere.},
}

@article {pmid41499358,
year = {2026},
author = {Cao, A and Lin, Y and Guan, S and Chen, Y and Zhai, W and Zhou, Y and Feng, S and Guan, Y and Zhang, Y and Huang, M and Wang, X and Long, H},
title = {Baseline multi-omics signatures could predict therapeutic response to neoadjuvant anti-PD-1 immunochemotherapy in non-small-cell lung cancer.},
journal = {Clinical and translational medicine},
volume = {16},
number = {1},
pages = {e70579},
pmid = {41499358},
issn = {2001-1326},
support = {82474002//National Natural Science Foundation of China/ ; 82020108031//National Natural Science Foundation of China/ ; 82404752//National Natural Science Foundation of China/ ; 81973398//National Natural Science Foundation of China/ ; WKZX2023CX020006//Development Center for Medical Science & Technology National Health Commission of the People's Republic of China/ ; 2025A1515012521//Natural Science Foundation of Guangdong Province/ ; 2020B1212060034//Guangdong Provincial Key Laboratory of Construction Foundation/ ; 2017B030314030//Guangdong Provincial Key Laboratory of Construction Foundation/ ; 2017YFC0909300//National Key Research and Development Program/ ; B16047//The 111 project/ ; },
mesh = {Humans ; *Carcinoma, Non-Small-Cell Lung/drug therapy ; Female ; Male ; *Neoadjuvant Therapy/methods ; Middle Aged ; Aged ; *Lung Neoplasms/drug therapy ; Gastrointestinal Microbiome/drug effects ; Metabolomics/methods ; Multiomics ; },
abstract = {BACKGROUND: Neoadjuvant anti-programmed cell death 1 (PD-1) immunochemotherapy has shown promising efficiency in the treatment of early-stage non-small-cell lung cancer (NSCLC), but it has not consistently yielded durable responses. Biomarkers for the prediction of efficacy are warranted.

METHODS: We performed shotgun metagenomic and plasma/faecal metabolomic studies in 44 NSCLC patients who underwent neoadjuvant tislelizumab plus platinum-based doublet chemotherapy. Samples were collected at baseline and before surgical resection, and the major pathologic response (MPR) was evaluated.

RESULTS: MPR patients showed a significantly higher gut-microbial alpha diversity, an enrichment of Ruminococcaceae, Lachnospiraceae and Clostridiales species, and an increased plasma level of tryptophan metabolites at baseline. On the contrary, non-MPR patients were characterized by enrichment of Prevotella species in faecal samples and higher plasma levels of linoleic acid metabolites. A high predictive accuracy was achieved using a small panel of differential microbial (Clostridium sp. M62/1 and Eisenbergiella tayi) or metabolomic features (linoleic acid, oxindole-3-acetic acid and quinolinic acid) with AUCs > .85.

CONCLUSIONS: The baseline characteristics of the gut microbiota and plasma metabolites could provide early predictions of the response to neoadjuvant anti-PD-1 immunochemotherapy.

TRIAL REGISTRATION: NCT05244837.

KEY POINTS: Baseline metagenomic and metabolomic signatures were significantly associated with the major pathologic response of neoadjuvant anti-PD-1 immunochemotherapy. Integrated microbial model (consists of Clostridium sp. M62/1 and Eisenbergiella tayi) and metabolomic model (consists of linoleic acid, oxindole-3-acetic acid and quinolinic acid) could provide early predictions of the response.},
}

Humans
*Carcinoma, Non-Small-Cell Lung/drug therapy
Female
Male
*Neoadjuvant Therapy/methods
Middle Aged
Aged
*Lung Neoplasms/drug therapy
Gastrointestinal Microbiome/drug effects
Metabolomics/methods
Multiomics

@article {pmid41499519,
year = {2026},
author = {Ocampo Morales, BN and Hernández Montes, A and Estrada, K and Valadez Moctezuma, E},
title = {Physicochemical and microbiome changes in queso Crema de Chiapas during ripening.},
journal = {PloS one},
volume = {21},
number = {1},
pages = {e0323038},
pmid = {41499519},
issn = {1932-6203},
mesh = {*Microbiota ; *Cheese/microbiology/analysis ; Bacteria/genetics/classification/isolation & purification ; Food Microbiology ; Candida/genetics/isolation & purification ; },
abstract = {The dynamic changes in the physicochemical, microbiological, and metagenomic profiles of Crema de Chiapas cheese were evaluated across three ripening stages (2, 29, and 58 days). Although the main physicochemical properties -including fat content- remained remarkably stable, salt and protein levels showed noticeable variation throughout ripening. Protein content had the strongest influence on sample differentiation across ripening stages in unsupervised multivariate models, enabling the clustering of microbial diversity according to maturation time. A clear shift in microbial diversity was detected, marked by a reduction in bacterial genera and a concurrent decline in fungal and yeast populations as ripening advanced. The predominant bacterial genera throughout ripening were Streptococcus, Lactobacillus, and Lactococcus. While Streptococcus and Lactobacillus increased over time, Lactococcus exhibited the opposite trend. Metagenomic analysis revealed a decrease in Candida etchellsii and a concomitant increase in Candida tropicalis as ripening progressed. Quantitative PCR (qPCR) confirmed the presence of C. etchellsii at T1 (Ct = 7.22) and C. tropicalis at T3 (Ct = 9.84). The presence of three additional bacterial genera-Chryseobacterium, Aeromonas, and Enterobacter-identified by next-generation sequencing (NGS), was also assessed by qPCR. Chryseobacterium was detected at T2 (Ct = 3.26), whereas Aeromonas and Enterobacter were absent across all stages. Collectively, these findings suggest that potentially pathogenic microorganisms were not present at biologically relevant levels.},
}

*Microbiota
*Cheese/microbiology/analysis
Bacteria/genetics/classification/isolation & purification
Food Microbiology
Candida/genetics/isolation & purification

@article {pmid41499817,
year = {2026},
author = {Liu, Y and Zhong, L and Zhou, C and Zhang, Y and Zhang, K and Gan, Y and Wang, J and Lin, S and Xie, G and Zhong, W and Ye, X and Linghu, D and Chen, Q and Peng, W and Cao, C and Li, Z},
title = {Di-n-pentyl phthalate exposure alters intestinal structure and gut microbiota composition and characteristics in mice.},
journal = {Ecotoxicology and environmental safety},
volume = {309},
number = {},
pages = {119669},
doi = {10.1016/j.ecoenv.2025.119669},
pmid = {41499817},
issn = {1090-2414},
mesh = {Animals ; *Phthalic Acids/toxicity ; *Gastrointestinal Microbiome/drug effects ; Mice, Inbred C57BL ; Mice ; Male ; Dysbiosis/chemically induced ; *Intestines/drug effects/microbiology ; *Plasticizers/toxicity ; Cytokines/metabolism ; },
abstract = {BACKGROUND: Di-n-pentyl phthalate (DnPP), a ubiquitous plasticizer structurally analogous to the gut toxicant di-(2-ethylhexyl) phthalate (DEHP), poses environmental persistence and human exposure risks, yet its gastrointestinal toxicity remains poorly characterized. We hypothesized DnPP disrupts intestinal homeostasis via gut microbiota dysbiosis, mirroring mechanisms of other phthalates.

METHODS: C57BL/6 mice (n = 10 per group) were orally gavaged with DnPP (1-100 mg/kg/d) for 21 days. Intestinal tissues and microbiota were analyzed using histomorphometry and metagenomic sequencing with functional annotation (GO/KEGG/CARD databases). Taxonomic and functional shifts were identified via Metastats and LEfSe (FDR < 0.05).

RESULTS: DnPP exposure induced dose-dependent villus degeneration (100 mg/kg/d, P < 0.05) and colon shortening (P < 0.01), accompanied by upregulated pro-inflammatory cytokines (IL-6, TNF-α) and downregulated tight junction proteins (ZO-1, occludin) in small intestinal and colonic tissues. Metagenomic analysis revealed tissue-specific dysbiosis: colonic samples showed Bacteroidota enrichment and Firmicutes depletion, while the small intestine exhibited increased Bacteroidota and Bifidobacterium. Functional analyses demonstrated reduced glycan/lipid metabolism pathways (P < 0.001) and elevated antibiotic resistance genes (CARD, P < 0.05).

CONCLUSION: DnPP disrupts mouse intestinal structure, triggers inflammation, reduces probiotic abundance, upregulates antibiotic resistance genes, and impairs gut microbiota metabolic capacities, highlighting non-negligible health risks for intestinal and systemic metabolism, as well as potential risks of metabolic and infectious diseases. These findings provide critical evidence for phthalate ester health hazard mechanistic studies.},
}

Animals
*Phthalic Acids/toxicity
*Gastrointestinal Microbiome/drug effects
Mice, Inbred C57BL
Mice
Male
Dysbiosis/chemically induced
*Intestines/drug effects/microbiology
*Plasticizers/toxicity
Cytokines/metabolism

@article {pmid41499920,
year = {2026},
author = {Vázquez-Bolea, N and Mora-Martínez, C and Cuervo, M and Martinez, JA and Gil-Campos, M and Leis, R and Babio, N and Moreno, LA and Corella, D and Moreira Echeverria, A and Aguilera, CM and Castro-Collado, C and Picáns-Leis, R and Hernández-Cacho, A and Miguel-Berges, ML and Martin-Climent, P and Jurado-Castro, JM and Vázquez-Cobela, R and Plaza-Diaz, J and Rueda-De Torre, I and Pastor-Villaescusa, B and de la Torre-Aguilar, MJ and Salas-Salvadó, J and Sanz, Y and Navas-Carretero, S},
title = {Gut microbiota composition and derived enterotypes are associated with ponderal status in preschool children. Childhood obesity risk assessment longitudinal study (CORALS) cohort.},
journal = {Clinical nutrition (Edinburgh, Scotland)},
volume = {57},
number = {},
pages = {106558},
doi = {10.1016/j.clnu.2025.106558},
pmid = {41499920},
issn = {1532-1983},
mesh = {Humans ; Male ; Female ; Longitudinal Studies ; Cross-Sectional Studies ; *Pediatric Obesity/microbiology/epidemiology ; Child, Preschool ; *Gastrointestinal Microbiome/physiology ; Child ; Feces/microbiology ; Body Mass Index ; Risk Assessment ; Thinness/microbiology ; Overweight/microbiology ; Body Weight ; },
abstract = {BACKGROUND AND AIMS: Childhood obesity is a growing public health concern increasingly linked to gut microbiota. We analysed associations between microbiota composition, functionality, and weight status in 1134 children aged 3-6 years from the CORALS cohort.

METHODS: The baseline cross-sectional study stratified participants by weight status (underweight, normal weight, overweight, obesity) and performed shotgun metagenomic sequencing of stool samples. Analyses in R assessed alpha/beta diversity, taxonomic composition, enterotypes, and microbial pathways.

RESULTS: Alpha diversity decreased with increasing BMI, particularly in obesity (Shannon adj.P = 0.00301; Simpson adj.P = 0.00158). Beta diversity revealed distinct microbial structures across groups (p = 0.001). Four enterotypes were identified: obesity was associated with Enterotype 3 (Segatella-dominated, p = 0.023), while Enterotype 1 (Alistipes, Akkermansia, Coprococcus) was enriched in underweight/normal weight. Species linked to obesity included higher Phocaeicola dorei (adj.P = 0.003) and Segatella hominis (adj.P = 0.001), and lower Longicatena caecimuris (adj.P = 0.03) and Blautia parvula (adj.P = 0.003). Functional analyses showed downregulation of vitamin and nucleotide biosynthesis pathways and reduced carbohydrate metabolism in overweight/obesity.

CONCLUSIONS: Gut microbiota composition and functionality are strongly associated with weight status in early childhood, suggesting microbial biomarkers and metabolic pathways relevant to understand early obesity development.

CLINICALTRIALS: gov ID NCT06317883.},
}

Humans
Male
Female
Longitudinal Studies
Cross-Sectional Studies
*Pediatric Obesity/microbiology/epidemiology
Child, Preschool
*Gastrointestinal Microbiome/physiology
Child
Feces/microbiology
Body Mass Index
Risk Assessment
Thinness/microbiology
Overweight/microbiology
Body Weight

@article {pmid41499937,
year = {2026},
author = {Wu, X and Zhang, T and Feng, J and Park, S},
title = {Herba Patriniae with probiotics targets Escherichia fergusonii and the 5-hydroxytryptophan-trimethylamine N-oxide axis in Parkinson's disease.},
journal = {Phytomedicine : international journal of phytotherapy and phytopharmacology},
volume = {150},
number = {},
pages = {157758},
doi = {10.1016/j.phymed.2025.157758},
pmid = {41499937},
issn = {1618-095X},
mesh = {Humans ; *Parkinson Disease/microbiology/drug therapy/metabolism ; *Probiotics/pharmacology ; Animals ; *5-Hydroxytryptophan/metabolism ; *Methylamines/metabolism ; Rats ; *Plant Extracts/pharmacology ; Gastrointestinal Microbiome/drug effects ; PC12 Cells ; Faecalibacterium prausnitzii ; Lactiplantibacillus plantarum ; Oxidative Stress/drug effects ; Caco-2 Cells ; },
abstract = {BACKGROUND: Parkinson's disease (PD) exhibits a distinct gut microbiota and microbial metabolites, with specific enterotypes potentially influencing disease susceptibility. Current research lacks systematic comparisons of different enterotypes in PD susceptibility and targeted intervention efficacy. This study identifies their gut microbiota-metabolite biomarkers and validates a "probiotic plus herbal medicine" intervention in vitro to explore enterotype-stratified precision strategies for PD prevention and treatment.

PURPOSE: This study aimed to identify a high-risk enterotype for PD and its associated microbial and metabolic signatures using public metagenomic data. Furthermore, we evaluated the therapeutic efficacy of a combination therapy, comprising Patrinia scabiosaefolia Fisch (Herba Patriniae; HP) extract and the probiotics, Faecalibacterium prausnitzii and Lactiplantibacillus plantarum (F.l-HP), in a PD-relevant in vitro model.

METHODS: Public metagenomic data from PD patients and healthy controls (HC) were analyzed to characterize enterotypes. An in vitro gut-brain axis (GBA) model was established by co-culturing PC12 neuronal cells and Caco-2 intestinal epithelial cells to validate the pathogenic role of Escherichia fergusonii. The effects of the F.l-HP combination therapy were then assessed on bacterial growth, key metabolites (5-hydroxytryptophan (5-HTP), trimethylamine N-oxide (TMAO), butyrate), neuroinflammation, oxidative stress, mitochondrial function, and gut barrier integrity, with a focus on the underlying p-Akt and p-AMPKα signaling pathways.

RESULTS: The Bacteroidaceae enterotype (ET-B) was identified as a high-risk enterotype for PD, characterized by an enrichment of E. fergusonii. This bacterium was associated with the consumption of neuroprotective 5-HTP and the production of pro-inflammatory TMAO. The F.l-HP combination therapy significantly suppressed the growth of E. fergusonii while promoting the proliferation of beneficial probiotics. This intervention restored metabolic balance by reducing 5-HTP consumption and TMAO production and increasing butyrate levels. Consequently, F.l-HP treatment alleviated neuroinflammation and oxidative stress in neuronal cells, restoring mitochondrial function via the p-Akt pathway. In intestinal cells, it enhanced gut barrier integrity by upregulating zonula occludens-1 expression and activating p-AMPKα signaling.

CONCLUSION: E. fergusonii may participate in a 5-HTP-TMAO metabolic axis potentially linked to PD risk. F.l-HP intervention suppressed E. fergusonii activity, reduced 5-HTP consumption and TMAO production, modulated Akt and AMPKα signaling pathway, and alleviated neuroinflammation while enhancing intestinal barrier integrity.},
}

Humans
*Parkinson Disease/microbiology/drug therapy/metabolism
*Probiotics/pharmacology
Animals
*5-Hydroxytryptophan/metabolism
*Methylamines/metabolism
Rats
*Plant Extracts/pharmacology
Gastrointestinal Microbiome/drug effects
PC12 Cells
Faecalibacterium prausnitzii
Lactiplantibacillus plantarum
Oxidative Stress/drug effects
Caco-2 Cells

@article {pmid41500299,
year = {2026},
author = {Zhang, W and Gu, L and Yan, W and Zhao, D and Liu, J},
title = {Acetochlor and sulfamethoxazole co-selection alter soil microbial nitrogen metabolism and resistome in agroecosystem.},
journal = {Environmental research},
volume = {292},
number = {},
pages = {123688},
doi = {10.1016/j.envres.2026.123688},
pmid = {41500299},
issn = {1096-0953},
mesh = {*Sulfamethoxazole/toxicity ; *Soil Microbiology ; *Herbicides/toxicity ; *Nitrogen/metabolism ; *Toluidines/toxicity ; *Soil Pollutants/toxicity ; *Drug Resistance, Microbial/genetics ; *Microbiota/drug effects ; Agroecology ; Bacteria/drug effects/metabolism/genetics ; *Anti-Bacterial Agents ; },
abstract = {Agricultural soils increasingly face co-contamination by herbicides and antibiotics, yet the ecological impacts of such multipollutant exposure remain poorly understood. This study employed a soil-plant microcosm combined with metagenomic sequencing to investigate the co-selective effects of acetochlor (ACE) and sulfamethoxazole (SMX) on soil microbiomes and antibiotic resistance genes (ARGs). The results showed that SMX functioned as the dominant ecological filter, significantly reducing microbial diversity and restructuring community composition via suppressing Pseudomonadota while enriching Acidobacteriota. Co-exposure further decreased diversity and shifted nitrogen metabolic pathways: SMX inhibited denitrification and nitrogen fixation, whereas co-combination synergistically enhanced the potential of nitrous oxide emission. Critically, herbicide-antibiotic co-exposure drove the emergence of clinically relevant ARGs (e.g., CMY-80, MCR-2.5) and enhanced their dissemination by increasing network complexity among host microorganisms. Moreover, ACE acted as an 'antibiotic adjuvant', accelerating resistance evolution through stress-induced physiological responses and mobility activation. ACE dose-dependent responses revealed the dual ecological role of agrochemicals: signaling molecules at low concentrations (2.5 mg/kg) and stressors at elevated levels (5.0 mg/kg). Genomic analysis further showed a higher chromosomal than plasmid-borne ARG abundance, reflecting a dynamic equilibrium between persistent and mobile resistance under fluctuating environmental pressures. These findings underscore the necessity of incorporating multipollutant scenarios into risk assessment, as single-contaminant evaluations underestimate the ecological and public health risks in agricultural ecosystems.},
}

*Sulfamethoxazole/toxicity
*Soil Microbiology
*Herbicides/toxicity
*Nitrogen/metabolism
*Toluidines/toxicity
*Soil Pollutants/toxicity
*Drug Resistance, Microbial/genetics
*Microbiota/drug effects
Agroecology
Bacteria/drug effects/metabolism/genetics
*Anti-Bacterial Agents

@article {pmid41501250,
year = {2026},
author = {Liu, C and Xing, Y and Su, J and Liu, Y and Dou, Y and Wang, Z and Sha, S and Yan, Q and Xu, M and Zhao, L and Tian, Y and Xing, G and Li, S and Kang, J and Kong, X},
title = {Multi-kingdom gut microbiota characterization in Chinese patients with idiopathic inflammatory myopathies.},
journal = {Scientific reports},
volume = {16},
number = {1},
pages = {3801},
pmid = {41501250},
issn = {2045-2322},
support = {XJ2023001102//The Cultivating Scientific Research Project of the Second Hospital of Dalian Medical University/ ; 2023-MSLH-032//Joint Funds of the National Natural Science Foundation of Liaoning Province/ ; JCH22023017//Dalian Medical University Interdisciplinary Research Cooperation Project Team Funding/ ; 82370563//National Natural Science Foundation of China/ ; },
mesh = {Humans ; *Gastrointestinal Microbiome/genetics ; Female ; Male ; *Myositis/microbiology ; Middle Aged ; Adult ; China ; Feces/microbiology ; Metagenomics/methods ; Dysbiosis/microbiology ; Bacteria/genetics/classification ; Virome ; Machine Learning ; Case-Control Studies ; Metagenome ; Asian People ; Aged ; East Asian People ; },
abstract = {Idiopathic inflammatory myopathies (IIMs) are systemic autoimmune disorders with unknown etiology. Despite the established link between gut microbes and immunity, the roles of gut bacteriome, mycobiome, and virome in IIM are unexplored. We performed shotgun metagenomic sequencing on fecal samples from 34 IIM patients and 37 healthy controls to profile gut microbiota. Taxonomic, functional, network, and machine-learning analyses revealed microbial dysbiosis and its potential for discriminating IIM. All three microbial kingdoms were significantly altered in IIM. Several inflammation-associated bacterial taxa (e.g., Rothia mucilaginosa, Streptococcus parasanguinis, Trueperella pyogenes) and opportunistic fungi (e.g., Aspergillus spp.) were enriched in IIM, while SCFA-producing bacteria and fungi were depleted. Virome analysis revealed substantial shifts, with higher abundance of Siphoviridae in IIM. Altered viral functional gene profiles suggesting enhanced phage-mediated genome integration, recombination, and bacterial stress adaptation. Multi-kingdom network analysis showed extensive rewiring in IIM, characterized by increased network connectivity and a shift toward fungi-centered ecological hubs, contrasting with bacteria/virus-dominated networks in controls. In machine-learning models, the virome demonstrated the strongest discriminatory power, and viral signatures dominated the combined multi-kingdom classifier (AUC = 0.997). This first comprehensive multi-kingdom gut microbiota analysis in IIM provides a foundation for developing diagnostic and therapeutic strategies.},
}

Humans
*Gastrointestinal Microbiome/genetics
Female
Male
*Myositis/microbiology
Middle Aged
Adult
China
Feces/microbiology
Metagenomics/methods
Dysbiosis/microbiology
Bacteria/genetics/classification
Virome
Machine Learning
Case-Control Studies
Metagenome
Asian People
Aged
East Asian People

@article {pmid41501865,
year = {2026},
author = {Sun, J and Meng, Y and Chen, Z and Zhao, T and Yang, C and Chen, S and Wang, J and Tian, L and Song, F and Duan, Y and Cai, W and Zhang, X and Li, H},
title = {Gut microbiome convergence and functional adaptation underlie the evolution of predation in stink bugs (Heteroptera: Pentatomidae).},
journal = {Microbiome},
volume = {14},
number = {1},
pages = {56},
pmid = {41501865},
issn = {2049-2618},
support = {31730086//National Natural Science Foundation of China/ ; 110202101046[LS-06]//Pests and Diseases Green Prevention and Control Major Special Project/ ; xinkywdzc-2025001-91//Project of Fund for Stable Support to Agricultural Sci-Tech Renovation/ ; },
mesh = {Animals ; *Heteroptera/microbiology/physiology/classification ; *Gastrointestinal Microbiome ; *Predatory Behavior ; *Bacteria/classification/genetics/isolation & purification ; Symbiosis ; Phylogeny ; Proteobacteria/isolation & purification/classification/genetics ; Adaptation, Physiological ; Biological Evolution ; Enterococcus/isolation & purification/genetics/classification ; Serratia/isolation & purification/genetics ; Bacillota/isolation & purification/genetics/classification ; },
abstract = {BACKGROUND: True bugs (Heteroptera) have undergone repeated evolutionary shifts between phytophagous and carnivorous feeding strategies. Although gut microbiomes are recognized for aiding dietary adaptation, their function in mediating these transitions is still unclear, specifically, how microbial communities change during dietary evolution and influence the diversification of feeding traits.

RESULTS: Here, we selected a stink bug lineage of the subfamily Asopinae (Pentatomidae), representative of an independent feeding trait transition from phytophagy to carnivory. Their gut microbiomes were analyzed and compared to those of closely related phytophagous species within the Pentatomidae family, as well as predatory assassin bugs from the Reduviidae family, which represent the ancestral heteropteran feeding trait of predation. It was found that Asopinae lack the gammaproteobacterial symbionts and midgut crypts that are conserved in their phytophagous counterparts. Instead, their gut microbiomes converged on a community dominated by Enterococcus (Firmicutes) and select Proteobacteria (Serratia, Yokenella, Proteus), mirroring the microbiome of assassin bugs. This core community persisted despite prey variation, likely maintained through pentatomid ancestral eggshell-piercing behavior, enabling vertical transmission. Metagenomic analysis linked the Asopinae microbiome to functions potentially associated with predation adaptation, including the digestion of chitinous substrates likely sourced from prey's internal body. Through bacterial isolation, genomics, and functional assays, we demonstrated that Serratia mediates chitin degradation, which along with a potential coordination in diet digestion, may also have been involved in an antifungal effect. Meanwhile, an Enterococcus strain exhibits inhibition to multiple pathogens such that may provide protections to the host, potentially via a class III lanthipeptide.

CONCLUSIONS: Our findings reveal a coordinated restructuring of the gut microbiome during dietary shifts. The convergence of Asopinae and Reduviidae microbiomes underscores how microbial communities may have facilitated the ecological adaptation, likely by enabling hosts to exploit new dietary niches and providing defense against bacterial and fungal pathogens. Video Abstract.},
}

Animals
*Heteroptera/microbiology/physiology/classification
*Gastrointestinal Microbiome
*Predatory Behavior
*Bacteria/classification/genetics/isolation & purification
Symbiosis
Phylogeny
Proteobacteria/isolation & purification/classification/genetics
Adaptation, Physiological
Biological Evolution
Enterococcus/isolation & purification/genetics/classification
Serratia/isolation & purification/genetics
Bacillota/isolation & purification/genetics/classification

@article {pmid41502126,
year = {2026},
author = {Gutierrez, F and Vargas, S and Machado-Perez, F and Wilson, J and García-Maldonado, JQ and Beman, JM},
title = {Microbial Community Metagenomics in the Eastern Tropical North Pacific Oxygen Minimum Zone Reveals Functional Differences Along Biogeochemical Gradients.},
journal = {Environmental microbiology},
volume = {28},
number = {1},
pages = {e70226},
doi = {10.1111/1462-2920.70226},
pmid = {41502126},
issn = {1462-2920},
support = {OCE-1555375//National Science Foundation/ ; //University of California Alianza MX/ ; },
mesh = {*Oxygen/analysis/metabolism ; *Seawater/microbiology/chemistry ; Metagenomics ; Pacific Ocean ; *Metagenome ; *Microbiota/genetics ; *Bacteria/genetics/classification/metabolism/isolation & purification ; Photosynthesis ; Chlorophyll/analysis ; },
abstract = {Oxygen Minimum Zones (OMZs) are pivotal ocean regions defined by low dissolved oxygen concentrations [DO]. However, biogeochemical variations within OMZs-both laterally and with depth-may select for fundamentally different microbial metabolisms important for ocean biogeochemistry. We used metagenome sequencing to investigate potential differences by specifically targeting biogeochemically-important features-including the primary and secondary nitrite maxima (PNM and SNM), the secondary chlorophyll maximum (SCM), and the upper edge of the OMZ (defined by 20 μM [DO]). Read-based analysis identified variations in 5389 functional genes but high similarity among SCM and SNM metagenomes at multiple stations. 690 genes showed significant differences between different features and included key functional genes involved in photosynthesis elevated in the PNM, while carbon fixation, anaerobic nitrogen cycling, and organic sulphur cycling genes increased in the SCM and SNM. Metagenome assembled genomes from a distinct upper OMZ edge sample included multiple Flavobacteriaceae and Rhodobacteraceae, with annotated functions contributing to metabolism of carbohydrates and amino acids, as well as aerobic anoxygenic photosynthesis (in Rhodobacteraceae). Our results identify functional genes and metabolic pathways that are enriched in unique SCM and SNM features, while also demonstrating sharp shifts in functional capacity in the overlying upper water column, within the ocean's largest OMZ.},
}

*Oxygen/analysis/metabolism
*Seawater/microbiology/chemistry
Metagenomics
Pacific Ocean
*Metagenome
*Microbiota/genetics
*Bacteria/genetics/classification/metabolism/isolation & purification
Photosynthesis
Chlorophyll/analysis

@article {pmid41502165,
year = {2026},
author = {Keller, LM and Colman, DR and Stefánsson, A and Boyd, ES},
title = {Cross-Feeding of Carbon and Nitrogen Between Aquificales and Thermus in Hot Springs.},
journal = {Environmental microbiology},
volume = {28},
number = {1},
pages = {e70225},
pmid = {41502165},
issn = {1462-2920},
support = {80NSSC19M0150/NASA/NASA/United States ; MSU D19//W. M. Keck Foundation/ ; },
mesh = {*Hot Springs/microbiology ; *Carbon/metabolism ; *Nitrogen/metabolism ; Iceland ; *Thermus/metabolism/genetics/growth & development ; Nitrogen Fixation ; Carbon Dioxide/metabolism ; },
abstract = {Acquisition and cycling of carbon and nitrogen among members of hot spring communities are not well understood. Metagenomic analyses of 105 communities inhabiting high temperature hot springs across Yellowstone and Iceland showed a co-distribution pattern of putatively autotrophic and/or diazotrophic (nitrogen-fixing) Aquificales and Thermus populations. Targeted enrichment of autotrophic and diazotrophic populations in an Icelandic hot spring produced a co-culture of Pampinifervens (Aquificales) that encoded carbon dioxide and nitrogen fixation pathways and Thermus (Thermales). Growth experiments revealed Pampinifervens could support the fixed carbon and nitrogen demands of Thermus, enabling growth. Interestingly, growth of Thermus was enhanced in co-cultures when Pampinifervens was forced to fix both carbon and nitrogen versus just carbon (ammonia-amended cultures). Further experimentation with Thermus, when grown in isolation, showed it preferred amino acids over ammonia as a nitrogen source. These findings demonstrate the importance of metabolic interactions among populations that can dictate the co-distribution of taxa in hot springs, drive community assembly, and maintain biodiversity. Further, these results highlight the fundamental role of Aquificales in the functioning of hot spring ecosystems, particularly those limited in organic carbon and fixed nitrogen like those in Iceland and to a lesser extent Yellowstone.},
}

*Hot Springs/microbiology
*Carbon/metabolism
*Nitrogen/metabolism
Iceland
*Thermus/metabolism/genetics/growth & development
Nitrogen Fixation
Carbon Dioxide/metabolism

@article {pmid41502197,
year = {2025},
author = {Hasan, I},
title = {Short-Chain Fatty Acids in the Gut-Brain-Liver Axis: Implications for Hepatic Encephalopathy.},
journal = {Acta medica Indonesiana},
volume = {57},
number = {4},
pages = {433-435},
pmid = {41502197},
issn = {2338-2732},
mesh = {Humans ; *Hepatic Encephalopathy/epidemiology/metabolism/etiology ; *Fatty Acids, Volatile/metabolism/analysis ; *Gastrointestinal Microbiome ; Indonesia/epidemiology ; *Liver Cirrhosis/complications ; *Brain/metabolism ; *Liver/metabolism ; },
abstract = {Hepatic encephalopathy (HE) is one of the serious complications of liver cirrhosis, characterized by a broad spectrum of neuropsychiatric symptoms, ranging from subtle cognitive impairment to coma, due to brain dysfunction associated with acute or chronic liver failure and/or portosystemic shunting. Globally, the prevalence of hepatic encephalopathy (HE) is reported to range from 20% to 80% in patients with liver cirrhosis, depending on whether the assessment includes minimal (MHE) or overt (OHE) forms. In Indonesia, determining the true prevalence of HE is challenging due to diagnostic difficulties, with estimates ranging from 30% to 84%. At Cipto Mangunkusumo General Hospital, the prevalence of HE in 2009 was 63.2%. In recent years, evidence has highlighted the role of the gut microbiota in the pathogenesis of hepatic encephalopathy (HE), a concept now widely referred to as the "gut-liver-brain axis." Short-chain fatty acids (SCFAs) are gut microbial-derived metabolites that provide numerous health benefits. SCFA has been demonstrated to impact gut barrier function, immunomodulation, and glucose homeostasis. In this issue, Ferdianto et al. conducted a cross-sectional observational study comparing the amount and composition of fecal SCFA in cirrhotic patients with and without HE. The study revealed no significant difference in SFA levels between HE and non-HE groups; however, the HE groups demonstrated higher levels of total SCFA, acetate, and butyrate compared to the non-HE groups. While this study contributes valuable early evidence from an Indonesian cohort, several important limitations should be acknowledged. First, the diagnostic approach for covert or minimal HE requires clarification. The authors did not explicitly state the neuropsychological tools and specific criteria used. Clear definitions are essential, as minimal and covert HE is susceptible to the choice of diagnostic method and can substantially influence group classification. Second, although SCFAs represent key microbial metabolites, the study did not explore the underlying microbiome composition. Without bacterial taxonomy or species-level data, it remains difficult to determine whether differences in SCFA levels truly reflect gut dysbiosis or altered microbial diversity. SCFA concentrations may be influenced by multiple factors, and therefore, inclusion of metagenomic or sequencing data would strengthen the mechanistic interpretation and allow linking specific bacterial taxa with cognitive impairment. Future studies that include larger and more heterogeneous cohorts, alongside integrated analyses of microbiome composition and validated neurocognitive testing, will be crucial to validate the role of SCFAs in HE development.},
}

Humans
*Hepatic Encephalopathy/epidemiology/metabolism/etiology
*Fatty Acids, Volatile/metabolism/analysis
*Gastrointestinal Microbiome
Indonesia/epidemiology
*Liver Cirrhosis/complications
*Brain/metabolism
*Liver/metabolism

@article {pmid41503791,
year = {2026},
author = {Jin, J and Yao, G and Zhang, X and Zhang, T and Ye, H and Zhou, X and Yu, Y and Zhao, Y and Qin, Z and Chen, H and Bi, Y and Wang, X and Ren, X and Zhang, Y and Wang, Z and Zhang, Q},
title = {Gut virome dysbiosis contributes to premature ovarian insufficiency by modulating gut bacteriome.},
journal = {Gut microbes},
volume = {18},
number = {1},
pages = {2611645},
pmid = {41503791},
issn = {1949-0984},
mesh = {Female ; *Dysbiosis/virology/complications/microbiology ; Animals ; *Primary Ovarian Insufficiency/microbiology/virology/therapy/etiology ; Humans ; *Gastrointestinal Microbiome ; Rats ; *Virome ; Adult ; Fecal Microbiota Transplantation ; Feces/virology/microbiology ; Bacteria/classification/genetics/isolation & purification ; Ovary/physiopathology ; Young Adult ; },
abstract = {BACKGROUND: Premature ovarian insufficiency (POI) significantly impairs female fertility and poses substantial health risks; however, its pathogenesis is incompletely understood, and effective therapeutic interventions are limited. Although gut bacteriome has been closely associated with ovarian dysfunction, the role and therapeutic potential of gut viruses, which far outnumber bacteria, remain largely unexplored.

RESULTS: Therefore, we recruited 60 healthy reproductive-aged women and recently diagnosed POI patients and investigated these concerns using various techniques, including whole-genome shotgun sequencing of virus-like particle (VLP) and fecal virome transplantation (FVT) in CTX-induced POI rats. We found considerable interindividual variability in the gut virome. The virome of POI patients exhibited significant dysbiosis, characterized by a marked reduction in virulent phage, significant changes in predominant phages, and a notable increase in horizontal gene transfer of resistance genes and virulence factors. Furthermore, gut VLPs from the healthy reproductive-aged women significantly improved the condition of POI rats. Conversely, gut VLPs from POI patients markedly impaired the ovarian function and reproductive capacity of healthy rats. The above regulatory effect is primarily due to modulations of gut bacteriome, specifically the estrobolome, and intestinal barrier integrity, which subsequently affect hypothalamic-pituitary-ovarian axis hormone levels and regulate ovarian oxidative stress and inflammation, thereby influencing ovarian function.

CONCLUSIONS: Our findings demonstrate the critical roles of the gut virome in regulating ovarian function and provide new insights into the pathogenesis of POI. This study also underscores the therapeutic potential of the gut virome in improving ovarian dysfunction and female infertility including POI.},
}

Female
*Dysbiosis/virology/complications/microbiology
Animals
*Primary Ovarian Insufficiency/microbiology/virology/therapy/etiology
Humans
*Gastrointestinal Microbiome
Rats
*Virome
Adult
Fecal Microbiota Transplantation
Feces/virology/microbiology
Bacteria/classification/genetics/isolation & purification
Ovary/physiopathology
Young Adult

@article {pmid41504158,
year = {2025},
author = {Chen, T and Guo, Y and Liang, D and Li, D and Xing, S and Li, D and Zhang, C and Wang, F},
title = {Discriminative Gut Microbial Signatures in Hyperuricemia and Overweight Populations Revealed by Metagenomic Sequencing.},
journal = {International journal for vitamin and nutrition research. Internationale Zeitschrift fur Vitamin- und Ernahrungsforschung. Journal international de vitaminologie et de nutrition},
volume = {95},
number = {6},
pages = {42590},
doi = {10.31083/IJVNR42590},
pmid = {41504158},
issn = {0300-9831},
support = {S2023KFKT-12//Ministry of Agriculture and Rural Affairs/ ; 2024YFF1107000//National Key Research and Development Program of China/ ; },
mesh = {Humans ; *Hyperuricemia/microbiology ; *Overweight/microbiology ; Female ; Male ; Cross-Sectional Studies ; *Gastrointestinal Microbiome/genetics ; Feces/microbiology ; Adult ; Middle Aged ; *Metagenomics ; Metagenome ; },
abstract = {BACKGROUND: This cross-sectional study aimed to investigate the relationships between gut microbiota compositional alterations and chronic metabolic disorders by analyzing taxonomic diversity, community structure, and species-level differences in individuals with hyperuricemia (HUA) and a history of being overweight. Our findings offer novel insights into microbiota-targeted therapeutic strategies for managing metabolic diseases. A total of 144 participants were recruited and divided into three diagnostic categories: healthy controls (HL, n = 29), hyperuricemia group (HU, n = 24), and overweight (OW, n = 91).

METHODS: Comprehensive phenotypic profiles and metagenomes were analyzed for fecal samples from the three groups.

RESULTS: Significant differences were observed in psychological states and microbial ecology between the metabolic disorder groups (HU and OW) and the control group (HL) (p < 0.05). Both the overweight individuals and those with HUA presented significant changes in gut microbial composition, with reduced α-diversity indices (Shannon index: HU vs HL Mann-Whitney U = 306; p = 0.462; OW vs HL Mann-Whitney U = 1008; p = 0.040; richness index: HU vs HL Mann-Whitney U = 307; p = 0.469; OW vs HL Mann-Whitney U = 1072; p = 0.092) compared to healthy individuals. Moreover, analysis of the linear discriminant analysis effect size (LEfSe) identified four discriminatory species in the HU group (Alistipes putredinis, Mediterraneibacter faecis, Streptococcus oralis, and Gemella sanguinis), and five in the OW group (Pantoea endophytica, Pantoea vagans, Phocaeicola coprophilus, Ruminococcus SGB4421, and Klebsiella oxytoca), representing potential biomarkers for the progression of chronic metabolic diseases.

CONCLUSION: This study elucidates the characteristics of overweight individuals and those with HUA in terms of phenotypic features and gut microbiota, providing a theoretical reference for gut microbiota-targeted therapies and lifestyle interventions in chronic metabolic diseases.},
}

Humans
*Hyperuricemia/microbiology
*Overweight/microbiology
Female
Male
Cross-Sectional Studies
*Gastrointestinal Microbiome/genetics
Feces/microbiology
Adult
Middle Aged
*Metagenomics
Metagenome

@article {pmid41504449,
year = {2026},
author = {Xu, J and Ma, J and Lin, H and Yan, S and Niu, H},
title = {Metagenomic and metabolomic analyses of rumen fiber digestion in Mongolian cattle fed fresh grass versus hay.},
journal = {Microbiology spectrum},
volume = {14},
number = {2},
pages = {e0305125},
pmid = {41504449},
issn = {2165-0497},
support = {32460813//National Natural Science Foundation of China/ ; 2022MS03074, 2025MS03005, 2023YFDZ0079, 2023YFDZ0068, 2025YFDZ0123//Department of Science and Technology of Inner Mongolia Autonomous Region/ ; NJYT22054//Education Department of Inner Mongolia Autonomous Region/ ; },
mesh = {Animals ; Cattle/metabolism ; *Rumen/microbiology/metabolism ; Female ; *Dietary Fiber/metabolism ; *Animal Feed/analysis ; Fermentation ; Metagenomics ; Bacteria/classification/genetics/isolation & purification/metabolism ; *Poaceae/metabolism ; Mongolia ; Metabolomics ; Digestion ; Fungi/classification/genetics/isolation & purification/metabolism ; Gastrointestinal Microbiome ; },
abstract = {Mongolian cattle exhibit exceptional roughage tolerance due to their rumen microbiome's robust fiber-degrading capacity, enabling efficient utilization of low-quality forage under the Mongolian Plateau's seasonal fluctuations. This study compared rumen microbial composition, CAZyme profiles, fermentation parameters, and metabolic pathways in cattle fed fresh grass (FG) versus hay to elucidate microbe-metabolite interactions underlying fiber digestion. Thirty non-pregnant female Mongolian cattle (460 ± 35 kg, 3-4 years old) were randomly divided into two groups (n = 15/group): one grazed on FG, the other housed and fed autumn-harvested hay (HG). Six animals per group were subsampled for rumen fluid collection and multi-omics analyses (n = 6/group, total n = 12). Compared with the FG group, the HG group showed an increased molar proportion of acetate and a higher acetate-to-propionate ratio, along with reduced molar proportions of propionate and butyrate in rumen fermentation parameters. Metagenomic analysis revealed a higher abundance of Bacteroidalesbacteria and anaerobic fungi (including Neocallimastix sp.JGI-2020a and Piromyces sp.E2) in the HG group. Functional annotation further indicated enriched carbohydrate metabolism pathways in the HG group, along with a greater diversity of CAZymes, particularly those involved in hemicellulose and pectin degradation. Metabolomics identified 13 differentially abundant carbohydrate metabolites, with gluconolactone upregulated in the HG group. Additionally, carbohydrate metabolism pathways identified in the metabolome corroborated the reliability of the metagenomic functional annotations. Correlation network analysis revealed positive associations of Bacteroidaceaebacteria, Neocallimastix sp.JGI-2020a, and Piromyces sp.E2 with acetate, hemicellulose-degrading GHs, and carbohydrate metabolic pathways. In conclusion, hay feeding enhanced ruminal fiber degradation in Mongolian cattle through increased Bacteroidales and anaerobic fungi, diversified CAZymes (especially hemicellulases/pectinases), and upregulated carbohydrate metabolism, reflecting microbial adaptation to low-quality forage.IMPORTANCEMongolian cattle's superior roughage tolerance depends on a specialized rumen microbiome that degrades fibrous substrates via diverse CAZymes. However, microbe-metabolite interactions driving fiber digestion in this breed remain poorly understood. This study revealed an increased abundance of bacteria and fungi involved in rumen fiber degradation, which may be responsible for secreting enzymes associated with hemicellulose and pectin breakdown. Furthermore, the upregulation of key metabolites, including gluconolactone, indirectly promotes acetate production through pathways such as glycolysis and the pentose phosphate pathway. These findings reveal microbial adaptations enhancing low-quality forage utilization, offering new strategies for improving ruminant efficiency in seasonal or resource-limited grazing systems.},
}

Animals
Cattle/metabolism
*Rumen/microbiology/metabolism
Female
*Dietary Fiber/metabolism
*Animal Feed/analysis
Fermentation
Metagenomics
Bacteria/classification/genetics/isolation & purification/metabolism
*Poaceae/metabolism
Mongolia
Metabolomics
Digestion
Fungi/classification/genetics/isolation & purification/metabolism
Gastrointestinal Microbiome

@article {pmid41505541,
year = {2026},
author = {Leung, PM and Jeffrey, LC and Bay, SK and Gomez-Alvarez, P and Hall, M and Johnston, SG and Dittmann, J and Deschaseaux, E and Hopkins, B and Haskell, J and Jirapanjawat, T and Hutchinson, TF and Coleman, NV and Dong, X and Maher, DT and Greening, C},
title = {Bark microbiota modulate climate-active gas fluxes in Australian forests.},
journal = {Science (New York, N.Y.)},
volume = {391},
number = {6781},
pages = {eadu2182},
doi = {10.1126/science.adu2182},
pmid = {41505541},
issn = {1095-9203},
mesh = {*Methane/metabolism ; *Plant Bark/microbiology ; Australia ; *Microbiota ; *Forests ; *Hydrogen/metabolism ; Carbon Monoxide/metabolism ; Metagenomics ; *Trees/microbiology ; *Bacteria/metabolism/genetics/classification ; Anaerobiosis ; },
abstract = {Recent studies suggest that microbes inhabit tree bark, yet little is known about their identities, functions, and environmental roles. Here we reveal, through gene-centric and genome-resolved metagenomics, that the bark of eight common Australian tree species hosts abundant and specialized microbial communities. The predominant bacteria are hydrogen-cycling facultative anaerobes adapted to dynamic redox and substrate conditions. Furthermore, bark-associated methanotrophs are abundant and can coexist with hydrogenotrophic methanogens. Microcosm experiments showed that bark microorganisms aerobically consume methane, hydrogen, and carbon monoxide at in planta concentrations and produce these gases under anoxia. Combined with in situ field measurements, we show that tree-dwelling microbiota metabolize multiple climate-active gases at marked rates within tree stems, highlighting a potentially substantial role in global atmospheric cycles.},
}

*Methane/metabolism
*Plant Bark/microbiology
Australia
*Microbiota
*Forests
*Hydrogen/metabolism
Carbon Monoxide/metabolism
Metagenomics
*Trees/microbiology
*Bacteria/metabolism/genetics/classification
Anaerobiosis

@article {pmid41506424,
year = {2026},
author = {Shi, R and Han, T and Zhang, H and Huang, H and Xiong, L and Liu, Y and Qi, Z},
title = {Response of sediment microbial community composition and function to mangrove restoration from an aquaculture pond in Southern China.},
journal = {Environmental research},
volume = {292},
number = {},
pages = {123718},
doi = {10.1016/j.envres.2026.123718},
pmid = {41506424},
issn = {1096-0953},
mesh = {China ; *Geologic Sediments/microbiology ; *Wetlands ; Aquaculture ; *Microbiota ; Bacteria/classification/genetics ; *Environmental Restoration and Remediation ; Ponds/microbiology ; },
abstract = {Mangrove ecosystems, as highly sensitive and productive habitats, host diverse microbial communities essential to biogeochemical cycling. In recent years, large-scale mangrove restoration in former aquaculture ponds has expanded rapidly in China. This represents a typical land-use shift that likely reshapes microbial communities. However, despite its increasing implementation, the accompanying changes in microbial composition and function remain insufficiently understood. Therefore, we compared sediment microbial community composition, diversity, and functional potential between mangrove-planted and reference areas. By absolute-quantification sequencing and metagenomics, we aimed to assess how mangrove restoration regulates the microbial dynamics and their metabolic potentials for carbon, sulfur, and nitrogen cycling after two years of restoration. Mangrove restoration induced a marked phylum shift from Chloroflexota to Pseudomonadota and significantly increased microbial β-diversity (p < 0.05), reflecting enhanced phylogenetic niche differentiation. Specialist species in restored sediments were predominantly Pseudomonadota (e.g., Gammaproteobacteria), contrasting with the Chloroflexota- and Actinobacteriota-dominated reference sites. Functional analysis revealed significant up-regulation of genes involved in polysaccharide metabolism (celB/chbC, sacB, treC, fruB; p < 0.05), assimilatory sulfate reduction, sulfur oxidation (soxZ; p < 0.05), nitrogen fixation (nifH; p < 0.05), and assimilatory nitrate reduction. Furthermore, most high-abundance metagenome-assembled genomes (MAGs) from mangrove sediments encoded sulfate reduction genes. Notably, microbial carbon cycling potential correlated with particulate organic nitrogen, while nitrate concentration linked to nitrogen and sulfur cycling genes, highlighting cross-element synergies. These findings demonstrated that two years of mangrove restoration alters sediment microbiomes and their biogeochemical functions potential, thereby may influence carbon sequestration and nutrient cycling in coastal ecosystems.},
}

China
*Geologic Sediments/microbiology
*Wetlands
Aquaculture
*Microbiota
Bacteria/classification/genetics
*Environmental Restoration and Remediation
Ponds/microbiology

@article {pmid41507585,
year = {2026},
author = {Hsu, CL and Shukla, S and Freund, L and Chou, AC and Yang, Y and Bruellman, R and Raya Tonetti, F and Cabré, N and Mayo, S and Lim, HG and Magallan, V and Cordell, BJ and Lang, S and Demir, M and Stärkel, P and Llorente, C and Palsson, BO and Mandyam, C and Boland, BS and Hohmann, E and Schnabl, B},
title = {Gut microbial ethanol metabolism contributes to auto-brewery syndrome in an observational cohort.},
journal = {Nature microbiology},
volume = {11},
number = {2},
pages = {415-428},
pmid = {41507585},
issn = {2058-5276},
support = {K99 AA031328/AA/NIAAA NIH HHS/United States ; R21 AA030654/AA/NIAAA NIH HHS/United States ; R01 AA020098/AA/NIAAA NIH HHS/United States ; DE-AC02-05CH11231//U.S. Department of Energy (DOE)/ ; R01 AA029106, R21 AA030654, P30 AR073761//U.S. Department of Health & Human Services | National Institutes of Health (NIH)/ ; CTORA23-208366//American Association for the Study of Liver Diseases (AASLD)/ ; BX004594//Biomedical Laboratory Research and Development, VA Office of Research and Development (VA Biomedical Laboratory Research and Development)/ ; P30 DK120515/DK/NIDDK NIH HHS/United States ; R00 AA031328/AA/NIAAA NIH HHS/United States ; },
mesh = {Humans ; *Ethanol/metabolism ; Feces/microbiology/chemistry ; *Gastrointestinal Microbiome/genetics ; Cohort Studies ; Metabolic Networks and Pathways/genetics ; Male ; Fermentation ; Female ; Fecal Microbiota Transplantation ; Escherichia coli/metabolism/genetics/isolation & purification ; Metagenomics ; Middle Aged ; Metabolomics ; Adult ; },
abstract = {Auto-brewery syndrome (ABS) is a rarely diagnosed disorder of alcohol intoxication due to gut microbial ethanol production. Despite case reports and a small cohort study, the microbiological profiles of patients remain poorly understood. Here we conducted an observational study of 22 patients with ABS and 21 unaffected household partners. Faecal samples from individuals with ABS during a flare produced more ethanol in vitro, which could be reduced by antibiotic treatment. Gut microbiome analysis using metagenomics revealed an enrichment of Proteobacteria, including Escherichia coli and Klebsiella pneumoniae. Genes in metabolic pathways associated with ethanol production were enriched, including the mixed-acid fermentation pathway, heterolactic fermentation pathway and ethanolamine utilization pathway. Faecal metabolomics revealed increased acetate levels associated with ABS, which correlated with blood alcohol concentrations. Finally, one patient was treated with faecal microbiota transplantation, with positive correlations between gut microbiota composition and function, and symptoms. These findings can inform future clinical interventions for ABS.},
}

Humans
*Ethanol/metabolism
Feces/microbiology/chemistry
*Gastrointestinal Microbiome/genetics
Cohort Studies
Metabolic Networks and Pathways/genetics
Male
Fermentation
Female
Fecal Microbiota Transplantation
Escherichia coli/metabolism/genetics/isolation & purification
Metagenomics
Middle Aged
Metabolomics
Adult

@article {pmid41507780,
year = {2026},
author = {Gaonkar, PP and Santana-Pereira, ALR and Golden, R and Lambert, A and Higgins, C and Adhikari, Y and Bailey, M and Macklin, K and Huber, L},
title = {Microbiome and resistome dynamics in different stages of commercial broiler production with restricted antimicrobial use.},
journal = {BMC microbiology},
volume = {26},
number = {1},
pages = {126},
pmid = {41507780},
issn = {1471-2180},
support = {G00017930//United States Department of Agriculture (USDA)/ ; Intramural funding//Alabama Agricultural Experiment Station/ ; },
mesh = {Animals ; *Chickens/microbiology ; *Microbiota/drug effects/genetics ; *Bacteria/drug effects/genetics/classification/isolation & purification ; *Anti-Bacterial Agents/pharmacology ; Animal Husbandry/methods ; *Drug Resistance, Bacterial ; Farms ; *Anti-Infective Agents/pharmacology ; Soil Microbiology ; Shotgun Sequencing ; },
abstract = {BACKGROUND: Antimicrobial use (AMU) in poultry production is central to curb the Antimicrobial Resistance (AMR) crisis. Institutional and market pressure led many commercial poultry operations to practice distinct levels of AMU restriction. On-farm data remains one of the main bottlenecks in understanding the impacts of AMU restriction at the farm level and across production systems. However, AMR dynamics in company-wide production chains remain largely unexplored, precluding improvement of AMU policies and stewardship.

STUDY AIM: Here, we shotgun sequenced soil and litter samples from 26 poultry farms and carcass rinses from a processing plant to reconstruct the microbiome and resistome of two vertically integrated commercial poultry operations to explore their dynamics under AMU restriction.

RESULTS: Shotgun sequencing revealed that litter microbiome and resistome changed significantly by production stage and company, reflecting management practices and possible effects of historical AMU. Meanwhile, broiler farms had increased detection of potential pathogens and AMR diversity. We found no evidence of farm-to-fork transmission. Effective biosecurity protocols largely maintained the separation between the internal and external environments of the poultry houses, except on two farms where breaches might have led to external spread of pathogens and AMR.

CONCLUSION: Our study highlights that AMR in commercial poultry system reflects the combined effect of production-stage, company practices, and environmental boundaries. Future studies should integrate quantitative AMR data and culture-based techniques with metagenomic findings to strengthen tracking and surveillance of AMR in poultry farm environments.},
}

Animals
*Chickens/microbiology
*Microbiota/drug effects/genetics
*Bacteria/drug effects/genetics/classification/isolation & purification
*Anti-Bacterial Agents/pharmacology
Animal Husbandry/methods
*Drug Resistance, Bacterial
Farms
*Anti-Infective Agents/pharmacology
Soil Microbiology
Shotgun Sequencing

@article {pmid41507798,
year = {2026},
author = {Zhao, J and Cai, W and Zhang, X and Fang, H and Zhuge, J and Zhang, L and Wang, J and Sun, L and Hua, Z and Fu, J},
title = {Exploring lung microbiota and clinical application of BALF-mNGS in patients with pulmonary mycobacterial diseases: a multicenter retrospective study.},
journal = {BMC microbiology},
volume = {26},
number = {1},
pages = {130},
pmid = {41507798},
issn = {1471-2180},
support = {2020ZZ002,2021ZZ003//Project of Zhejiang Administration of Traditional Chinese Medicine/ ; LZ22H150001//Natural Science Foundation of Zhejiang Province/ ; 82072161//National Natural Science Foundation of China/ ; 2024KY1761//2024 Science and Technology Program for Medicine and Health in Zhejiang Province/ ; 2023K112//Quzhou Science and Technology Program/ ; },
mesh = {Retrospective Studies ; Humans ; *Bronchoalveolar Lavage Fluid/microbiology ; Female ; Male ; *Lung/microbiology ; Aged ; Nontuberculous Mycobacteria/genetics/isolation & purification ; *Microbiota ; High-Throughput Nucleotide Sequencing ; *Mycobacterium Infections, Nontuberculous/microbiology/diagnosis ; Middle Aged ; Mycobacterium tuberculosis/genetics/isolation & purification ; Bacilloscopy ; *Tuberculosis, Pulmonary/microbiology ; Metagenomics ; },
abstract = {BACKGROUND: Pulmonary mycobacterial diseases (PMDs) remain a leading cause of infectious disease-related mortality worldwide, with the majority of cases attributed to the Mycobacterium tuberculosis complex (MTBC). However, non-tuberculous mycobacteria (NTM) can also cause PMDs, and the incidence of non-tuberculous mycobacterial pulmonary disease (NTM-PD) has been increasing in recent years.

OBJECTIVES: This study aimed to explore the lung microbiota and assess the clinical application of bronchoalveolar lavage fluid metagenomic next-generation sequencing (BALF-mNGS) in patients with PMDs caused by MTBC or NTM.

METHODS: This multicenter, retrospective study included patients with suspected PMDs between July 2021 to June 2025. mNGS and conventional diagnostic methods (CDTs), including GeneXpert, BALF culture, acid-fast bacillus (AFB) staining, and T-SPOT, were performed. Based on the microbiological diagnosis, patients were classified into TB and NTM-PD groups. We further analyzed the clinical impact of different MTBC/NTM abundance levels. The relative abundance of MTBC/NTM was represented by reads ten per million (RTPM). Patient clinical characteristics, length of hospital stay (LOHS), laboratory results, and treatment effectiveness were collected from the electronic medical record system.

RESULTS: Compared with the TB group, patients with NTM-PD exhibited a higher prevalence of immunosuppression (34.96% vs. 53.85%, P = 0.013), particularly prolonged corticosteroid or immunosuppressant therapy (8.94% vs. 21.54%, P = 0.016). In the TB group, higher MTBC abundance was associated with increased positivity of CDTs and alterations in pulmonary microbiota, including enrichment of Candida albicans and other opportunistic pathogens. In the NTM-PD group, although CDTs positivity did not significantly differ between high- and low-abundance subgroups (21.21% vs. 20.00%, P = 0.906), higher NTM abundance was linked to distinct microbial community patterns and a markedly higher ineffective treatment rate (66.67% vs. 39.39%, P = 0.043). Notably, in both TB and NTM-PD groups, elevated MTBC or NTM abundance was associated with longer hospital stays and lower treatment effectiveness, indicating that pathogen abundance is significantly associated with clinical outcomes in pulmonary mycobacterial diseases.

CONCLUSION: BALF-mNGS not only provides superior pathogen detection in patients with PMDs but also shows that lower MTBC/NTM abundance is associated with better clinical prognosis, including shorter hospital stay and better treatment effectiveness, highlighting its potential role as a prognostic indicator.},
}

Retrospective Studies
Humans
*Bronchoalveolar Lavage Fluid/microbiology
Female
Male
*Lung/microbiology
Aged
Nontuberculous Mycobacteria/genetics/isolation & purification
*Microbiota
High-Throughput Nucleotide Sequencing
*Mycobacterium Infections, Nontuberculous/microbiology/diagnosis
Middle Aged
Mycobacterium tuberculosis/genetics/isolation & purification
Bacilloscopy
*Tuberculosis, Pulmonary/microbiology
Metagenomics

@article {pmid41508656,
year = {2026},
author = {Cheah, S and Burke, J and Bruinsma, FJ and Evans, M and Tsimiklis, H and Hodge, AM and Lynch, BM and Giles, GG and Sinha, R and Southey, MC and Milne, RL},
title = {Fecal Sample Collection for Gut Microbiome Research in a Prospective Cohort: A Pilot Study within the Australian Breakthrough Cancer Study.},
journal = {Cancer research communications},
volume = {6},
number = {1},
pages = {70-76},
pmid = {41508656},
issn = {2767-9764},
support = {//Cancer Council Victoria/ ; //Gandel Foundation/ ; //Perpetual (Perpetual Ltd)/ ; //State Trustees Australia Foundation (STAF)/ ; //Winifred and John Webster Charitable Trust Fund/ ; //Pf - Alan (AGL)/ ; //Shaw Family Foundation (SFF)/ ; //Broomhead Family Foundation/ ; },
mesh = {Humans ; Pilot Projects ; *Feces/microbiology ; Female ; Prospective Studies ; *Gastrointestinal Microbiome/genetics ; Male ; Australia ; *Specimen Handling/methods ; Middle Aged ; Aged ; Occult Blood ; Surveys and Questionnaires ; Adult ; Metagenomics/methods ; *Neoplasms/microbiology ; Whole Genome Sequencing ; },
abstract = {UNLABELLED: Large prospective analyses of human gut microbiome profiles are needed to elucidate the role of microbiome variation in the development of disease. We conducted a pilot study to assess the feasibility of home fecal sample collection within a cohort study. A subset of cohort study participants was randomly selected and randomized into four groups defined by fecal sample collection method and questionnaire components. Of 1,093 invited participants, 610 (56%) opted-in, and of those, 88% returned a sample. Of those asked to provide a fecal sample via fecal occult blood test (FOBT) card and complete a short "day-of-sample" questionnaire, 49% returned a sample. Sample return was comparable for participants additionally asked to provide a sample via ethanol tube (51%), complete a food frequency questionnaire (48%), or complete both additional activities (49%). Whole-genome sequencing and metagenomic analysis on paired FOBT and ethanol samples showed that both collection methods provided sufficient quality and quantity of DNA for downstream metagenomic analyses and displayed highly concordant microbiome profiles. Home fecal sample collection for microbiome analysis is feasible in a large prospective cohort. Including additional components did not reduce the likelihood of participants completing all requested items.

SIGNIFICANCE: The expansion of this successful pilot to the larger Australian Breakthrough Cancer Study will facilitate future metagenomic and other host- and microbiome-related analyses in this large prospective cohort and potentially as part of an extended international pooling project.},
}

Humans
Pilot Projects
*Feces/microbiology
Female
Prospective Studies
*Gastrointestinal Microbiome/genetics
Male
Australia
*Specimen Handling/methods
Middle Aged
Aged
Occult Blood
Surveys and Questionnaires
Adult
Metagenomics/methods
*Neoplasms/microbiology
Whole Genome Sequencing

@article {pmid41508741,
year = {2026},
author = {Zhao, Y and Feng, M and Chi, H and Liu, K and Wen, R and Zhang, W and Liu, P},
title = {Diversity, Function and Activity of DNA Viruses in the Qiangyong Proglacial Lake Sediment, the Tibetan Plateau.},
journal = {Environmental microbiology reports},
volume = {18},
number = {1},
pages = {e70262},
pmid = {41508741},
issn = {1758-2229},
support = {24YFFA006//Key Research and Development Program of Gansu Province/ ; XZ202301ZY0008G//Key Research and Development Plan of Tibet Autonomous Region/ ; 42222105//National Natural Science Foundation of China for Excellent Young Scientists Fund Program/ ; 42171144//National Natural Science Foundation of China General Program/ ; 42201056//Young Scientists Fund of the National Natural Science Foundation of China/ ; //Global Ocean Negative Carbon Emissions (ONCE) Program/ ; },
mesh = {*Geologic Sediments/virology ; *Lakes/virology ; Tibet ; *DNA Viruses/genetics/classification/isolation & purification/physiology ; Phylogeny ; Metagenomics ; Biodiversity ; Metagenome ; },
abstract = {Viruses are the most abundant biological entities on Earth and play crucial roles in regulating ecosystem processes and biogeochemical cycling. Proglacial lakes-key components of cryosphere aquatic systems-host diverse microbial communities despite extreme environmental conditions. However, the composition and ecological roles of DNA viral communities in proglacial lake sediments remain poorly understood. In this study, we applied metagenomic and metatranscriptomic approaches to investigate the diversity, function, activity and host interactions of DNA viruses in sediments from Qiangyong proglacial lake on the Tibetan Plateau. We recovered 4039 viral operational taxonomic units (vOTUs), with 76.6% unclassified at the family level, highlighting a vast reservoir of uncharacterized viral lineages. Host prediction linked 1.8% of vOTUs to key microbial taxa involved in carbon, nitrogen and sulphur cycling. We identified a broad array of virus-encoded auxiliary metabolic genes (AMGs) involved in host resource utilization and metabolic transformation. Moreover, 63 AMGs not previously reported in the literature were discovered, significantly expanding the known viral functional gene repertoire. These findings offer new insights into the diversity and ecological potential of sediment-associated DNA viruses in proglacial lakes, and emphasize their possible roles in shaping microbial communities and influencing biogeochemical processes in cold-region ecosystems.},
}

*Geologic Sediments/virology
*Lakes/virology
Tibet
*DNA Viruses/genetics/classification/isolation & purification/physiology
Phylogeny
Metagenomics
Biodiversity
Metagenome

@article {pmid41510663,
year = {2026},
author = {Gong, K and Wang, N and Chen, Y and Yu, J and Kuang, C and Xiong, X and Wan, R and Xing, F and Suzuki, M and Peng, L and Chun, C and Zuo, Y},
title = {Enhancing Iron Nutrition in Citrus: Synergistic Roles of Proline-2'-deoxymugineic Acid in Root Physiology and Microbiome.},
journal = {Journal of agricultural and food chemistry},
volume = {74},
number = {2},
pages = {1998-2011},
doi = {10.1021/acs.jafc.5c09250},
pmid = {41510663},
issn = {1520-5118},
mesh = {*Iron/metabolism/analysis ; *Plant Roots/microbiology/metabolism/growth & development/genetics ; *Microbiota ; *Azetidinecarboxylic Acid/analogs & derivatives/metabolism/pharmacology ; *Citrus/microbiology/metabolism/growth & development/genetics ; Bacteria/genetics/isolation & purification/classification/metabolism ; Rhizosphere ; Fertilizers/analysis ; *Proline/analogs & derivatives/metabolism ; Soil Microbiology ; },
abstract = {Iron (Fe) deficiency severely impairs plant growth and development in calcareous soils. Proline-2'-deoxymugineic acid (PDMA), a phytosiderophore analog that enhances Fe availability, alleviates Fe deficiency in field and vegetable crops but remains untested in perennial woody crops. Herein, we conducted pot and field trials on citrus, integrating physiological assays, RNA sequencing, 16S rRNA profiling, and metagenomics to evaluate PDMA/PDMA-Fe(III) effects on Fe nutrition, yield, root gene expression, and rhizosphere microbial dynamics. Results showed that PDMA/PDMA-Fe(III) significantly improved citrus Fe nutrition-outperforming traditional EDTA-Fe(III)- by increasing rhizosphere Fe availability, thereby increasing yield and downregulating Fe uptake- and stress response-related genes,with PDMA-Fe(III) had stronger suppression. PDMA-Fe(III) minimally disrupted the rhizosphere microbiome, while PDMA recruited plant growth-promoting rhizobacteria (e.g., Pseudomonas, Nitrospira); both treatments enriched microbial carbon fixation pathways. Collectively, PDMA/PDMA-Fe(III) represent eco-efficient Fe fertilizers for citrus orchards, providing sustainable remediation of Fe deficiency in calcareous soils.},
}

*Iron/metabolism/analysis
*Plant Roots/microbiology/metabolism/growth & development/genetics
*Microbiota
*Azetidinecarboxylic Acid/analogs & derivatives/metabolism/pharmacology
*Citrus/microbiology/metabolism/growth & development/genetics
Bacteria/genetics/isolation & purification/classification/metabolism
Rhizosphere
Fertilizers/analysis
*Proline/analogs & derivatives/metabolism
Soil Microbiology

@article {pmid41511078,
year = {2026},
author = {Bowerman, KL and Soo, RM and Chaumeil, PA and Blyton, MDJ and Sørensen, M and Gunbilig, D and Malig, M and Islam, M and Zaugg, J and Wood, DLA and Liachko, I and Auch, B and Morrison, M and Krause, L and Lindberg Møller, B and Neilson, EHJ and Hugenholtz, P},
title = {A molecular inventory of the faecal microbiomes of 23 marsupial species.},
journal = {Microbial genomics},
volume = {12},
number = {1},
pages = {},
pmid = {41511078},
issn = {2057-5858},
support = {INV-044643/GATES/Gates Foundation/United States ; },
mesh = {Animals ; *Feces/microbiology ; *Marsupialia/microbiology ; Phylogeny ; Metagenomics/methods ; *Bacteria/genetics/classification/isolation & purification ; Metagenome ; *Gastrointestinal Microbiome/genetics ; *Microbiota/genetics ; },
abstract = {Despite the recent expansion of culture-independent analyses of animal faecal microbiomes, many lineages remain understudied. Marsupials represent one such group, where, despite their iconic status, direct sequencing-based analyses remain limited. Here, we present a metagenomic and metabolomic exploration of the faecal microbiomes of 23 Diprotodontia marsupials, producing a reference set of 3,868 prokaryotic and 12,142 viral metagenome-assembled genomes, the majority (>80 %) of which represent novel species. As with other animals, host phylogeny is the primary driver of microbiome composition, including distinct profiles for two eucalypt folivore specialists (koalas and southern greater gliders), suggesting independent solutions to this challenging diet. Expansion of several bacterial and viral lineages was observed in these and other marsupial hosts that may provide adaptive benefits. Antimicrobial resistance genes were significantly more prevalent in captive than wild animals, likely reflecting human interaction. This molecular dataset contributes to our ongoing understanding of animal faecal microbiomes.},
}

Animals
*Feces/microbiology
*Marsupialia/microbiology
Phylogeny
Metagenomics/methods
*Bacteria/genetics/classification/isolation & purification
Metagenome
*Gastrointestinal Microbiome/genetics
*Microbiota/genetics

@article {pmid41511111,
year = {2026},
author = {Chen, X and Chen, C and Lan, X and Zhang, X and Li, T and Zhang, P and Cheng, G and Zhou, W and Wang, Z and Xie, Y and Zeng, S and Zhou, W and Wang, M},
title = {Machine learning and causal inference applied to the gut metagenome-metabolome axis reveals a link between neonatal jaundice and autism spectrum disorder.},
journal = {mSystems},
volume = {11},
number = {2},
pages = {e0140525},
pmid = {41511111},
issn = {2379-5077},
support = {82571963//National Natural Science Foundation of China/ ; 2025A1515012162, 2024A1515010590//Natural Science Foundation of Guangdong Province/ ; JCYJ20250604145739052 and JCYJ20240813144117023//Shenzhen Science and Technology Program/ ; Y2024001//Resear Initaion Fund of Longgang District Maternity & Child Healthcare Hospital of Shenzhen City/ ; Postdoctoral fellow stationed in Shenzhen second batch in 2022//Shenzhen Municipal Human Resources and Social Security Bureau/ ; },
mesh = {Humans ; *Autism Spectrum Disorder/metabolism/etiology/virology/genetics ; Male ; Female ; Infant, Newborn ; *Gastrointestinal Microbiome/genetics ; *Jaundice, Neonatal/metabolism/complications/genetics/virology ; *Machine Learning ; *Metagenome ; Bile Acids and Salts/metabolism ; *Metabolome ; RNA, Ribosomal, 16S/genetics ; Metagenomics ; Feces/microbiology ; Infant ; Multiomics ; Child, Preschool ; },
abstract = {UNLABELLED: Neonatal jaundice (NJ) might increase the risk of autism spectrum disorder (ASD) in children. This study examined whether alterations in the gut microbiota could explain the link between NJ and ASD. We analyzed three cohorts: NJ cohort 1 comprised 68 neonates with NJ and 68 healthy controls (HCs); NJ cohort 2 included 56 infants with NJ and 14 HCs; and the ASD cohort consisted of 43 children with ASD and 31 typically developing children. Fecal samples were collected aseptically. We performed 16S rRNA sequencing (NJ cohort 1), liquid chromatography with tandem mass spectrometry metabolomics (NJ cohort 1 and ASD cohort), and shotgun metagenomics (NJ cohort 2 and ASD cohort). We characterized the gut DNA virome, quantified bile acid metabolism genes, and integrated multi-omics data using causal mediation and machine learning causal inference. Both NJ and ASD were associated with increased diversity of bile acid metabolism genes, suggesting biomarker potential. The gut DNA virome was also identified as a potential biomarker. Causal mediation analysis showed that the gut DNA virome influences bile acid metabolism genes in both conditions. Using machine learning-based causal modeling, we further found that gut human betaherpesviruses and human mastadenoviruses contribute to NJ and ASD, respectively, mediated by gut bile acid-metabolizing bacteria. These findings suggest that perturbations in the virome and bile acid-metabolizing bacteria may explain the link between NJ and ASD. Our results indicate that NJ and ASD are associated with bile acid metabolism alterations, which are also influenced by the gut DNA virome. Dysbiosis of the gut DNA virome and bile acid-metabolizing bacteria may mechanistically link NJ and ASD.

IMPORTANCE: Human epidemiological studies have established an association between perinatal pathogenic infections and autism spectrum disorder (ASD), and the gut microbiota plays an extremely important role in this relationship. Neonatal jaundice (NJ) may increase the risk of ASD in children. However, it remains unclear whether alterations in the gut microbiota affect the association between NJ and ASD. Both NJ and ASD are linked to altered gut bile acid metabolism and significantly elevated gene diversity among bile acid metabolism enzymes, and these relationships are influenced by the gut virome. Gut human betaherpesviruses and human mastadenoviruses influence the development of NJ and ASD, respectively, by influencing the abundance of gut bile acid-metabolizing microbes. Alterations of the gut virome and bile acid-metabolizing bacteria appear to explain the link between NJ and ASD. There is a lack of effective treatment options for ASD. We found that both NJ and ASD are linked to altered bile acid metabolism. Gaining a comprehensive understanding of the role of the bile acid-gut microbiota axis in the pathogenesis of NJ and ASD, as well as regulating this axis, may be crucial for developing novel preventive and therapeutic strategies for ASD.},
}

Humans
*Autism Spectrum Disorder/metabolism/etiology/virology/genetics
Male
Female
Infant, Newborn
*Gastrointestinal Microbiome/genetics
*Jaundice, Neonatal/metabolism/complications/genetics/virology
*Machine Learning
*Metagenome
Bile Acids and Salts/metabolism
*Metabolome
RNA, Ribosomal, 16S/genetics
Metagenomics
Feces/microbiology
Infant
Multiomics
Child, Preschool

@article {pmid41512665,
year = {2026},
author = {Wu, CE and Wang, SY and Chen, JW and Yang, WY},
title = {Effects of Ligilactobacillus salivarius on the control of pullorum disease and cecal microbiota in red-feathered native chickens.},
journal = {Poultry science},
volume = {105},
number = {3},
pages = {106384},
pmid = {41512665},
issn = {1525-3171},
mesh = {Animals ; *Chickens ; Cecum/microbiology ; *Poultry Diseases/microbiology/prevention & control ; *Salmonella Infections, Animal/microbiology/prevention & control ; *Ligilactobacillus salivarius/physiology/chemistry ; Amoxicillin/pharmacology ; *Probiotics/pharmacology/administration & dosage ; *Gastrointestinal Microbiome/drug effects ; Random Allocation ; Anti-Bacterial Agents/pharmacology ; },
abstract = {Pullorum disease (PD), caused by Salmonella Pullorum (SP), remains a persistent challenge in native chicken production in Asia. Recurrent outbreaks and reliance on antibiotics have raised concerns about antimicrobial resistance. This study established a reproducible clinical PD model in red-feathered native chickens (RFCs) and evaluated Ligilactobacillus salivarius (LS) as a potential alternative to antibiotic. Oral administration of a field SP isolate (SPB6) at 1 × 10[8] CFU per chick for four consecutive days induced typical PD signs and persistent bacterial colonization, whereas a single-dose challenge failed to produce consistent disease. Using this model, 100 SP-free RFCs were randomly assigned to five groups of 20 RFCs each: SP challenge only (A), SP + amoxicillin treatment (B), LS prophylaxis + SP (C), SP + nine-day LS treatment (D), and an unchallenged control group (E). Both amoxicillin and LS treatments reduced SP shedding and tissue colonization; notably, nine-day LS regimen achieved sustained suppression of SP isolation rates and bacterial loads comparable to those observed with amoxicillin on days 7, 10, and 17 after infection. Metagenomic analysis in cecal microbiota revealed that nine-day LS treatment enriched the abundance of short-chain fatty acid-producing species, such as Faecalicatena contorta and Lacrimispora saccharolytica, which are associated with intestinal integrity and immune resilience. In conclusion, LS reduced SP shedding and intestinal colonization, with greater efficacy following prolonged administration. LS also modulated the cecal microbiota in PD-affected RFCs by increasing the relative abundance of beneficial taxa. These findings provide experimental support for the evaluation of LS as a potential alternative to antibiotics for PD control. Further studies that extend the duration of LS administration are warranted and are likely to enhance its protective effects.},
}

Animals
*Chickens
Cecum/microbiology
*Poultry Diseases/microbiology/prevention & control
*Salmonella Infections, Animal/microbiology/prevention & control
*Ligilactobacillus salivarius/physiology/chemistry
Amoxicillin/pharmacology
*Probiotics/pharmacology/administration & dosage
*Gastrointestinal Microbiome/drug effects
Random Allocation
Anti-Bacterial Agents/pharmacology

@article {pmid41512751,
year = {2026},
author = {Zhao, Z and Wei, Y and Pan, X and Zhang, G and Luo, M and Wang, Y and Yi, G and Lei, Y and Sun, G and Li, R},
title = {Fishing boats as underestimated vectors for the transmission of high-risk genetic elements in nearshore ecosystems.},
journal = {Journal of hazardous materials},
volume = {503},
number = {},
pages = {140812},
doi = {10.1016/j.jhazmat.2025.140812},
pmid = {41512751},
issn = {1873-3336},
mesh = {*Biofilms ; *Ecosystem ; Gene Transfer, Horizontal ; *Ships ; *Water Microbiology ; Bacteria/genetics ; },
abstract = {Aquatic biofilms on anthropogenic surfaces have been increasingly recognized as key vectors for the cross-boundary transmission of microorganisms and genetic determinants between distinct ecosystems. Current research remains disproportionately centered on ballast water and large vessels, overlooking small fishing boats. This is despite the fact that these boats are common vectors moving between mariculture and nearshore zones, with hull biofilms that can form potential reservoirs for pathogenic and resistant bacteria. Here, we employ a range of genomics approaches to systematically evaluate how hull material (wood, iron, and foam) influences biofilm composition, function, and risk. The biofilm communities exhibit a high abundance of pioneer microorganisms, strong ecological competitiveness, and low metabolic overlap with native assemblages. Further analysis of antibiotic resistance genes (ARGs), virulence factors (VFs), and mobile genetic elements (MGEs) in biofilms, assembling 379 ARG-VF-MGE-carrying contigs into 50 metagenomic bins, highlighting a substantial potential for horizontal gene transfer (HGT) and pathogen dissemination mediated by fishing boats. Finally, considering their enhanced biofilm colonization potential and the abundance of high-risk genetic elements, iron-hulled boats are likely to serve as significant vectors for the dispersal of resistant and virulent microorganisms into sensitive coastal environments, thereby posing elevated ecological and health risks. Our findings underscore the critical role of hull material in shaping biofilm community assembly and function and identify fishing boats as a key vector for the dispersal of high-risk genetic elements in nearshore environments.},
}

*Biofilms
*Ecosystem
Gene Transfer, Horizontal
*Ships
*Water Microbiology
Bacteria/genetics

@article {pmid41512763,
year = {2026},
author = {Liu, X and Li, J and Ma, C},
title = {Sublethal aflatoxin B1 exposure triggers multidimensional damage in honeybee (Apis mellifera) midgut: Integrative evidence from histomorphology, transcriptomics, and metagenomics.},
journal = {Journal of hazardous materials},
volume = {503},
number = {},
pages = {141076},
doi = {10.1016/j.jhazmat.2026.141076},
pmid = {41512763},
issn = {1873-3336},
mesh = {Animals ; Bees/drug effects/microbiology/genetics ; *Aflatoxin B1/toxicity ; Transcriptome/drug effects ; Metagenomics ; Oxidative Stress/drug effects ; Gene Expression Profiling ; Microbiota/drug effects ; Apoptosis/drug effects ; Pollen ; },
abstract = {Aflatoxin B1 (AFB1), a highly carcinogenic mycotoxin produced by Aspergillus fungi, has been increasingly identified as a global contaminant in bee pollen. Chronic exposure of honeybees (Apis mellifera) to AFB1-contaminated pollen poses substantial threats to colony health, yet its toxicological impacts remain poorly characterized despite the critical ecological role of these pollinators. In this study, we employed a multidimensional approach to investigate the toxicological effects of sublethal AFB1 exposure on honeybee midgut by integrated morphological, transcriptomic, and metagenomic analyses. Histopathological examination revealed severe midgut epithelium damage, including nuclear disintegration and enhanced apoptosis. Transcriptomic profiling coupled with enzyme activity assays unveiled significant dysregulation in immune response and oxidative stress-related pathways. Furthermore, metagenomic sequencing indicated substantial midgut microbiota alterations, characterized by a pronounced reduction in microbial diversity and beneficial microbe levels. These findings elucidate sublethal AFB1-induced honeybee health deterioration at cellular, molecular, and microbial levels, advancing our understanding of mycotoxin impacts on pollinators.},
}

Animals
Bees/drug effects/microbiology/genetics
*Aflatoxin B1/toxicity
Transcriptome/drug effects
Metagenomics
Oxidative Stress/drug effects
Gene Expression Profiling
Microbiota/drug effects
Apoptosis/drug effects
Pollen

@article {pmid41514032,
year = {2026},
author = {Roncero-Ramos, B and Romano-Rodríguez, E and Mateos-Naranjo, E and Valle-Romero, P and Redondo-Gómez, S},
title = {Hydro- and Xerohalophyte Species Drive Compositional and Functional Divergence in Bacterial Leaf Endosphere.},
journal = {Microbial ecology},
volume = {89},
number = {1},
pages = {39},
pmid = {41514032},
issn = {1432-184X},
support = {PAIDI-DOCTOR 21_00571//Junta de Andalucía/ ; FPU21/04133//Ministerio de Universidades/ ; FPU22/02078//Ministerio de Universidades/ ; PID2021-124750NB-I00//Ministerio de Ciencia e Innovación/ ; },
mesh = {*Plant Leaves/microbiology ; *Bacteria/genetics/classification/isolation & purification ; *Microbiota ; *Salt-Tolerant Plants/microbiology/classification ; Metagenome ; Plant Roots/microbiology ; Soil Microbiology ; },
abstract = {Hydro- and xerohalophytes withstand stress thanks to the resistance traits they have, complemented with the functions of their associated microbiota. Besides, given a higher exposition of the phyllosphere to environmental conditions compared to roots, their endospheric bacteria should be more resistant to stress. In this study, we analysed the composition and functional traits of the bacterial leaf endosphere of six xero- and hydrohalophytes species in two seasons. We sequenced their endospheric metagenomes by shotgun and annotated genes related with Plant-Growth-Promoting (PGP) properties. We showed that the composition, structure and functions of the bacterial endosphere are mainly influenced by host plant species, followed by functional type. Moreover, plant species and functional type promoted a different relative abundance of, respectively, 62 and 6 PGP properties. This study shows that not only the composition but also the functionality of the bacterial leaf endosphere of halophytes is more influenced by host species than functional type. Moreover, the leaf endosphere of the different plant species and functional type could be an important source of bacteria with diverse PGP properties.},
}

*Plant Leaves/microbiology
*Bacteria/genetics/classification/isolation & purification
*Microbiota
*Salt-Tolerant Plants/microbiology/classification
Metagenome
Plant Roots/microbiology
Soil Microbiology

@article {pmid41514203,
year = {2026},
author = {You, S and Zou, Y and Xiao, Y and He, L and Liu, L and Sun, Y and Jia, Y and Ge, G and Du, S},
title = {Animal performance and gut microbiota of cattle as affected by the unfermented or fermented total mixed ration.},
journal = {BMC microbiology},
volume = {26},
number = {1},
pages = {},
pmid = {41514203},
issn = {1471-2180},
mesh = {Animals ; Cattle/microbiology/growth & development ; Male ; *Animal Feed/analysis ; *Gastrointestinal Microbiome ; RNA, Ribosomal, 16S/genetics ; Fermentation ; *Bacteria/classification/genetics/isolation & purification ; *Diet/veterinary ; Metagenomics ; Feces/microbiology ; Weight Gain ; },
abstract = {Diet regulates the gut microbiota, which in turn affects animal performance, but how diet shapes the animal performance and gut microbiota remains largely unknown. To fill this gap, the author conducted a comprehensive study of the influence of total mixed ration (TMR) or fermented TMR (FTMR) on the animal performance and gut microbiome. Sixteen Simmental male cattle were randomly allocated to two treatments (one cattle per pen). The animals were fed with the TMR and FTMR diets respectively. The results showed that the contents of ADF, NDF, cellulose and total cellulose in the FTMR were significantly decreased (p < 0.05), the average daily weight gain of the Simmental male cattle shows an increasing trend (TMR: 0.31 vs. FTMR: 0.62), while no significant (p = 0.2382) difference was found between the two treatments. The metagenomics analysis showed significant (p < 0.05) difference in the α-diversity and β-diversity, and the dominant bacterial genera were Weissella, Lactiplantibacillus, Levilactobacillus and Companilactobacillus. The 16S rRNA sequencing indicated that a significant (p = 0.018) difference in the bacterial communities between the cattle fed with TMR or FTMR diet, while no significant (p < 0.05) differences were detected on the primary genus. It can be found that the FTMR diet increased the average daily gain of cattle by improving the chemical composition and microbial functional profile of the FTMR diet, and affected the growth performance of cattle.},
}

Animals
Cattle/microbiology/growth & development
Male
*Animal Feed/analysis
*Gastrointestinal Microbiome
RNA, Ribosomal, 16S/genetics
Fermentation
*Bacteria/classification/genetics/isolation & purification
*Diet/veterinary
Metagenomics
Feces/microbiology
Weight Gain

@article {pmid41514433,
year = {2026},
author = {Yang, J and Feng, Y and Guo, T and Guo, S and Yang, M and Zhou, D and Lin, P and Wang, A and Jin, Y},
title = {The impact of rumen and hindgut microbiomes on the persistent productivity of long-lived dairy cows.},
journal = {Microbiome},
volume = {14},
number = {1},
pages = {60},
pmid = {41514433},
issn = {2049-2618},
support = {2023YFD1801100//National Key R&D Program of China/ ; 2022GD-TSLD-46//Shaanxi Livestock and Poultry Breeding Double-chain Fusion Key Project/ ; 2018BBF33001//The Key R&D Program of Ningxia Hui Autonomous Region/ ; },
mesh = {Animals ; *Rumen/microbiology ; Cattle/microbiology ; Female ; *Rectum/microbiology ; Milk/metabolism/chemistry ; Lactation ; *Gastrointestinal Microbiome ; Metagenomics ; Purines/metabolism ; *Bacteria/classification/genetics/isolation & purification ; Metabolomics ; Dairying ; Longevity ; },
abstract = {BACKGROUND: In high-producing dairy systems, the average productive lifespan of cows is around 2.5-4 years. Persistent productivity and longevity are key determinants of dairy cow production performance and herd profitability. Although gastrointestinal microbiota influences dairy cow productivity, the mechanisms by which host-microbiome interactions support sustained productivity in long-lived dairy cows remain unclear. Therefore, this study integrated the metagenomics and metabolomics of the rumen and rectum, along with serum and milk metabolomics, to elucidate the potential impact of the rumen and rectum microbiota on the productivity of long-lived dairy cows.

RESULTS: Serum alanine aminotransferase (ALT), alkaline phosphatase (ALP), total cholesterol (TC), and high-density and low-density lipoprotein cholesterol (HDL-C and LDL-C) levels in long-lived dairy cows were positively correlated with milk yield (MY) and elevated in long-lived high-yielding (LH) dairy cows, whereas insulin (INS) and glucagon (GCG) were negatively correlated with MY and higher in long-lived low-yielding (LL) dairy cows. Rumen propionate level was elevated in LH group and positively correlated with MY. The rumen microbiome, in LH cows upregulated pathways involved in amino acid, cofactor, and vitamin metabolism. LH cows' rumen and rectum microbial networks had cohesion and vulnerability levels similar to those of LL cows and exhibited dependence on key nodes. The rumen and rectum MY-associated purine metabolites, guanosine and D-ribose-1-phosphate, mediated 65.56% and 67.55% of the significant positive effects of Acidaminococcaceae bacterium and Parabacteroides sp. on MY, respectively. Furthermore, the specific lipid metabolism-associated rumen microbiota module enhanced serum eicosapentaenoic acid (EPA) levels by modulating rumen α-linolenic acid metabolism, thereby promoting the synthesis of Pe(20:5/0:0) in milk, which positively contributed to MY.

CONCLUSIONS: This study revealed the potential contributions of the rumen and rectum microbiota to the productivity of long-lived dairy cows via purine metabolites, as well as the potential role of the rumen microbial network module in influencing productivity through α-linolenic acid metabolism, providing new insights for nutritional management strategies aimed at improving the persistent production capacity of dairy cows. Video Abstract.},
}

Animals
*Rumen/microbiology
Cattle/microbiology
Female
*Rectum/microbiology
Milk/metabolism/chemistry
Lactation
*Gastrointestinal Microbiome
Metagenomics
Purines/metabolism
*Bacteria/classification/genetics/isolation & purification
Metabolomics
Dairying
Longevity

@article {pmid41514445,
year = {2026},
author = {Li, M and Zhu, S and Sun, H and Huo, Y and Cao, Q and Deng, Z and Li, K and He, Y and Lu, X and Gao, J and Xu, C},
title = {Rumen microbiota modulates metabolic stress in high-yield dairy cows: insights from early to peak lactation.},
journal = {Microbiome},
volume = {14},
number = {1},
pages = {61},
pmid = {41514445},
issn = {2049-2618},
support = {32402957//National Natural Science Foundation of China/ ; 32125038//National Natural Science Foundation of China/ ; BX20240417//China National Postdoctoral Program for Innovative Talents/ ; 2024M753563//China Postdoctoral Science Foundation funded project/ ; 2023YFD1801100//National Key Research and Development Program of China/ ; },
mesh = {Animals ; *Rumen/microbiology/metabolism ; *Lactation/physiology ; Cattle ; Female ; *Stress, Physiological ; Oxidative Stress ; *Gastrointestinal Microbiome/physiology ; Metagenomics/methods ; Milk/metabolism ; Metabolomics ; *Bacteria/classification/genetics/isolation & purification/metabolism ; Lipolysis ; Archaea/classification/genetics/isolation & purification ; Methanobrevibacter/isolation & purification/genetics ; *Microbiota ; Methane/metabolism ; },
abstract = {BACKGROUND: Early lactation (EL) in high-yield dairy cows represents a critical lactation phase marked by significant metabolic stress, which often provokes health disorders and production losses. The rumen microbiome is instrumental in regulating host health and metabolism. However, its contribution to metabolic stress experienced by EL cows has been largely unexplored.

RESULTS: Metabolic stress was prominently observed during EL in the form of elevated oxidative stress (OS), inflammation, and lipolysis. This stress gradually decreased with the progression of lactation from day in milk (DIM) 21 to 90. To identify the underlying mechanisms, this study analyzed EL cows (DIM 32) and peak lactation (PL, DIM 72) using an integrative approach including rumen metagenomics, rumen metabolomics, host metabolomics, and their interactions. Metagenomic analysis revealed a higher abundance of methanogenic archaea (Methanobrevibacter and Methanosphaera) in EL cows, driving increased methane production and subsequent energy loss. This energy waste likely worsened the negative energy balance and caused excessive lipolysis in EL cows. In contrast, the rumen microbiota of PL cows was enriched with Prevotella species and anti-inflammatory bacterial genera (Bacteroides, Parabacteroides, and Alistipes), which are associated with the alleviation of host metabolic stress. Functional analysis of the rumen microbiota uncovered increased tryptophan biosynthesis in EL cows, driving kynurenine production. Conversely, PL cows exhibited a greater abundance of enzymes involved in tryptophan metabolism, thus facilitating the production of indole-3-acetic acid (IAA). Metabolomics analysis also identified the tryptophan metabolism pathway as a shared link between the rumen and serum. Specifically, the kynurenine pathway, associated with OS and inflammation, was upregulated in EL cows, while the indole pathway, particularly the production of IAA, was markedly elevated in PL cows, which attenuated OS and inflammation.

CONCLUSIONS: The study results indicate that the rumen microbiota is pivotal in mitigating metabolic stress in EL cows by modulating tryptophan metabolism. Specifically, the transition from EL to PL was characterized by an enhanced tryptophan-indole pathway and a suppressed tryptophan-kynurenine pathway. The results offer meaningful insights into the microbial mechanisms underlying metabolic stress and identify potential strategies for improving cow health and productivity during lactation. Video Abstract.},
}

Animals
*Rumen/microbiology/metabolism
*Lactation/physiology
Cattle
Female
*Stress, Physiological
Oxidative Stress
*Gastrointestinal Microbiome/physiology
Metagenomics/methods
Milk/metabolism
Metabolomics
*Bacteria/classification/genetics/isolation & purification/metabolism
Lipolysis
Archaea/classification/genetics/isolation & purification
Methanobrevibacter/isolation & purification/genetics
*Microbiota
Methane/metabolism

@article {pmid41514452,
year = {2026},
author = {Weiss, A and Elena, AX and Klümper, U and Dumack, K},
title = {Viral and eukaryotic drivers of prokaryotic and antibiotic resistance gene diversity in wastewater microbiomes.},
journal = {Microbiome},
volume = {14},
number = {1},
pages = {24},
pmid = {41514452},
issn = {2049-2618},
support = {544004729//Deutsche Forschungsgemeinschaft/ ; 01DO2200//Bundesministerium für Forschung, Technologie & Raumfahrt/ ; },
mesh = {*Wastewater/microbiology/virology ; *Bacteria/genetics/classification ; *Microbiota/genetics ; *Drug Resistance, Microbial/genetics ; *Eukaryota/genetics/classification ; Metagenomics ; *Viruses/genetics/classification ; Seasons ; Genetic Variation ; },
abstract = {BACKGROUND: Antibiotic resistance genes (ARGs) are proliferating in wastewater microbiomes, yet the biotic forces shaping their diversity remain poorly understood. Here, we integrate 14 months of metagenomic and metatranscriptomic data from a wastewater treatment plant to reveal that viruses and microeukaryotes, long-overlooked trophic actors, may play an important role in shaping bacterial and ARG diversity.

RESULTS: We show that viral and microeukaryotic communities exhibit strong seasonal dynamics that cascade through the microbial food web, significantly structuring prokaryotic communities and subsequently ARG profiles. Crucially, we find that viral and microeukaryotic diversity are positively associated with bacterial diversity, which in turn shapes ARG diversity, underscoring the regulatory potential of ecological interactions.

CONCLUSIONS: Our findings challenge the abiotic-centric paradigm and establish the central role of multi-trophic interactions in shaping ARG dynamics in wastewater ecosystems. Video Abstract.},
}

*Wastewater/microbiology/virology
*Bacteria/genetics/classification
*Microbiota/genetics
*Drug Resistance, Microbial/genetics
*Eukaryota/genetics/classification
Metagenomics
*Viruses/genetics/classification
Seasons
Genetic Variation

@article {pmid41515159,
year = {2025},
author = {Robert, M and Saha, S and Dizman, N and Rohlfs, M and Sirmans, E and Simon, J and Amaria, RN and Glitza Oliva, IC and Tawbi, HA and Davies, MA and Ikeguchi, A and Basen-Engquist, K and Schadler, K and Roth, ME and Song, W and Zhang, X and Ajami, NJ and Cohen, L and Wargo, JA and Peterson, CB and McQuade, JL and Daniel, CR},
title = {Investigating Chronic Toxicity, Diet, Patient-Reported Outcomes and the Microbiome in Immunotherapy-Treated Metastatic Melanoma Survivors: A New Frontier.},
journal = {Nutrients},
volume = {18},
number = {1},
pages = {},
pmid = {41515159},
issn = {2072-6643},
support = {1R01CA291965/NH/NIH HHS/United States ; 1R01HL158796/NH/NIH HHS/United States ; 1P50CA221703/NH/NIH HHS/United States ; 1P30CA016672/NH/NIH HHS/United States ; na/MRA/Melanoma Research Alliance/United States ; R01 CA291965/CA/NCI NIH HHS/United States ; na//MD Anderson Melanoma Moon Shot/ ; na//Andrew Sabin Family Fellowship/ ; },
mesh = {Humans ; *Melanoma/therapy/drug therapy/psychology ; Male ; Female ; *Patient Reported Outcome Measures ; Middle Aged ; Aged ; *Gastrointestinal Microbiome ; *Diet ; *Immunotherapy/adverse effects ; Quality of Life ; *Cancer Survivors ; Adult ; *Immune Checkpoint Inhibitors/adverse effects/therapeutic use ; Anxiety ; Prospective Studies ; Depression ; Exercise ; },
abstract = {Background/Objectives: Immune checkpoint blockade (ICB) therapies have significantly improved outcomes in metastatic melanoma. However, immune-related adverse events (irAEs) and persistent chronic toxicities (CTs) among this emerging survivor population likely influence different facets of quality of life. This study characterized CT, patient-reported outcomes (PROs), diet, physical activity and gut microbiome features in a cohort of long-term survivors with a history of ICB-treated metastatic melanoma. Methods: Forty-eight patients with a history of metastatic melanoma who initiated ICB treatment at least 3 years earlier and were not currently on treatment were prospectively enrolled from a melanoma survivorship clinic. Participants completed screening questionnaires for depression, anxiety, diet and physical activity. The gut microbiome was characterized via metagenomic sequencing in a subsample (n = 39). Patients' clinicopathological characteristics and experience of irAEs (during treatment) and CT (persisting >6 months after completion of therapy) were extracted retrospectively from the medical record. Results: In the overall cohort, 60% were experiencing CT, while 16% and 20% reported clinically relevant levels of depression and anxiety symptoms, respectively. We observed significant differences in overall gut microbiome composition between survivors with and without CT (p = 0.02). Consumption of fruit and vegetables was inversely associated with anxiety (ρ = 0.3, p = 0.038). Added sugar consumption was correlated with the severity of experienced symptoms (ρ = 0.4, p = 0.003), with pronounced associations across the spectrum of symptoms, including pain, fatigue and shortness of breath (p < 0.05). Conclusions: These results suggest that CT is experienced by a substantial proportion of ICB-treated metastatic melanoma survivors. Patients experiencing CT also showed distinct microbiome features. However, additional research in prospective settings is needed to confirm these hypotheses.},
}

Humans
*Melanoma/therapy/drug therapy/psychology
Male
Female
*Patient Reported Outcome Measures
Middle Aged
Aged
*Gastrointestinal Microbiome
*Diet
*Immunotherapy/adverse effects
Quality of Life
*Cancer Survivors
Adult
*Immune Checkpoint Inhibitors/adverse effects/therapeutic use
Anxiety
Prospective Studies
Depression
Exercise

@article {pmid41515236,
year = {2025},
author = {Zhang, Z and Wang, S and Sun, G and Pan, D},
title = {Intermittent Fasting and Probiotics for Gut Microbiota Modulation in Type 2 Diabetes Mellitus: A Narrative Review.},
journal = {Nutrients},
volume = {18},
number = {1},
pages = {},
pmid = {41515236},
issn = {2072-6643},
support = {82204030//National Natural Science Foundation of China/ ; 2025M770748//China Postdoctoral Science Foundation/ ; 2024T170134//China Postdoctoral Science Foundation/ ; },
mesh = {Animals ; Humans ; Blood Glucose/metabolism ; *Diabetes Mellitus, Type 2/microbiology/therapy ; Dysbiosis ; *Fasting ; *Gastrointestinal Microbiome/physiology ; Intermittent Fasting ; *Probiotics/therapeutic use/administration & dosage ; },
abstract = {Background: Type 2 diabetes mellitus (T2DM) is a global epidemic in which gut microbiota dysbiosis contributes to impaired glucose homeostasis and chronic inflammation. Intermittent fasting (IF) and probiotic supplementation have independently demonstrated glycemic benefits in T2DM, largely through microbiota remodeling. This narrative review synthesizes evidence up to October 2025 to clarify the microbiota-dependent mechanisms of IF and probiotics, and to evaluate the biological plausibility and preliminary clinical data for their combined application in T2DM management. Methods: We conducted a comprehensive literature review of preclinical and clinical studies (PubMed, Embase, Web of Science, and Cochrane Library) examining IF regimens (primarily time-restricted feeding and 5:2 protocols) and multi-strain probiotics containing Lactobacillus and Bifidobacterium species in T2DM or relevant models. Mechanistic pathways, microbial compositional shifts, and metabolic outcomes were qualitatively synthesized, with emphasis on overlapping signaling (short-chain fatty acids, bile acids, GLP-1, and barrier function). Results: IF consistently increases Akkermansia muciniphila and, variably, Faecalibacterium prausnitzii abundance, restores microbial circadian rhythmicity, and enhances SCFA and secondary bile acid production. Multi-strain probiotics modestly reduce HbA1c (-0.3% to -0.6%) and fasting glucose, outperforming single-strain preparations. Both interventions converge on reduced endotoxaemia and improved intestinal integrity. Preclinical models indicate potential synergy, whereas the only direct human trial to date showed neutral results. Conclusions: IF and probiotics engage overlapping microbiota-mediated pathways, supporting their combined use as an adjunctive strategy in T2DM. Adequately powered randomized trials incorporating deep metagenomics, metabolomics, and hard clinical endpoints are now required to confirm additive or synergistic efficacy.},
}

Animals
Humans
Blood Glucose/metabolism
*Diabetes Mellitus, Type 2/microbiology/therapy
Dysbiosis
*Fasting
*Gastrointestinal Microbiome/physiology
Intermittent Fasting
*Probiotics/therapeutic use/administration & dosage

@article {pmid41516078,
year = {2025},
author = {Lupusoru, R and Moleriu, LC and Mare, R and Sporea, I and Popescu, A and Sirli, R and Goldis, A and Nica, C and Moga, TV and Miutescu, B and Ratiu, I and Belei, O and Olariu, L and Dumitrascu, V and Dragomir, RD},
title = {AI-Guided Multi-Omic Microbiome Modulation Improves Clinical and Inflammatory Outcomes in Refractory IBD: A Real-World Study.},
journal = {International journal of molecular sciences},
volume = {27},
number = {1},
pages = {},
pmid = {41516078},
issn = {1422-0067},
support = {without a Grant Number.//"Victor Babes" University of Medicine and Pharmacy, Eftimie Murgu Square, No. 2, 300041 Timisoara, Romania;/ ; },
mesh = {Humans ; *Inflammatory Bowel Diseases/microbiology/therapy ; Multiomics ; Female ; Male ; Adult ; *Gastrointestinal Microbiome ; Biomarkers ; Feces/microbiology ; Middle Aged ; Treatment Outcome ; Micronutrients ; Inflammation/microbiology ; },
abstract = {Inflammatory bowel disease (IBD) remains difficult to manage in patients who fail multiple therapeutic lines, and growing evidence suggests that alterations in the gut microbiome contribute to persistent symptoms and inflammatory activity. This study evaluated a three-month, AI-guided, multi-omic personalized microbiome modulation program in adults with treatment-refractory IBD. Baseline stool metagenomic sequencing, blood biomarkers, micronutrient panels, and clinical data were integrated through an artificial intelligence platform to generate individualized plans combining dietary adjustments, targeted synbiotics, selective antimicrobials, and micronutrient correction. Clinical outcomes, inflammatory markers, and microbial signatures were reassessed after three months. Across 358 participants, stool frequency decreased substantially, urgency and rectal bleeding resolved in most patients, and over 70% reported a "much improved" overall condition. Inflammatory biomarkers showed marked normalization, with reductions in hs-CRP and fecal calprotectin observed in over 85% of cases. Micronutrient deficiencies, particularly iron and zinc, also improved, and beneficial microbial taxa such as Faecalibacterium prausnitzii, Bifidobacterium longum, and Akkermansia muciniphila increased significantly. These findings suggest that personalized, multi-omic microbiome modulation may support clinically meaningful improvements by targeting microbial, metabolic, and immune imbalances rather than symptoms alone. While encouraging, these results require confirmation in randomized controlled studies.},
}

Humans
*Inflammatory Bowel Diseases/microbiology/therapy
Multiomics
Female
Male
Adult
*Gastrointestinal Microbiome
Biomarkers
Feces/microbiology
Middle Aged
Treatment Outcome
Micronutrients
Inflammation/microbiology

@article {pmid41518158,
year = {2026},
author = {Barberá, A and Ortolá, R and Sotos-Prieto, M and Rodríguez-Artalejo, F and Moya, A and Ruiz-Ruiz, S},
title = {The Role of the Gut Microbiome in the Complex Network of Frailty Syndrome and Associated Comorbidities in Aging.},
journal = {Aging cell},
volume = {25},
number = {2},
pages = {e70365},
pmid = {41518158},
issn = {1474-9726},
support = {PID2019-105969GB-I00//Spanish Ministry of Science, Innovation and Universities/ ; PMPTA22/00107//Carlos III Health Institute (ISCIII)/ ; PMPTA22/00037//Carlos III Health Institute (ISCIII)/ ; PMPTA23/00001//Carlos III Health Institute (ISCIII)/ ; INVEST/2022/309//Next Generation-EU/ ; 22/1111//ISCIII/ ; //The Secretary of R + D + I/ ; //ERDF/ESF/ ; },
mesh = {Humans ; *Gastrointestinal Microbiome/genetics ; *Frailty/microbiology ; Male ; Female ; Aged ; *Aging ; Comorbidity ; Aged, 80 and over ; RNA, Ribosomal, 16S/genetics ; Metagenomics ; },
abstract = {The gut microbiota changes throughout life, potentially influencing health and triggering physiological disorders. Frailty syndrome (FS) is an age-related condition that reduces quality of life and increases hospitalization and mortality risks, making early detection and prevention essential in older populations. This study analyzed 16S rRNA gene and metagenomics sequencing of fecal samples from 203 older adults (FS: n = 64, non-FS (NFS): n = 139) to assess the role of gut microbiota in FS and related comorbidities, such as sarcopenia and impaired lower extremity function (ILEF) or anthropometric variables. Consistent taxonomic patterns were observed: Eggerthella, Parabacteroides, and Erysipelatoclostridium were significantly abundant in FS, while Christensenellaceae R-7 group, Erysipelotrichaceae UCG-003, and Hungatella were enriched in NFS. Christensenellaceae R-7 group was also associated with better mobility. Metagenomics analysis identified 680 KEGG functions differing between groups, categorized into 28 metabolic pathways. FS individuals had overrepresented biotin metabolism, antimicrobial resistance, and energy production, but underrepresented ribosomal and protein synthesis and sporulation pathways. Resistome analysis found the tetM/tetO (K18220) gene most abundant, alongside tetracycline, β-lactam, and macrolide resistance, primarily mediated by antibiotic efflux and transporters. These findings highlight distinct microbial and functional signatures associated with FS, underscoring the complex interplay between the gut microbiota and host physiology in aging. Adjusting for covariates, age and diabetes acted as confounding factors in FS for both 16S gene and metagenomics sequencing. This study offers new insights into fundamental questions in the biology of aging and opens avenues for microbiota-targeted strategies to improve the quality of life in older adults.},
}

Humans
*Gastrointestinal Microbiome/genetics
*Frailty/microbiology
Male
Female
Aged
*Aging
Comorbidity
Aged, 80 and over
RNA, Ribosomal, 16S/genetics
Metagenomics

@article {pmid41518802,
year = {2026},
author = {Yang, X and Ji, XH and Li, C and Lai, JL and Luo, XG},
title = {Multi-omics assessment of synthetic microbiome-mediated remediation of cyclotetramethylene tetranitroamine (HMX) contaminated water.},
journal = {Journal of hazardous materials},
volume = {503},
number = {},
pages = {141026},
doi = {10.1016/j.jhazmat.2026.141026},
pmid = {41518802},
issn = {1873-3336},
mesh = {*Water Pollutants, Chemical/metabolism ; *Microbiota ; Biodegradation, Environmental ; Multiomics ; Bacteria/metabolism ; *Aniline Compounds/metabolism ; Triazines ; },
abstract = {Cyclotetramethylene tetranitroamine (HMX) is a typical high-energy nitramine pollutant with an environmental persistence and toxic effects that pose serious ecological risks. In this study, a synthetic microbiome with complementary functions is built that enables the integration of multigroup technology to conduct a systematic analysis of the mechanism of remediation of HMX-contaminated water bodies. Four core bacterial strains (Bacillus altitudinis, B. cereus, B. subtilis, and Pseudomonas stutzeri) were directionally domesticated and screened from HMX-contaminated water. Through functional verification, they were confirmed to express key enzymes NfsA, YdhA, FdhA, and NirS, respectively, to form a complete HMX deep degradation-level connection path. The synthetic microbiome achieved 100 % removal of HMX and its intermediates within 60 days, and isotope tracing (δ[15]N enrichment +2.7 ‰) confirmed its complete mineralization ability. Multiomic analysis showed that the restoration process is accompanied by a systematic reshaping of the water microecology and chemical environment, so that the microbial community structure is optimized and the synthetic microbiome is successfully colonized and becomes the core node. Meanwhile, the energy metabolic network (glycolysis, TCA cycle, oxidative phosphorylation) is significantly enhanced; metagenomic data also revealed reduced viral abundance. Ionomics revealed that key nutrient elements, such as P and S, are efficiently assimilated and utilized. These findings identify an efficient HMX bioremediation strategy that utilizes the multiple dimensions of "community structure-metabolic function-environmental effects" through a multigroup integration framework. More importantly, this study provides a theoretical basis and practical paradigm for the rational design of functional microbial communities.},
}

*Water Pollutants, Chemical/metabolism
*Microbiota
Biodegradation, Environmental
Multiomics
Bacteria/metabolism
*Aniline Compounds/metabolism
Triazines

@article {pmid41519162,
year = {2026},
author = {Olmstead, M and Van Nest, K and Swistek, S and Cohnstaedt, LW and Oppert, B and Shults, P},
title = {Microbial communities in filth flies collected from dairy and poultry farms for supplemental animal feed.},
journal = {Journal of economic entomology},
volume = {119},
number = {2},
pages = {778-789},
pmid = {41519162},
issn = {1938-291X},
support = {NP104- 3020-32000-20-00D//USDA/ ; //The Boehringer Ingelheim Veterinary Scholars Program/ ; //Kansas State University College of Veterinary Medicine Office of Research/ ; //Kansas State University/ ; //USDA/ ; //Veterinary Research Scholars Programs/ ; },
mesh = {Animals ; *Microbiota ; *Animal Feed/microbiology ; *Bacteria/isolation & purification/classification ; *Calliphoridae/microbiology ; Farms ; },
abstract = {Alternative protein sources are needed due to the rising demand and increasing cost of protein ingredients in livestock diets. Mass collection of wild-caught flies from locations with high insect pressure may be an economical and environmentally sustainable approach to supplement livestock feed, but there may be feed safety issues from microbes found in field-caught insects. Therefore, we evaluated a sequencing-based approach to accurately identify potential pathogens in wild-caught flies captured on 2 different livestock farms. In this study, we combined whole-genome shotgun metagenomic sequencing with total RNA-seq to identify a broad range of microbial taxa present in and on wild-caught flies. We describe several databases tailored to the host insect, host animals, and pathogens associated with livestock and humans. Sequences were identified from potentially pathogenic bacteria including Escherichia coli, Gallibacterium anatis, Helicobacterium pullorum, Morganella morganii, Proteus mirabilis, and Providencia alcalifaciens. In addition, sequences from the pathogenic fungi Aspergillus fumigatus and viruses such as the fly pathogen Musca hytrosavirus were found. Despite the limitations of current database curation, a combination of metagenomics and total RNA-seq approaches to taxa identification can provide insight into a broad spectrum of potential pathogens in insects used as supplemental livestock feed.},
}

Animals
*Microbiota
*Animal Feed/microbiology
*Bacteria/isolation & purification/classification
*Calliphoridae/microbiology
Farms

@article {pmid41519314,
year = {2026},
author = {Su, J and Jiang, S and Chu, M and Dong, X and Zhang, C and Li, X and He, K},
title = {Time-course with multi-omics reveals hyperlipidemia dysregulates diurnal rhythms in gut-liver axis.},
journal = {Genomics},
volume = {118},
number = {2},
pages = {111198},
doi = {10.1016/j.ygeno.2026.111198},
pmid = {41519314},
issn = {1089-8646},
mesh = {Animals ; *Liver/metabolism ; *Circadian Rhythm ; *Hyperlipidemias/metabolism/genetics ; Mice ; Male ; Gastrointestinal Microbiome ; Multiomics ; Mice, Inbred C57BL ; Diet, High-Fat/adverse effects ; Transcriptome ; Lipid Metabolism ; Intestinal Mucosa/metabolism ; Circadian Clocks ; },
abstract = {BACKGROUND: Chronic overconsumption of high-fat diets contributes to obesity, with hyperlipidemia being a common comorbidity. The cardiovascular system is strongly influenced by diurnal rhythms, which regulate key functions such as endothelial activity, thrombosis, and blood pressure. Diurnal rhythms are central regulators of metabolic and physiological processes, and dietary pattern shifts can disrupt the synchronization of the internal clock within metabolic systems.

RESULTS: Using a hyperlipidemic mouse model, we investigated diurnal rhythm-related effects on the liver and intestine through transcriptomic, metagenomic, and metabolomic profiling. We identified several key genes-including CD36, Hmgcs1, Ehhadh, Cyp4a12b, Ifi27l2b, Ugt2b1, Ces2a, Cyp3a11, Selenbp2, and Gal3st1-that are regulated by the hepatic circadian clock and modulate metabolites via the gut-liver axis. The gut microbiota exhibited diurnal rhythmicity that coordinates intestinal digestion and metabolism, forming a synergistic circadian metabolic network. Hyperlipidemia disrupted normal circadian regulation in the liver and intestine, affecting lipid synthesis, transport, accumulation, and catabolism.

DISCUSSION: Our hepatic transcriptomic analysis revealed that a high-fat diet induces aberrant expression of lipid metabolism genes during the night. This diet also perturbs the diurnal rhythm of the gut microbiota, leading to intestinal metabolic dysregulation. Metabolites entering the portal circulation act as signaling molecules that bind to hepatic receptors and directly regulate the transcription of lipid metabolism genes. The loss of rhythmic metabolite secretion consequently disrupts circadian gene expression, contributing to hepatic lipid dysregulation via the gut-liver axis-a key mechanism in hyperlipidemia pathogenesis.

CONCLUSIONS: This study identifies critical temporal windows and core microbial taxa involved in microbiota-metabolite-gene crosstalk via the gut-liver axis, offering a theoretical foundation for diurnal rhythm-targeted interventions in metabolic diseases.},
}

Animals
*Liver/metabolism
*Circadian Rhythm
*Hyperlipidemias/metabolism/genetics
Mice
Male
Gastrointestinal Microbiome
Multiomics
Mice, Inbred C57BL
Diet, High-Fat/adverse effects
Transcriptome
Lipid Metabolism
Intestinal Mucosa/metabolism
Circadian Clocks

@article {pmid41521588,
year = {2026},
author = {Alolod, GAL and Guzman, JPMD and Bermeo-Capunong, MRA and Konishi, K and Koiwai, K and Kondo, H and Hirono, I},
title = {Metagenomic Insights on the Progression of White Muscle Disease in Kuruma Shrimp (Penaeus japonicus) Caused by Photobacterium damselae subsp. damselae.},
journal = {Journal of fish diseases},
volume = {49},
number = {6},
pages = {e70117},
doi = {10.1111/jfd.70117},
pmid = {41521588},
issn = {1365-2761},
support = {22H00379//Japan Society for the Promotion of Science/ ; JPMJSA1806//Japan Science and Technology Agency/ ; },
mesh = {Animals ; *Penaeidae/microbiology ; *Photobacterium/physiology ; RNA, Ribosomal, 16S/analysis ; Muscles/microbiology ; *Metagenome ; Microbiota ; Metagenomics ; },
abstract = {Kuruma shrimp (Penaeus japonicus) is an economically important shrimp perennially affected by diseases. In 2022, White Muscle Disease (WMD) was first characterised in this Penaeid species, caused by Photobacterium damselae subsp. damselae (Pdd). In this study, muscular and gut microbiome dynamics and their function in the disease progression are investigated by 16S rRNA metagenome sequencing using Illumina sequencing technologies. Alpha diversity indices showed that Pdd infection in the muscle, stomach, and intestine did not significantly change bacterial diversity between control and infected groups at all time points observed (Days 0, 1, 3, 5, 7 and 10). In the infected samples, the Shannon and Simpson indices increased starting Day 5 (D5), in congruence with the first observation of muscle whitening. Bacterial composition for the infected group at the genus level revealed that Photobacterium and Vibrio have increased their relative abundance in the muscle at Day 5 (D5) until Day 7 (D7), but declined at Day 10 (D10). As for stomach samples, Photobacterium declined in abundance and later increased significantly at Day 7 (D7). Photobacterium in the intestinal samples from the infected group increased at Day 5 (D5) but later decreased at Day 7 (D7). Meanwhile, linear discriminant analysis Effect Size (LEfSe) identified that most taxa belong to phylum Pseudomonadota, which can be potential markers for WMD. Moreover, the temporal dynamics of the amplicon sequencing variant ASV2, confirmed to be 100% homologous to the WMD-P3 strain used in this study, were characterised. For all tissues, the logarithmic relative abundance is considered high and very apparent in infected samples collected at Day 7 (D7). Overall, our study provides an understanding of the muscle and gut microbial community, specifically at the genus level, distinguished between WMD-infected and healthy Kuruma shrimps.},
}

Animals
*Penaeidae/microbiology
*Photobacterium/physiology
RNA, Ribosomal, 16S/analysis
Muscles/microbiology
*Metagenome
Microbiota
Metagenomics

@article {pmid41522496,
year = {2026},
author = {Gedam, PA and Khandagale, K and Barvkar, VT and Bhandari, S and Patil, S and Wayal, S and Bhangare, I and Bhagat, KP and Landage, K and Kale, R and Bhoite, V and More, S and Mahajan, V and Gawande, S},
title = {Microbial allies: shaping growth, physiology, and rhizosphere dynamics of onion (Allium cepa L.).},
journal = {PeerJ},
volume = {14},
number = {},
pages = {e20566},
pmid = {41522496},
issn = {2167-8359},
mesh = {*Rhizosphere ; *Onions/microbiology/growth & development/physiology ; *Soil Microbiology ; *Microbiota ; RNA, Ribosomal, 16S/genetics ; Azotobacter ; Bacteria/classification/genetics ; Fertilizers ; Azospirillum ; Plant Roots/microbiology/growth & development ; Basidiomycota ; },
abstract = {The present study investigates the dual impact of microbial biofertilizers on the phenotypic performance and rhizosphere microbiome composition in an onion crop. A pot experiment was conducted with seven treatments of microbial inoculants, such as Azotobacter, Azospirillum, Piriformospora indica, phosphate solubilizing bacteria (PSB), and control treatments with and without chemical fertilizers. The growth, physiological, and biochemical traits of onion were assessed alongside rhizospheric soil microbiome profiling using 16S rRNA metagenomic sequencing. Significant enhancement in plant height, leaf number, leaf area, chlorophyll content, photosynthetic rate, and antioxidant enzyme activity with low leaf temperature was observed in plants inoculated with Azotobacter and Azospirillum. Notably, the Azotobacter treatment yielded a significant enhancement in the bulb phenol content. Rhizosphere metagenomic analysis revealed 17 dominant phyla, with Actinobacteria (25.3%), Proteobacteria (22.2%), Firmicutes (12.8%), and Chloroflexi (11.02%) comprising over 70% of the total microbiome. Alpha and beta diversity metrics indicated that microbial inoculation, especially with Azospirillum and PSB, enriched the soil microbial community structure. Distinct clustering and correlations with specific microbial taxa such as Candidatus Nitrososphaera and Pseudomonas were observed in response to individual biofertilizer treatments. This study highlights the potential of biofertilizers not only in enhancing onion growth and development but also in modulating beneficial rhizosphere microbial communities. Integrating biofertilizers into onion production systems could reduce the dependency on chemical fertilizers and promote sustainable crop management.},
}

*Rhizosphere
*Onions/microbiology/growth & development/physiology
*Soil Microbiology
*Microbiota
RNA, Ribosomal, 16S/genetics
Azotobacter
Bacteria/classification/genetics
Fertilizers
Azospirillum
Plant Roots/microbiology/growth & development
Basidiomycota

@article {pmid41523161,
year = {2025},
author = {Sanchez, G and Simakov, O and Nyholm, S and Nishiguchi, M and McFall-Ngai, M and Lami, R and Heath-Heckman, E and Oatley, G and Sinclair, E and Aunin, E and Gettle, N and Santos, C and Paulini, M and Niu, H and McKenna, V and O'Brien, R and , and , and , and , and , },
title = {The chromosomal genome sequence of the bigfin reef squid, Sepioteuthis lessoniana d'Orbigny, 1826 and its associated microbial metagenome sequences.},
journal = {Wellcome open research},
volume = {10},
number = {},
pages = {351},
pmid = {41523161},
issn = {2398-502X},
support = {/WT_/Wellcome Trust/United Kingdom ; },
abstract = {We present a genome assembly from a specimen of Sepioteuthis lessoniana (bigfin reef squid; Mollusca; Cephalopoda; Myopsida; Loliginidae). The genome sequence has a total length of 5,056.23 megabases. Most of the assembly (86.4%) is scaffolded into 44 chromosomal pseudomolecules. The mitochondrial genome has also been assembled and is 16.64 kilobases in length. Gene annotation of this assembly on Ensembl identified 28,970 protein-coding genes.},
}

@article {pmid41524715,
year = {2026},
author = {Pasqualini, J and Maritan, A and Rinaldo, A and Facchin, S and Savarino, EV and Altieri, A and Suweis, S},
title = {Linking complex microbial interactions and dysbiosis through a disordered Lotka-Volterra model.},
journal = {eLife},
volume = {14},
number = {},
pages = {},
pmid = {41524715},
issn = {2050-084X},
support = {ANR-23-CE30-0012-01//Agence Nationale de la Recherche/ ; CUP 2022WPHMXK//National Recovery and Resilience Plan/ ; PNC0000002-DARE//DigitalLifelong Prevention/ ; },
mesh = {Humans ; *Microbial Interactions ; *Dysbiosis/microbiology ; *Microbiota ; Metagenomics ; Models, Biological ; },
abstract = {The rapid advancement of environmental sequencing technologies, such as metagenomics, has significantly enhanced our ability to study microbial communities. The eubiotic composition of these communities is crucial for maintaining ecological functions and host health. Species diversity is only one facet of a healthy community's organization; together with abundance distributions and interaction structures, it shapes reproducible macroecological states, that is, joint statistical fingerprints that summarize whole-community behavior. Despite recent developments, a theoretical framework connecting empirical data with ecosystem modeling is still in its infancy, particularly in the context of disordered systems. Here, we present a novel framework that couples statistical physics tools for disordered systems with metagenomic data, explicitly linking diversity, interactions, and stability to define and compare these macroecological states. By employing the generalized Lotka-Volterra model with random interactions, we reveal two different emergent patterns of species interaction networks and species abundance distributions for healthy and diseased microbiomes. On the one hand, healthy microbiomes have similar community structures across individuals, characterized by strong species interactions and abundance diversity consistent with neutral stochastic fluctuations. On the other hand, diseased microbiomes show greater variability driven by deterministic factors, thus resulting in less ecologically stable and more divergent communities. Our findings suggest the potential of disordered system theory to characterize microbiomes and to capture the role of ecological interactions on stability and functioning.},
}

Humans
*Microbial Interactions
*Dysbiosis/microbiology
*Microbiota
Metagenomics
Models, Biological

@article {pmid41524878,
year = {2026},
author = {Ohsawa, M and Nishi, H and Hamai, Y and Emi, M and Ibuki, Y and Komatsuzawa, H and Kawaguchi, H and Okada, M},
title = {Relationship Between the Oral Microbiome and Treatment Efficacy in Esophageal Squamous Cell Carcinoma.},
journal = {Annals of surgical oncology},
volume = {33},
number = {4},
pages = {3203-3213},
pmid = {41524878},
issn = {1534-4681},
mesh = {Humans ; *Esophageal Neoplasms/therapy/microbiology/pathology ; Male ; Female ; *Microbiota ; Middle Aged ; *Esophageal Squamous Cell Carcinoma/microbiology/therapy/pathology/mortality ; Prognosis ; Survival Rate ; *Esophagectomy/mortality ; Aged ; Neoadjuvant Therapy/mortality ; Follow-Up Studies ; RNA, Ribosomal, 16S/genetics ; *Mouth/microbiology ; Bacteria/genetics/isolation & purification ; },
abstract = {BACKGROUND: As the relationship between oral microbiota and treatment efficacy in esophageal cancer remains unexplored, we aimed to clarify it using metagenomic analysis.

PATIENTS AND METHODS: Of the 140 consecutive patients with esophageal squamous cell carcinoma (ESCC) who underwent esophagectomy with R0 resection at Hiroshima University Hospital between April 2020 and May 2024, 74 who received neoadjuvant therapy were included in this study. 16S rRNA gene from oral tongue coating samples was amplified using polymerase chain reaction and subjected to next-generation sequencing. The oral microbiome data were analyzed using QIIME2 and linear discriminant analysis effect size, and the relationship between the oral microbiota and treatment efficacy and prognosis was assessed.

RESULTS: Alpha diversity of the oral microbiota was significantly correlated with the pathological response. Univariate and multivariate analyses showed that the alpha diversity of the oral microbiome (high versus low) was a significant predictor of a good pathological response. Patients with high alpha diversity had significantly improved recurrence-free survival and overall survival compared with those with low alpha diversity. Furthermore, eight bacterial groups (Lactobacillales, Peptostreptococcales-Tissierellales, Bifidobacteriaceae, Erysipelotrichaceae, Lactobacillaceae, Anaerovoracaceae, Staphylococcaceae, and Aerococcaceae) were significantly more abundant in individuals who responded well to neoadjuvant therapy and two bacterial groups (Streptococcaceae and Corynebacteriaceae) were significantly more abundant in poor responders.

CONCLUSIONS: Our results demonstrate a correlation between the oral microbiome and ESCC treatment efficacy, suggesting that it is a significant prognostic factor. Our findings may also help predict the efficacy of esophageal cancer treatment.},
}

Humans
*Esophageal Neoplasms/therapy/microbiology/pathology
Male
Female
*Microbiota
Middle Aged
*Esophageal Squamous Cell Carcinoma/microbiology/therapy/pathology/mortality
Prognosis
Survival Rate
*Esophagectomy/mortality
Aged
Neoadjuvant Therapy/mortality
Follow-Up Studies
RNA, Ribosomal, 16S/genetics
*Mouth/microbiology
Bacteria/genetics/isolation & purification

@article {pmid41524921,
year = {2026},
author = {Nayab, GE and Ur Rahman, R and Hanan, F and Khan, I and Fahim, M},
title = {Metagenomic Exploration of the Bacteriome Reveals Natural Wolbachia Infections in Yellow Fever Mosquito Aedes aegypti and Asian Tiger Mosquito Aedes albopictus.},
journal = {Current microbiology},
volume = {83},
number = {2},
pages = {133},
pmid = {41524921},
issn = {1432-0991},
mesh = {Animals ; *Wolbachia/genetics/isolation & purification/classification/physiology ; *Aedes/microbiology/classification ; Phylogeny ; Female ; RNA, Ribosomal, 16S/genetics ; Metagenomics ; Pakistan ; DNA, Bacterial/genetics ; Sequence Analysis, DNA ; Symbiosis ; Electron Transport Complex IV/genetics ; *Metagenome ; Microbiota ; Mosquito Vectors/microbiology ; },
abstract = {Dengue and associated complications are spreading to non-endemic regions of Pakistan. Vector control, the foremost and widely adopted strategy for managing dengue has been implemented through various measures in Pakistan. Biological control through the use of Wolbachia, a bacterium naturally present in various insect genera, including Aedes, has demonstrated promising results globally. In this study we collected Aedes species and investigated its microbiomes with a particular focus on identifying the endosymbiont Wolbachia. Mosquitoes were collected via Gravitraps in the Peshawar region of Pakhtunkhwa province in the northwest of Pakistan. The identity of the mosquitoes was initially confirmed through morphological characters followed by molecular identification using species-specific Cytochrome oxidase I (COI) primers. The DNA from female Ae. aegypti and Ae. albopictus was further subjected to 16 S rRNA sequencing. The hypervariable regions V3/V4 of 16 S rRNA were used for sequencing using the paired-end Illumina MiSeq platform. The phylogenetic analysis of the COI gene in our samples demonstrated similarity to Aedes species previously documented in Pakistan. In comparative analysis of the microbiomes, Ae. albopictus was found to harbor 921 bacterial species, while Ae. aegypti only had 239 species. The metagenomic analysis revealed single-strain Wolbachia pipientis infection in Ae. aegypti, while Ae. albopictus harbored a double-strain infection involving a supergroup A strain (referred to as Wolbachia pipientis in 16 S EzBioCloud database) and a supergroup B strain (referred to as Wolbachia bourtzisii in16S EzBioCloud database).},
}

Animals
*Wolbachia/genetics/isolation & purification/classification/physiology
*Aedes/microbiology/classification
Phylogeny
Female
RNA, Ribosomal, 16S/genetics
Metagenomics
Pakistan
DNA, Bacterial/genetics
Sequence Analysis, DNA
Symbiosis
Electron Transport Complex IV/genetics
*Metagenome
Microbiota
Mosquito Vectors/microbiology

@article {pmid41525137,
year = {2026},
author = {Jackson, SA and Hrab, P and Zdouc, MM and Clarke, DJ and Dobson, ADW},
title = {New insights into the microbiome of the deep-sea sponge Inflatella pellicula and the secondary metabolic potential of metagenome-assembled genomes and the wider microbiome.},
journal = {Microbial genomics},
volume = {12},
number = {1},
pages = {},
pmid = {41525137},
issn = {2057-5858},
mesh = {*Porifera/microbiology ; Animals ; *Metagenome ; *Microbiota/genetics ; *Secondary Metabolism/genetics ; Phylogeny ; Multigene Family ; *Bacteria/genetics/classification/metabolism/isolation & purification ; Seawater/microbiology ; Genome, Bacterial ; },
abstract = {Marine sponges are found in all of the world's oceans, from the surface waters to the deepest abyssal zones. The marine sponge holobiont is a rich source of microbial and chemical diversity. Up to 63 bacterial phyla have been observed to be associated with sponges, and thousands of unique natural products have been extracted from sponges or their microbial symbionts. However, sponges from the deep sea and their associated microbial communities are relatively understudied, largely due to sampling-associated difficulties. Secondary metabolism biosynthetic gene clusters are phylogenetically distinct and hold the potential to produce novel chemistry with potential pharmacological or industrial utility. In order to gain further insights into the microbiome of the deep-sea sponge Inflatella pellicula, the metagenome of this sponge, sampled from a depth of 2,900 m, was sequenced. A large fraction of the sequence reads appeared to be 'biological dark matter' and could not be taxonomically classified. Further, unlike similar studies from different marine ecosystems, relatively few metagenome-assembled genomes (MAGs) could be assembled, and relatively few secondary metabolism biosynthetic gene clusters were identified. The identified clusters were, however, very dissimilar to known characterized clusters, but some shared similarities with clusters annotated in MAGs assembled from sponge metagenomes from disparate geographic locations. Therefore, renewed efforts to cultivate the hosts of these gene clusters may yield valuable small-molecule natural products.},
}

*Porifera/microbiology
Animals
*Metagenome
*Microbiota/genetics
*Secondary Metabolism/genetics
Phylogeny
Multigene Family
*Bacteria/genetics/classification/metabolism/isolation & purification
Seawater/microbiology
Genome, Bacterial

@article {pmid41525322,
year = {2026},
author = {Karagiannis, TT and Chen, Y and Bald, S and Tai, A and Reed, ER and Milman, S and Andersen, SL and Perls, TT and Segrè, D and Sebastiani, P and Short, MI},
title = {Integrative analysis across metagenomic taxonomic classifiers: A case study of the gut microbiome in aging and longevity in the Integrative Longevity Omics Study.},
journal = {PLoS computational biology},
volume = {22},
number = {1},
pages = {e1013883},
pmid = {41525322},
issn = {1553-7358},
support = {S10 OD032203/OD/NIH HHS/United States ; UH3 AG064704/AG/NIA NIH HHS/United States ; },
mesh = {Humans ; *Metagenomics/methods ; *Gastrointestinal Microbiome/genetics ; *Aging/genetics/physiology ; *Longevity/genetics/physiology ; Aged ; Male ; Computational Biology ; Female ; Aged, 80 and over ; Feces/microbiology ; Metagenome/genetics ; Middle Aged ; },
abstract = {There are various well-validated taxonomic classifiers for profiling shotgun metagenomics data, with two popular methods, MetaPhlAn (marker-gene-based) and Kraken (k-mer-based), at the forefront of many studies. Despite differences between classification approaches and calls for the development of consensus methods, most analyses of shotgun metagenomics data for microbiome studies use a single taxonomic classifier. In this study, we compare inferences from two broadly used classifiers, MetaPhlAn4 and Kraken2, applied to stool metagenomic samples from participants in the Integrative Longevity Omics study to measure associations of taxonomic diversity and relative abundance with age, replicating analyses in an independent cohort. We also introduce consensus and meta-analytic approaches to compare and integrate results from multiple classifiers. While many results are consistent across the two classifiers, we find classifier-specific inferences that would be lost when using one classifier alone. Both classifiers captured similar age-associated changes in diversity across cohorts, with variability in species alpha diversity driven by differences by classifier. When using a correlated meta-analysis approach (AdjMaxP) across classifiers, differential abundance analysis captures more age-associated taxa, including 17 taxa robustly age-associated across cohorts. This study emphasizes the value of employing multiple classifiers and recommends novel approaches that facilitate the integration of results from multiple methodologies.},
}

Humans
*Metagenomics/methods
*Gastrointestinal Microbiome/genetics
*Aging/genetics/physiology
*Longevity/genetics/physiology
Aged
Male
Computational Biology
Female
Aged, 80 and over
Feces/microbiology
Metagenome/genetics
Middle Aged

@article {pmid41526362,
year = {2026},
author = {Ascandari, A and Aminu, S and Benhida, R and Daoud, R},
title = {Cross-cohort resistome and virulome gradients structure the colorectal cancer microbiome.},
journal = {NPJ biofilms and microbiomes},
volume = {12},
number = {1},
pages = {40},
pmid = {41526362},
issn = {2055-5008},
mesh = {*Colorectal Neoplasms/microbiology ; Humans ; *Gastrointestinal Microbiome ; Metagenomics/methods ; Virulence Factors/genetics ; *Bacteria/genetics/drug effects/classification/pathogenicity/isolation & purification ; Cohort Studies ; Metagenome ; },
abstract = {The gut microbiome is increasingly implicated in colorectal cancer (CRC), yet the functional signatures associated with disease progression remain poorly resolved across populations. We performed an assembly-based metagenomic analysis of more than 500 samples from three geographically distinct cohorts to characterize resistome and virulome patterns associated with CRC. Using a cross-validated modeling framework based on Partial Least Squares (PLS) regression, we identified two reproducible latent functional gradients that structured variation in antimicrobial-resistance and virulence-factor profiles. One gradient was enriched for adhesion, efflux, and biofilm-associated functions, while the second reflected immunomodulatory and barrier-related pathways. These components were statistically robust, directionally stable across cohorts, and consistent with functional themes frequently reported in CRC microbiome studies. To summarize variation along these gradients, we derived an exploratory Dual-Axis Index (DAI) based on the two stable PLS components. Although its discriminative performance was moderate, the DAI provided an interpretable low-dimensional representation of how resistome-virulome patterns differed across healthy, adenoma, and carcinoma states. These results suggest that functional gene profiles in CRC are organized along reproducible statistical axes, and highlight functional modules, such as adhesion-, iron-associated, and immune-interaction pathways that may complement taxonomic or metabolic biomarkers in future multimodal approaches. Our work provides a reproducible, assembly-based framework for examining the functional organization of CRC-associated microbiomes across diverse populations.},
}

*Colorectal Neoplasms/microbiology
Humans
*Gastrointestinal Microbiome
Metagenomics/methods
Virulence Factors/genetics
*Bacteria/genetics/drug effects/classification/pathogenicity/isolation & purification
Cohort Studies
Metagenome

@article {pmid41527012,
year = {2026},
author = {Weber, C and Wind, D and Petzsch, P and Supprian, T and Dilthey, A and Christl, J and Finzer, P},
title = {Dysbiotic shift in the oral microbiota of patients with Alzheimer's disease compared to their healthy life partners-a combinatorial approach and a paired study design.},
journal = {Alzheimer's research & therapy},
volume = {18},
number = {1},
pages = {23},
pmid = {41527012},
issn = {1758-9193},
mesh = {Humans ; *Alzheimer Disease/microbiology ; Male ; Female ; Aged ; *Microbiota ; *Dysbiosis/microbiology ; *Mouth/microbiology ; Aged, 80 and over ; Middle Aged ; Saliva/microbiology ; },
abstract = {BACKGROUND: The oral microbiota has been associated with Alzheimer's disease (AD). However, earlier studies provided conflicting results using varying sampling methods, sequencing techniques, and statistics, as well as independent subjects.

METHODS: To robustly identify disease-associated microbial features, we recruited patients and their healthy life partners from the same households sharing a more similar microbiota compared to independent individuals increasing statistical power via paired design and combined three different sequencing methods - including metagenomics-and several bioinformatic pipelines. We recruited 26 AD-patients and their life partners. Salivary and supragingival samples were collected and a clinical examination of the mouth was performed.

RESULTS: Both groups showed comparable oral health. By focusing primarily on recurrently identified species across the different datasets we were able to identify a Core dysbiosis. This Core dysbiosis surprisingly spares the most central of oral diseases pathogens, namely Porphyromonas gingivalis. However, it includes numerous other species commonly associated with oral pathologies such as Prevotella nigrescens, Streptococcus anginosus, Dialister invisus, Anaeroglobus geminatus, Olsenella uli and Mogibacterium timidum. In contrast, more host-compatible species such as Prevotella melaninogenica or Streptococcus parasanguinis are identified in controls.

CONCLUSIONS: This is the first study using a combined sequencing approach and a paired study design to identify robust features of the oral microbiota of AD-patients. Although promising, the results should nevertheless be interpreted with caution, as the cross-sectional study design limits the possibilities of interpretation, and larger, longitudinal data are necessary for causal conclusions. However, this combined approach on multiple processing levels to identify intra-partnership differences still offers the possibility to better identify disease-associated microbial features potentially involved in AD-pathogenesis.

TRIAL REGISTRATION: This study was prospectively registered at the German Clinical Trials Register (DRKS00023456) at the 30th of November 2020.},
}

Humans
*Alzheimer Disease/microbiology
Male
Female
Aged
*Microbiota
*Dysbiosis/microbiology
*Mouth/microbiology
Aged, 80 and over
Middle Aged
Saliva/microbiology

@article {pmid41527291,
year = {2026},
author = {Chen, W and Guo, R and Zhang, W and Yan, Q and Wang, X and Chen, R and Hu, X and Liang, J and Xing, G and Xu, D and Ma, X and Chen, Q and Sha, S and Tao, E and Cheng, L and Fan, S and Liu, H and Lu, T and Yu, H and Su, J and Xu, J and Qin, Y and Liu, J and Zhong, X and Hu, X and Hu, X and Zheng, W and Hu, Z and Kang, J and Yang, J},
title = {Alterations of the gut virome in patients with Parkinson's disease.},
journal = {The journals of gerontology. Series A, Biological sciences and medical sciences},
volume = {81},
number = {3},
pages = {},
doi = {10.1093/gerona/glag001},
pmid = {41527291},
issn = {1758-535X},
support = {82370563//National Natural Science Foundation of China/ ; 2024JJ7423//Natural Science Foundation of Hunan Province/ ; 2024RJ018//Outstanding Young Scientific and Technological Talents Project of Dalian/ ; },
mesh = {Humans ; *Parkinson Disease/virology/diagnosis ; *Gastrointestinal Microbiome ; *Virome ; Female ; Male ; Aged ; Metagenomics ; Case-Control Studies ; },
abstract = {Gut microbiota plays a pivotal role in Parkinson's disease (PD) pathogenesis. However, the role of enteric viruses remains underexplored. Here, we reanalyzed publicly available metagenomic datasets from two independent cohorts, including 79 PD patients and 79 controls, to characterize gut virome profiles and explore the potential role of enteric viruses in PD pathogenesis and early diagnosis. Our findings indicate increased richness and diversity of the gut virome in PD, with 640 vOTUs differing in abundance between groups. Notably, Siphoviridae and Myoviridae were more abundant in PD patients. A variety of viruses enriched in PD or healthy subjects (HS) preferentially infect bacterial hosts that produce short-chain fatty acids. Furthermore, specific viral functional orthologs, such as thymidylate synthase (K00560) and integrases (K14059), displayed notable differences in prevalence between PD-enriched and HS-enriched vOTUs. Finally, we constructed a random forest model using the top 22 most significant vOTUs, which achieved an AUC of 0.822, demonstrating strong performance in distinguishing PD patients from healthy controls. This is the first study to characterize the gut virome profile in PD, laying a robust foundation for future investigations into the underlying mechanisms and early diagnosis strategies for PD as well as other neurodegenerative disorders.},
}

Humans
*Parkinson Disease/virology/diagnosis
*Gastrointestinal Microbiome
*Virome
Female
Male
Aged
Metagenomics
Case-Control Studies

@article {pmid41528122,
year = {2026},
author = {McMurray-Jones, A and Spann, K and Yarlagadda, PKDV and Fernando, J and Roberts, LW},
title = {Environmental surveillance of bacteria in a new intensive care unit using plate sweeps.},
journal = {Microbial genomics},
volume = {12},
number = {1},
pages = {},
pmid = {41528122},
issn = {2057-5858},
mesh = {*Intensive Care Units ; *Bacteria/genetics/isolation & purification/classification/drug effects ; Humans ; Queensland ; *Environmental Monitoring/methods ; Drug Resistance, Bacterial/genetics ; Microbiota/genetics ; Metagenomics/methods ; Cross Infection/microbiology ; },
abstract = {The hospital environment plays a critical role in the transmission of infectious diseases. Surveillance methods often rely on selective enrichment or deep metagenomic sequencing, which both have significant drawbacks in terms of community resolution and cost. Plate sweeps provide a practical moderate approach to cultivate a wide range of bacteria, capturing more diversity than a single colony pick without high sequencing costs. Here, we use this approach to characterize a newly built hospital intensive care unit (ICU) in Queensland, Australia. Between November 2023 and February 2024, we sampled 78 sites within an 8-bed private hospital ICU pre- and post-patient introduction to the environment. Samples were enriched on non-selective media before DNA was extracted from whole plate sweeps and sequenced using Illumina. We assessed species, antimicrobial resistance (AMR) genes, virulence genes and transmission across all samples and between the pre- and post-patient samples using Kraken2, AbritAMR and Tracs. While the rate of positive microbial growth within the ICU environment did not change significantly pre- and post-patient introduction, the post-patient microbiome consisted of largely different bacterial species; of 22 genera identified, only 3 genera were represented at both timepoints. Post-patient samples were enriched in AMR genes, including resistance to fosfomycin, quinolones and beta-lactams. Common genera identified post-patient were Pseudomonas, Delftia and Stenotrophomonas, often associated with areas of plumbing. Cluster analysis identified 17 possible transmission links from a single timepoint, highlighting several areas in the ICU (e.g. communal bathrooms) as key areas for transmission. We demonstrate the utility of plate sweeps as a means of economical non-selective environmental surveillance and highlight their ability to identify hotspots of transmission within a hospital ward that could be targeted by infection control prior to an outbreak of a more serious pathogen.},
}

*Intensive Care Units
*Bacteria/genetics/isolation & purification/classification/drug effects
Humans
Queensland
*Environmental Monitoring/methods
Drug Resistance, Bacterial/genetics
Microbiota/genetics
Metagenomics/methods
Cross Infection/microbiology

@article {pmid41529347,
year = {2026},
author = {Singh, S and Bajaj, A and Manickam, N},
title = {Microbiome of soil waste dumpsite and adjacent river habitat harbors dynamic plastic degrading bacterial diversity and abundant functional enzymes.},
journal = {The Science of the total environment},
volume = {1014},
number = {},
pages = {181331},
doi = {10.1016/j.scitotenv.2025.181331},
pmid = {41529347},
issn = {1879-1026},
mesh = {*Rivers/microbiology ; *Plastics/metabolism/analysis ; India ; *Microbiota ; *Bacteria/classification/metabolism ; Biodegradation, Environmental ; *Soil Microbiology ; *Waste Disposal Facilities ; *Soil Pollutants/metabolism/analysis ; Metagenome ; },
abstract = {Landfill leachates and adjacent riverine ecosystems are usually the reservoirs of plastic-derived contaminants and other xenobiotics. Yet these sites are still less explored for their degradation potential. This study employed a whole metagenome analysis to characterize microbial communities and functional genes from the Ghaila municipal dumpsite and the Gomti river, Lucknow, India. Physicochemical analyses revealed neutral to slightly alkaline pH and elevated BOD and COD in downstream river sites, indicating high organic and plastic-associated pollutant loads. Taxonomic profiling identified 57 phyla, dominated by Proteobacteria, Bacteroidetes, Chloroflexi, and Firmicutes, with occurrence of key genera such as Pseudomonas, Acinetobacter, Flavobacterium, and Sphingomonas in abundance. Functional annotation of the metagenomic sequences detected 31 enzymes targeting 24 polymeric substances, including PETase, MHETase, urethanases, laccases, and nylon hydrolases in both dumpsite leachate and sludge (p < 0.05) samples. Antibiotic resistance genes (ARGs) and metal resistance genes (MRGs) were widely distributed, particularly in leachate and sludge, underscoring their role as resistance reservoirs. These findings demonstrate that municipal dumpsite ecosystems are hotspots for plastic and xenobiotic degradation, highlighting their potential as genetic resources for bioremediation and advancing understanding of contaminant-driven microbial adaptation at landfill-river interfaces. NUCLEOTIDE SEQUENCE ACCESSION NUMBER: The complete metagenome sequence has been deposited at NCBI GenBank having accession no: SAMN42678420 to SAMN42678429 (BioProject).},
}

*Rivers/microbiology
*Plastics/metabolism/analysis
India
*Microbiota
*Bacteria/classification/metabolism
Biodegradation, Environmental
*Soil Microbiology
*Waste Disposal Facilities
*Soil Pollutants/metabolism/analysis
Metagenome

@article {pmid41529631,
year = {2026},
author = {Wang, Y and Qian, Y and Shi, C and Bi, J and Dong, P and Zou, Y and Yang, Y and Tao, Y and Li, H},
title = {Seasonal dynamics and stability of gut antibiotic resistance genes in plateau pika (Ochotona curzoniae) and plateau zokor (Eospalax baileyi).},
journal = {Journal of hazardous materials},
volume = {503},
number = {},
pages = {141112},
doi = {10.1016/j.jhazmat.2026.141112},
pmid = {41529631},
issn = {1873-3336},
mesh = {Seasons ; Animals ; *Lagomorpha/microbiology/genetics ; *Gastrointestinal Microbiome/genetics ; *Drug Resistance, Microbial/genetics ; *Genes, Bacterial ; Bacteria/genetics ; },
abstract = {The extreme ecosystems of the Tibetan Plateau harbor an alarming reservoir of antibiotic resistance genes (ARGs) within wildlife gut microbiomes-an emerging contaminant with significant implications for One Health. However, seasonal dynamics and pathogenic risks of these ARGs remain poorly understood. Through a 2.5-year study comparing the subterranean plateau zokor (Eospalax baileyi) and the surface-dwelling plateau pika (Ochotona curzoniae), we demonstrate how species-specific ecological strategies shape distinct ARG transmission patterns. Our results demonstrated striking eco-evolutionary trade-offs: surface pikas showed 1.3 times higher ARG diversity with strong seasonal variation, influenced by temperature-modulated bacterial community turnover and mobile genetic elements (MGEs). Conversely, subterranean zokors maintained stable, were enriched with high-risk ARGs dominated by mepA and tetO, reflecting their isolated niche. Both species consistently carried pathogenic-ARG complexes (Clostridium-bacA, Staphylococcus-Ermb) across seasons, genders, and ages, indicating established resistance reservoirs in plateau food webs. Metagenomic binning revealed co-transfer potential between ARGs and MGEs. This pioneering longitudinal study exposes a dual pattern: seasonal changes cause temporary turnover of ARGs, which harbor lower resistance risk in surface-dwelling animals, while subterranean hosts retain stable, higher-risk resistance. These findings establish critical baselines for monitoring antimicrobial resistance in vulnerable ecosystems and underscore the need for integrated One Health strategies.},
}

Seasons
Animals
*Lagomorpha/microbiology/genetics
*Gastrointestinal Microbiome/genetics
*Drug Resistance, Microbial/genetics
*Genes, Bacterial
Bacteria/genetics

@article {pmid41530018,
year = {2026},
author = {FitzGerald, JA and Lester, KL and O' Sullivan, N and Crispie, F and Lawton, EM and Cotter, PD and McNally, P and Cox, DW},
title = {Parallel metagenomic- and culture-based approaches show nasal swabs are a good proxy for broncho-alveolar lavage in children with cystic fibrosis.},
journal = {Journal of cystic fibrosis : official journal of the European Cystic Fibrosis Society},
volume = {25},
number = {2},
pages = {232-239},
doi = {10.1016/j.jcf.2025.12.011},
pmid = {41530018},
issn = {1873-5010},
mesh = {Humans ; *Cystic Fibrosis/microbiology/diagnosis ; *Metagenomics/methods ; Child, Preschool ; Female ; Male ; *Bronchoalveolar Lavage Fluid/microbiology ; *Bronchoalveolar Lavage/methods ; *Specimen Handling/methods ; Microbiota ; Oropharynx/microbiology ; },
abstract = {BACKGROUND: Broncho-Alveolar Lavage (BAL) is the reference standard for airway surveillance in clinical management of cystic fibrosis (CF), but is invasive and requires general anaesthesia in children. Non-invasive alternatives can lack specificity (Oropharyngeal swabs; OPS), or evaluation in paediatric CF (Middle meatus sampling; MMS). We sought to determine if MMS via nasal-swabs performed better than OPS at representing the microbiological attributes of BAL.

METHODS: In a stable preschool CF cohort attending a single specialist centre, we evaluated the microbiological yield of BAL, MMS, and OPS sampling using both standard clinical culturing, and shotgun metagenomic sequencing (Illumina NextSeq 500).

RESULTS: Matched BAL, MMS, and OPS from 30 preschool children provided 88 samples. While both culture and metagenomic surveillance performed well at detecting S. pneumoniae in BAL, MMS performed better at detecting S. aureus, M. catarrhalis and Escherichia coli, while OPS performed better at detecting H. Influenzae. Metagenomics revealed a significantly more diverse microbiome in OPS than BAL or MMS. While agreement on pathogen profiles varied widely between metagenomics and culture methods, MMS more accurately represented BAL, particularly for Streptococcus, M. catarrhalis, and Escherichia.

CONCLUSIONS: MMS and OPS cultures performed well as proxies for BAL in relation to certain pathogens. Metagenomics detected pathogens in many samples that were unobserved in culture, and showed the oropharynx microbiome to be much more diverse. Lung and nares microbiomes were more similar in composition and diversity. Our data suggest that nasal sampling of the middle meatus may be a more accurate surrogate for lower airway samples.},
}

Humans
*Cystic Fibrosis/microbiology/diagnosis
*Metagenomics/methods
Child, Preschool
Female
Male
*Bronchoalveolar Lavage Fluid/microbiology
*Bronchoalveolar Lavage/methods
*Specimen Handling/methods
Microbiota
Oropharynx/microbiology

@article {pmid41530166,
year = {2026},
author = {Zhang, Q and Chen, B and Zhang, Z and Yu, Y and Jin, M and Lu, T and Zhang, Z and Pang, Q and Xu, N and Sun, J and Chen, J and Wang, J and Zhu, D and Qian, H and Penuelas, J and Zhu, YG},
title = {Cobamide-producing microbes as a model for understanding general nutritional interdependencies in soil food webs.},
journal = {Nature communications},
volume = {17},
number = {1},
pages = {1533},
pmid = {41530166},
issn = {2041-1723},
support = {2022C02029//Natural Science Foundation of Zhejiang Province (Zhejiang Provincial Natural Science Foundation)/ ; 42307158//National Natural Science Foundation of China (National Science Foundation of China)/ ; },
mesh = {*Soil Microbiology ; *Food Chain ; *Cobamides/metabolism/biosynthesis ; *Bacteria/metabolism/genetics/classification ; Animals ; Phylogeny ; Soil/chemistry ; Microbiota ; },
abstract = {Nutrient crossfeeding critically governs microbiome-host interactions and ecosystem stability. Cobamides, synthesized only by prokaryotes, offer a powerful and tractable model for studying nutrient-mediated interdependencies in soil food webs; however, their ecological role in sustaining soil health remains unclear. Here, we construct the Soil Cobamide Producer database (SCP v.1.0) by integrating over 48,000 metagenomic and genomic datasets from 1,123 sampling sites. This database catalogs phylogenetically diverse prokaryotes (19 phyla, 302 genera) with cobamide biosynthetic potential. Using this resource, we identify host-specific colonization patterns of cobamide-producing microbes in fauna. These microbes also carry diverse functional traits that may contribute to trophic cascades and microbial community stability. In an Enchytraeid model, these colonizers support host development, modulate gene expression, and promote gut stability through transkingdom interactions, with cobamide biosynthesis serving as one representative trait among multiple microbial functions. At macroecological scales, cobamide-producing microbes occur across relatively high trophic levels, reflecting a broader principle of nutrient transfer that may also apply to other essential metabolites. This framework provides a general basis for studying nutritional microbes in soil food webs and advances One Health research.},
}

*Soil Microbiology
*Food Chain
*Cobamides/metabolism/biosynthesis
*Bacteria/metabolism/genetics/classification
Animals
Phylogeny
Soil/chemistry
Microbiota

@article {pmid41530170,
year = {2026},
author = {Maeke, MD and Hassenrück, C and Aguilar-Muñoz, P and Aravena, C and Burmeister, C and Crispi, O and Diallo, POD and Fernández, C and Gouriou, M and Jamont, A and Laymand, E and Marie, B and Molina, V and Ortega-Retuerta, E and Rabouille, S and Sajeeb, MI and Sierks, M and Stevens, M and Turon, R and Valdés-Castro, V and Beier, S},
title = {Metabarcoding and metagenomic data across aquatic environmental gradients along the coasts of France and Chile.},
journal = {Scientific data},
volume = {13},
number = {1},
pages = {29},
pmid = {41530170},
issn = {2052-4463},
support = {Laboratoire international associé program//Centre National de la Recherche Scientifique (National Center for Scientific Research)/ ; 1211977//Fondo Nacional de Desarrollo Científico y Tecnológico (National Fund for Scientific and Technological Development)/ ; BE 5937/2-3//Deutsche Forschungsgemeinschaft (German Research Foundation)/ ; },
mesh = {Chile ; France ; Metagenomics ; Ecosystem ; *DNA Barcoding, Taxonomic ; *Metagenome ; Seawater/microbiology ; Salinity ; Microbiota ; },
abstract = {Coastal marine environments, such as lagoons, fjords or estuaries, experience pronounced environmental variability, with fluctuations in salinity, temperature and nutrient levels shaping microbial community structure and function. These gradients result in diverse habitats, which may harbour taxonomic and genetic novelty with biogeochemical and biotechnological relevance. To explore microbial diversity and functional potential across these dynamic ecosystems, we sampled 26 sites along the coasts of France and Chile, including lagoons, estuaries, fjords, harbours, as well as coastal and offshore marine sites. Surface waters were collected from all sites, with deeper layers included at three sites. Monthly sampling at six sites in France enabled the assessment of seasonal dynamics. In total, 116 samples were processed for both metabarcoding and metagenomic sequencing yielding over 53,000 amplicon sequence variants (ASVs) and 1,372 metagenome-assembled genomes (MAGs). This dataset further includes a comprehensive gene catalogue and environmental variables such as salinity, temperature, nutrient concentrations, productivity, as well as oxygen consumption metrics collected across the different ecosystems.},
}

Chile
France
Metagenomics
Ecosystem
*DNA Barcoding, Taxonomic
*Metagenome
Seawater/microbiology
Salinity
Microbiota

@article {pmid41530917,
year = {2026},
author = {Lee, HG and Song, JY and Yoon, J and Chung, Y and Kwon, SK and Kim, JF},
title = {metaFun: An analysis pipeline for metagenomic big data with fast and unified functional searches.},
journal = {Gut microbes},
volume = {18},
number = {1},
pages = {2611544},
pmid = {41530917},
issn = {1949-0984},
mesh = {*Metagenomics/methods ; Humans ; *Metagenome ; *Big Data ; *Software ; Colorectal Neoplasms/microbiology ; *Bacteria/classification/genetics/isolation & purification ; *Computational Biology/methods ; Gastrointestinal Microbiome ; Reproducibility of Results ; },
abstract = {Metagenomic approaches offer unprecedented opportunities to characterize microbial community structure and function, yet several challenges remain unresolved. Inconsistent genome quality impairs reliability of metagenome-assembled genomes, lack of unified taxonomic criteria limits cross-study comparability, and multi-step workflows involving numerous programs and parameters hinder reproducibility and accessibility. We benchmarked existing programs and parameters using simulated metagenomic data to identify optimal configurations. metaFun is an open-source, end-to-end pipeline that integrates quality control, taxonomic profiling, functional profiling, de novo assembly, binning, genome assessment, comparative genomic analysis, pangenome annotation, network analysis, and strain-level microdiversity analysis into a unified framework. Interactive modules support standardized data interpretation and exploratory visualization. The pipeline is implemented with Nextflow and containerized with Apptainer, ensuring environment reproducibility and scalability. Comprehensive documentation is available at https://metafun-doc.readthedocs.io/en/main. The pipeline was validated using a colorectal cancer cohort dataset. By addressing key methodological gaps, metaFun facilitates accessible and reproducible metagenomic analysis for the broader research community.},
}

*Metagenomics/methods
Humans
*Metagenome
*Big Data
*Software
Colorectal Neoplasms/microbiology
*Bacteria/classification/genetics/isolation & purification
*Computational Biology/methods
Gastrointestinal Microbiome
Reproducibility of Results

@article {pmid41532487,
year = {2026},
author = {Goh, KM and Nurhazli, NAA and Tan, JH and Liew, KJ and Chan, KG and Pointing, SB and Sani, RK},
title = {Thermophiles in the genomic Era (2015-2025): a review on biodiversity, metagenome-assembled genomes, and future directions.},
journal = {Critical reviews in microbiology},
volume = {},
number = {},
pages = {1-18},
doi = {10.1080/1040841X.2026.2614431},
pmid = {41532487},
issn = {1549-7828},
abstract = {Thermophile research has been transformed over the past decade by advances in genome sequencing. Once centered on culture collections and physiological studies of terrestrial hot springs and deep-sea hydrothermal vents, the field now employs amplicon sequencing, shotgun metagenomics, and long-read platforms to reveal the diversity, ecology, and genomic potential of thermophiles. Metagenome-assembled genomes (MAGs), metatranscriptomes, and metaproteomes have become crucial for linking taxonomy with function, uncovering previously hidden microbial dark matter in heated ecosystems. Bioinformatics, increasingly integrated with machine learning, has expanded insights into microbial biology, biomolecules, and ecological interactions. These advances highlight the broader environmental significance of thermophiles, spanning fundamental roles in ecosystem processes to practical applications. In 2015, we published Thermophiles in the Genomic Era: Biodiversity, Science, and Application to capture early next-generation sequencing milestones. A decade later, with tremendous progress achieved, this review revisits the field by synthesizing recent advances across viruses, planktonic thermophiles, and biofilm communities, emphasizing the power of genome-resolved approaches. We also highlight overlooked areas, opportunities for ecological integration and predictive modeling, and the importance of translating discoveries into biotechnological innovation. Our aim is to provide young researchers with a roadmap of emerging questions and strategies likely to shape the next decade of thermophile research.},
}

@article {pmid41534355,
year = {2026},
author = {He, S and Wang, Z and Zhong, Z and Shi, C and Li, D and Yin, F},
title = {Soil salinization alters biogeochemical cycles in agricultural ecosystems by reducing carbon-cycling microorganisms.},
journal = {Ecotoxicology and environmental safety},
volume = {309},
number = {},
pages = {119706},
doi = {10.1016/j.ecoenv.2026.119706},
pmid = {41534355},
issn = {1090-2414},
mesh = {*Soil Microbiology ; *Salinity ; *Soil/chemistry ; *Carbon Cycle ; Ecosystem ; Agriculture ; Bacteria/genetics/metabolism ; Microbiota ; Metagenomics ; },
abstract = {Salinity stress can decline crop yield in agricultural systems. Beyond the environmental conditions that drive agricultural plant growth, the diverse roles of microbes represent a critical, often overlooked factor in shaping crop health and productivity. Salinization exerts a profound effect on soil microbial communities, with consequences for biogeochemical cycles. However, the salinity adaptation mechanisms of microorganisms participating in biogeochemical cycles remain incompletely understood, which hold considerable promise for microbial solutions in saline agriculture. In this study, metagenomics-based technology was employed to analyze agricultural soils within a region-scale irrigation area characterized by varying degrees of salinization. According to the results of generalized linear models, bell-shaped trends were observed for the diversity and abundance of biogeochemical cycling genes along the soil salinity gradient, all of which peaked at a salinity of approximately 7.5 ‰. Further comparisons indicated reduced total abundance of all biogeochemical cycling genes in high salinity soils (>7.5 ‰) compared to those in low salinity soils (<7.5 ‰). Furthermore, correlation analysis indicated the coupling of different biogeochemical cycling genes, which were observed to be possessed by similar functional microorganisms, with a predominance of Gammaproteobacteria and Alphaproteobacteria. The presence of elevated salt levels resulted in a decline in the abundance of various microorganisms that play roles in biogeochemical cycling, including members of the Alphaproteobacteria, Actinomycetia, Limnocylindira, and Gemmatimonadetes phyla. Concurrently, there was an enrichment of a limited number of salt-tolerant bacteria, predominantly classified under the Bacteroidia and Bacilli taxonomic groups. The coupling of different biogeochemical cycling genes in some metagenome-assembled genomes (MAGs) was confirmed through metagenomics binning. Three MAGs (strains of Methylophaga, Salinimicrobium, and Sediminibacterium, respectively) with diverse biogeochemical cycling functions were recognized as potential plant-growth-promoting bacteria under salinity stress. These findings contribute to the existing body of knowledge on the salinity adaptability of soil microbial communities and offer guidance for the management of saline agriculture.},
}

*Soil Microbiology
*Salinity
*Soil/chemistry
*Carbon Cycle
Ecosystem
Agriculture
Bacteria/genetics/metabolism
Microbiota
Metagenomics

@article {pmid41534755,
year = {2026},
author = {Liu, K and Peng, W and Yang, X and Zeng, Y and Liu, Y and Yu, K and Zhu, Y and Gou, H and Li, L and Zhang, C},
title = {Efficacy and multi-omics regulatory effects of Guilou Tongluo formula in patients with chronic obstructive pulmonary disease combined with pulmonary hypertension: A prospective, multicenter, randomized controlled trial.},
journal = {Journal of ethnopharmacology},
volume = {361},
number = {},
pages = {121204},
doi = {10.1016/j.jep.2026.121204},
pmid = {41534755},
issn = {1872-7573},
mesh = {Humans ; *Pulmonary Disease, Chronic Obstructive/drug therapy/complications/physiopathology ; *Drugs, Chinese Herbal/therapeutic use/adverse effects ; Male ; Female ; *Hypertension, Pulmonary/drug therapy/physiopathology ; Prospective Studies ; Aged ; Middle Aged ; Treatment Outcome ; Gastrointestinal Microbiome/drug effects ; Medicine, Chinese Traditional ; },
abstract = {Pulmonary hypertension (PH) is a serious and common complication in patients with chronic obstructive pulmonary disease (COPD), and this clinical gap has been newly emphasized in the GOLD 2025 guidelines. Guilou Tongluo Formula (GLTLF) is a traditional Chinese herbal prescription widely used in clinical practice for the treatment of COPD combined with PH (COPD-PH). However, there is a lack of high-quality clinical trials to support its efficacy, and the underlying mechanisms of action remain unclear.

AIM OF THE STUDY: This study aims to evaluate the efficacy and safety of GLTLF in the treatment of COPD-PH, and to explore the potential mechanisms underlying its therapeutic effects.

MATERIALS AND METHOD: A total of 104 patients with COPD-PH were randomized to receive either conventional therapy alone (Control group) or in combination with GLTLF (GLTLF group). Clinical efficacy was assessed by changes in traditional Chinese medicine (TCM) syndrome scores, pulmonary artery systolic pressure (PASP), pulmonary function, arterial blood gases, COPD Assessment Test (CAT), modified Medical Research Council (mMRC) grade, WHO functional class (WHO-FC), 6-min walk distance (6MWD), and laboratory parameters. Potential mechanisms were explored via gut metagenomic and metabolomic analyses.

RESULTS: Clinical efficacy evaluation indicated that the TCM syndrome scores were significantly reduced in both groups post-treatment (P < 0.001). PASP, FEV1, and FEV1/FVC improved significantly in the GLTLF group (P < 0.05), and were superior to the control group post-treatment (P < 0.05). PaO2, PaCO2, BNP, and D-dimer improved after GLTLF intervention (P < 0.05). Both groups had increased 6MWD (P < 0.001), with the GLTLF group performing better (P = 0.006). CAT score, mMRC grade, and WHO-FC improved in both groups (P < 0.05), with superior outcomes in the GLTLF group (P < 0.05). Metagenomic sequencing revealed that GLTLF altered the structure and function of the gut microbiota in patients with COPD-PH. Metabolomic analysis identified a total of 87 differential metabolites following GLTLF intervention, which were significantly enriched in 18 metabolic pathways.

CONCLUSION: GLTLF can effectively treat patients with COPD-PH, enhance clinical efficacy, and modulate both metabolic status and gut microbiota composition.},
}

Humans
*Pulmonary Disease, Chronic Obstructive/drug therapy/complications/physiopathology
*Drugs, Chinese Herbal/therapeutic use/adverse effects
Male
Female
*Hypertension, Pulmonary/drug therapy/physiopathology
Prospective Studies
Aged
Middle Aged
Treatment Outcome
Gastrointestinal Microbiome/drug effects
Medicine, Chinese Traditional

@article {pmid41535300,
year = {2026},
author = {Wong, OWH and Xu, Z and Chan, SSM and Mo, FYM and Shea, CKS and Su, Q and Wan, MYT and Cheung, CP and Ching, JYL and Tang, W and Tun, HM and Chan, FKL and Ng, SC},
title = {A novel synbiotic (SCM06) for anxiety and sensory hyperresponsiveness in children with autism spectrum disorder: an open-label pilot study.},
journal = {NPJ biofilms and microbiomes},
volume = {12},
number = {1},
pages = {36},
pmid = {41535300},
issn = {2055-5008},
support = {NCI202346//New Cornerstone Science Foundation/ ; },
mesh = {Humans ; Pilot Projects ; *Autism Spectrum Disorder/microbiology/complications/psychology ; Male ; Child ; *Synbiotics/administration & dosage ; *Anxiety/therapy ; Female ; Feces/microbiology ; Metagenomics ; Gastrointestinal Microbiome ; Child, Preschool ; Pentanoic Acids ; Treatment Outcome ; },
abstract = {Anxiety and sensory hyperresponsiveness are common in children with autism spectrum disorder (ASD), but effective treatments are lacking. Targeting the microbiota-gut-brain axis is a promising strategy. This open-label pilot study evaluated SCM06, a novel synbiotic designed to target anxiety and sensory hyperresponsiveness, in 30 children with ASD (mean age 8.2 years, 22 males). We assessed symptom improvement, compliance, and safety, and collected stool samples for metagenomics and metabolomic analysis over 12 weeks. SCM06 was safe and well-tolerated, and significant improvements were observed in anxiety, sensory hyperresponsiveness, and abdominal pain. Following SCM06 treatment, increase in Bifidobacterium pseudocatenulatum was associated with improved functional abdominal pain (p = 0.0011, p_adj = 0.054), while the abundances of valeric acid and butyric acid increased (p_adj = 0.004 and p_adj = 0.072). Key microbial species, Coprococcus comes and Veillonella dispar, were candidate mediators of symptom improvements. Further randomised controlled trials are warranted to confirm its clinical efficacy.},
}

Humans
Pilot Projects
*Autism Spectrum Disorder/microbiology/complications/psychology
Male
Child
*Synbiotics/administration & dosage
*Anxiety/therapy
Female
Feces/microbiology
Metagenomics
Gastrointestinal Microbiome
Child, Preschool
Pentanoic Acids
Treatment Outcome

@article {pmid41535683,
year = {2026},
author = {Chen, S and Yuan, Y and Wang, Y and Peng, Y and Tun, HM and Jiang, Z and Miao, Y and Lee, S and Yin, X and Shen, X and DeLeon, O and Chang, EB and Chan, FKL and Sun, Y and Ng, SC and Su, Q},
title = {Identification of antimicrobial peptides from ancient gut microbiomes.},
journal = {Nature communications},
volume = {17},
number = {1},
pages = {1788},
pmid = {41535683},
issn = {2041-1723},
support = {2025 Youth Science and Technology Talent Development Program//China Association for Science and Technology (China Association for Science & Technology)/ ; },
mesh = {Humans ; *Gastrointestinal Microbiome/genetics ; *Antimicrobial Peptides/pharmacology/isolation & purification/chemistry ; Feces/microbiology ; Animals ; Anti-Bacterial Agents/pharmacology ; Metagenome ; Metagenomics/methods ; Mice ; Bacteria/drug effects ; },
abstract = {Fecal coprolites preserve ancient microbiomes and are a potential source of extinct but highly efficacious antimicrobial peptides (AMPs). Here, we develop AMPLiT (AMP Lightweight Identification Tool), an efficient tool deployable to portable hardware for AMP screening in metagenomic datasets. AMPLiT demonstrates AUPRC performances of 0.9486 ± 0.0003 and reasonable overall training time of 3200 ± 53 s. By computationally utilizing AMPLiT, we analyze seven ancient human coprolite metagenomes, identifying 160 AMP candidates. Of 40 representative peptides synthesized, 36 (90%) peptides demonstrate measurable antimicrobial activity at 100 μM or less in vitro. Strikingly, approximately two-thirds of these peptides are sourced from Segatella copri, a dominant ancient gut commensal that is conspicuously underrepresented in modern populations, particularly those with Westernized lifestyles. Representative S. copri-derived AMPs exhibit disruptions against membranes of pathogenic bacteria, coupled with low cytotoxicity and hemolytic risk. In vivo, lead peptides demonstrate potent antibacterial and wound-healing efficacy comparable to traditional antibiotics, especially in combating gram-positive pathogens. Our findings highlight the ancient gut microbiomes as sources of novel AMPs, offering valuable insights into the historical role of S. copri in human health and its decline in contemporary populations.},
}

Humans
*Gastrointestinal Microbiome/genetics
*Antimicrobial Peptides/pharmacology/isolation & purification/chemistry
Feces/microbiology
Animals
Anti-Bacterial Agents/pharmacology
Metagenome
Metagenomics/methods
Mice
Bacteria/drug effects

@article {pmid41535719,
year = {2026},
author = {Almonte, AA and Thomas, S and Iebba, V and Kroemer, G and Derosa, L and Zitvogel, L},
title = {Gut dysbiosis in oncology: a risk factor for immunoresistance.},
journal = {Cell research},
volume = {36},
number = {2},
pages = {103-120},
pmid = {41535719},
issn = {1748-7838},
support = {INCA_16698//CNIB (INCA)/ ; 955575//EC | Horizon 2020 Framework Programme (EU Framework Programme for Research and Innovation H2020)/ ; },
mesh = {Humans ; *Dysbiosis/immunology/microbiology ; *Neoplasms/immunology/microbiology/therapy ; *Gastrointestinal Microbiome/immunology ; Risk Factors ; Animals ; },
abstract = {The gut microbiome is recognized as a determinant of response to immune checkpoint inhibitor (ICI) therapies in cancer. However, the clinical translation of microbiome science has been hampered by inconsistent definitions of dysbiosis, inadequate biomarker frameworks, and limited mechanistic understanding. In this review, we synthesize the current state of knowledge on how gut microbial composition and function influence ICI efficacy, highlighting both correlative and causal evidence. We discuss computational approaches based on α-diversity or taxonomic abundance and argue for more functionally and clinically informative models, such as the topological score (TOPOSCORE) and other dysbiosis indices derived from machine learning. Using retrospective analyses of metagenomic datasets from thousands of patients and healthy controls, we examine microbial patterns that distinguish responders from non-responders. We also explore how dysbiosis perturbs immunoregulatory pathways, including bile acid metabolism, gut permeability, and mucosal immunomodulation. Finally, we assess emerging therapeutic strategies aimed at correcting microbiome dysfunction - including dietary modification, bacterial consortia, and fecal microbiota transplantation - and describe how they are being deployed in multiple clinical trials. We conclude with a brief discussion of the ONCOBIOME initiative, which works with international partners to incorporate microbiome science into oncology workflows. By refining our understanding of gut-immune interactions and translating it into action, microbiome-informed oncology may unlock new therapeutic potential for patients previously resistant to immunotherapy.},
}

Humans
*Dysbiosis/immunology/microbiology
*Neoplasms/immunology/microbiology/therapy
*Gastrointestinal Microbiome/immunology
Risk Factors
Animals

@article {pmid41536169,
year = {2026},
author = {Abdulkareem, AA and Gul, SS and Abdulbaqi, HR and Sha, AM and Preshaw, PM},
title = {Assessing Evidence to Include Filifactor alocis as a Novel Candidate in Socransky's Complexes.},
journal = {Molecular oral microbiology},
volume = {41},
number = {3},
pages = {117-130},
doi = {10.1111/omi.70018},
pmid = {41536169},
issn = {2041-1014},
mesh = {Humans ; Animals ; *Periodontal Diseases/microbiology/immunology ; *Eubacteriales/pathogenicity ; *Periodontitis/microbiology ; Microbiota ; Disease Models, Animal ; },
abstract = {Socransky's complexes have identified a range of bacteria as key contributors to the onset and progression of periodontal disease. However, advancements in microbiological detection methods have allowed for exploration of the microbiome in periodontal health/disease in greater detail. In recent years, Filifactor alocis has emerged as a potential periodontal pathogen. Therefore, the aim of this review was to investigate whether this bacterium could be included in Socransky's model by summarizing the available evidence. A comprehensive literature search performed using PubMed, ScienceDirect, and Scopus databases was undertaken. The retrieved articles were filtered according to defined eligibility criteria, which yielded 24 studies. Data were extracted from these observational and clinical studies to synthesize findings. Findings regarding the host immune response were derived from in vitro and experimental animal models and narratively summarized. Observational studies and clinical trials showed heterogeneity and a lack of standardized outcomes. However, the general trend indicated a higher prevalence of F. alocis at diseased sites than at healthy sites. In addition, periodontal treatment was found to significantly reduce F. alocis levels and was associated with improvements in clinical periodontal parameters. Experimental models and in vitro studies showed that F. alocis exhibits a range of virulence attributes and pathogenic behavior similar to that of putative pathogenic periodontal bacteria. The evidence is not sufficient to include F. alocis as a new member of Socransky's model. However, this review suggests that this bacterium has the potential to be included in Socransky's complexes in the future after further research which would require to be highly standardized to enhance comparability and generalizability of findings.},
}

Humans
Animals
*Periodontal Diseases/microbiology/immunology
*Eubacteriales/pathogenicity
*Periodontitis/microbiology
Microbiota
Disease Models, Animal

@article {pmid41536238,
year = {2026},
author = {Corona-Cervantes, K and Urrutia-Baca, VH and Gámez-Valdez, JS and Jiménez-López, B and Rodríguez-Gutierrez, NA and Chávez-Caraza, K and Espiricueta-Candelaria, F and Villalobos, UAS and Ramos-Parra, PA and Uribe, JAG and Brunck, M and Chuck-Hernández, C and Licona-Cassani, C},
title = {Maternal obesity alters human milk oligosaccharides content and correlates with early acquisition of late colonizers in the neonatal gut microbiome.},
journal = {Gut microbes},
volume = {18},
number = {1},
pages = {2607043},
pmid = {41536238},
issn = {1949-0984},
mesh = {Humans ; *Milk, Human/chemistry/metabolism ; Female ; *Oligosaccharides/metabolism/analysis ; Infant, Newborn ; Feces/microbiology ; Adult ; *Gastrointestinal Microbiome ; Pregnancy ; Longitudinal Studies ; *Bacteria/classification/isolation & purification/genetics/metabolism ; *Obesity/metabolism/microbiology ; Infant ; Mexico ; Body Mass Index ; Metagenomics ; Young Adult ; *Pregnancy in Obesity/metabolism/microbiology ; Mothers ; },
abstract = {Metabolic and immune development in neonates are shaped by the succession of the gut microbiome. Maternal obesity can perturb this process by altering interactions of human milk bioactive elements, including oligosaccharides (HMOs), microbial populations, and metabolites. We conducted a longitudinal study of Mexican mother-infant dyads to examine maternal BMI-associated variations in HMOs and infant fecal microbiota. Breastmilk samples from 97 mothers were collected at 48 h, one month, and three months postpartum. We used targeted and untargeted metabolomics to profile breastmilk samples, while shotgun metagenomics was used to analyze infant fecal microbiome composition in a subset of samples. Mothers with obesity showed decreased concentration of key HMOs shortly after birth, correlating with an altered succession of their infant's gut microbiota. This included reduced early colonizers (Enterobacteriaceae) and increased abundance of intermediate and late colonizers (Bifidobacterium and members of the Lachnospiraceae family), over subsequent months. These taxa negatively correlated with HMOs such as 6'SL, LNnT, and LNT. Additionally, functional profiling revealed alterations in metabolic pathways related to polyamine biosynthesis, suggesting changes in microbial metabolism linked to maternal BMI. Despite the cohort's size, our study offers unique insights into the relationship between maternal obesity, HMO composition, and early infant microbial colonization in Latin-American mothers. This exploratory research serves as proof of concept, underscoring the need for larger-scale studies to validate these findings and better understand their implications for infant health. More importantly, our results highlight the interplay between maternal BMI and human milk bioactives, underscoring the importance of correlating microbial succession with maternal metabolic health to better understand early immune development in neonates.},
}

Humans
*Milk, Human/chemistry/metabolism
Female
*Oligosaccharides/metabolism/analysis
Infant, Newborn
Feces/microbiology
Adult
*Gastrointestinal Microbiome
Pregnancy
Longitudinal Studies
*Bacteria/classification/isolation & purification/genetics/metabolism
*Obesity/metabolism/microbiology
Infant
Mexico
Body Mass Index
Metagenomics
Young Adult
*Pregnancy in Obesity/metabolism/microbiology
Mothers

@article {pmid41537457,
year = {2026},
author = {Chari, NR and DeAngelis, KM and Aguilar, AA and Chan, ALH and Burgin, GA and Frey, SD and Taylor, BN},
title = {Warming mitigates root exudate-induced priming effects via changes to microbial biomass, community structure, and gene abundance.},
journal = {The ISME journal},
volume = {20},
number = {1},
pages = {},
pmid = {41537457},
issn = {1751-7370},
support = {DEB-1456610//Long-Term Research in Environmental Biology/ ; DEB-1832110//U.S. National Science Foundation (NSF) Long-Term Ecological Research Program/ ; },
mesh = {*Plant Roots/metabolism/microbiology ; *Soil Microbiology ; RNA, Ribosomal, 16S/genetics ; *Biomass ; Soil/chemistry ; Carbon/metabolism ; *Bacteria/genetics/classification ; *Plant Exudates/metabolism ; Climate Change ; Metagenomics ; DNA, Bacterial/genetics/chemistry ; Forests ; *Microbiota ; DNA, Ribosomal/chemistry/genetics ; },
abstract = {Root exudation, the export of soluble carbon compounds from living plant roots into soil, is an important pathway for soil carbon formation, but high rates of exudation can also induce rapid soil organic matter decomposition - a phenomenon known as the priming effect. Long-term soil warming associated with climate change could alter exudation rates and impact soil microbes by changing soil carbon chemistry. We hypothesized that warming-induced changes to exudation rate combined with direct effects of long-term warming on soil microbial communities would regulate the microbial priming effect. We tested this hypothesis with an artificial root exudate experiment using intact soil cores from a long-term soil warming experiment in a temperate forest. We found that chronic soil warming did not alter soil carbon formation from exudates, but did reduce the exudate-induced priming effect; exudation caused greater soil carbon loss in unwarmed than warmed soils. We used DNA stable isotope probing with 16S ribosomal RNA gene and shotgun metagenomic sequencing to determine whether long-term warming affected which microbes consume 13carbon-labeled artificial exudates. We found significant differences in bacterial community composition and relative gene abundances of 13carbon-enriched compared to natural abundance DNA. Both soil bacterial community composition and specific enzyme-coding gene families were strongly correlated with soil carbon priming in unwarmed treatments, but these effects were absent in warmed treatments. Our results suggest that the root exudate-induced priming effect is mediated by microbial biomass, community structure, and gene abundance, and that chronic warming reduces the priming effect by altering these microbial variables.},
}

*Plant Roots/metabolism/microbiology
*Soil Microbiology
RNA, Ribosomal, 16S/genetics
*Biomass
Soil/chemistry
Carbon/metabolism
*Bacteria/genetics/classification
*Plant Exudates/metabolism
Climate Change
Metagenomics
DNA, Bacterial/genetics/chemistry
Forests
*Microbiota
DNA, Ribosomal/chemistry/genetics

@article {pmid41537582,
year = {2026},
author = {Robertson, S and Mosca, A and Ashraf, S and Corral, A and Alegria Terrazas, R and Arnton, C and Thorpe, P and Morris, J and Hedley, PE and Babbi, G and Savojardo, C and Martelli, PL and Møller, FD and Nielsen, HN and Leekitcharoenphon, P and Aarestrup, FM and Halder, R and Laczny, CC and Wilmes, P and Pietrantonio, L and Di Cillo, P and Catara, V and Abbott, J and Bulgarelli, D},
title = {Acinetobacter enrichment shapes composition and function of the bacterial microbiota of field-grown tomato plants.},
journal = {mSphere},
volume = {11},
number = {2},
pages = {e0084225},
pmid = {41537582},
issn = {2379-5042},
support = {818290//Horizon 2020 Framework Programme/ ; 2734186/BB_/Biotechnology and Biological Sciences Research Council/United Kingdom ; },
mesh = {*Solanum lycopersicum/microbiology/growth & development ; *Acinetobacter/genetics/classification/isolation & purification ; Soil Microbiology ; *Microbiota ; Rhizosphere ; Metagenomics ; Plant Roots/microbiology ; Metagenome ; },
abstract = {Tomato is a staple crop and an excellent model to study host-microbiota interactions in the plant food chain. In this study, we describe a "lab-in-the-field" approach to investigate the microbiota of field-grown tomato plants. High-throughput amplicon sequencing revealed a three-microhabitat partition, phyllosphere, rhizosphere, and root interior, differentiating host-associated communities from the environmental microbiota. An individual bacterium, classified as Acinetobacter sp., emerged as a dominant member of the microbiota at the plant-soil continuum. To gain insights into the functional significance of this enrichment, we subjected rhizosphere specimens to shotgun metagenomics. Similar to the amplicon sequencing survey, a "microhabitat effect," defined by a set of rhizosphere-enriched functions, was identified. Mobilization of mineral nutrients, as well as adaptation to salinity and polymicrobial communities, including antimicrobial resistance genes (ARGs), emerged as a functional requirement sustaining metagenomic diversification. A metagenome-assembled genome representative of Acinetobacter calcoaceticus was retrieved, and metagenomic reads associated with this species identified a functional specialization for plant-growth promotion traits, such as phosphate solubilization, siderophore production, and reactive oxygen species detoxification, which were similarly represented in a tomato genotype-independent fashion. Our results revealed that the enrichment of a beneficial bacterium capable of alleviating plant abiotic stresses appears decoupled from ARGs facilitating microbiota persistence at the root-soil interface.IMPORTANCETomatoes are at center stage in global food security due to their high nutritional value, widespread cultivation, and versatility. Tomatoes provide essential vitamins and minerals, contribute to diverse diets, and support farmer livelihoods, making them a cornerstone of sustainable food systems. Beyond direct dietary benefits, the intricate relationship between tomatoes, their associated microbiota, and antimicrobial resistance gene (ARG) is increasingly recognized. Tomato plants host diverse microbial communities in association with their organs, which influence plant health and productivity. Crop management impacts the composition and function of these communities, contributing to the prevalence of ARGs in the soil and on the plants themselves. These genes can potentially transfer to human pathogens, posing a food safety and public health risk. Understanding these complex interactions is critical for developing sustainable agricultural practices capable of mitigating the impact of climatic modifications and the global threat of antimicrobial resistance.},
}

*Solanum lycopersicum/microbiology/growth & development
*Acinetobacter/genetics/classification/isolation & purification
Soil Microbiology
*Microbiota
Rhizosphere
Metagenomics
Plant Roots/microbiology
Metagenome

@article {pmid41538522,
year = {2026},
author = {Hoyos-López, R and Echeverri-De la Hoz, D and Martínez-Bravo, C and Gastelbondo-Pastrana, B and Alemán-Santos, M and Garay, E and López, Y and Contreras, H and Galeano, K and Arrieta, G and Mattar, S},
title = {Viral metagenomics in mosquitoes as potential vectors of arboviruses in the Colombian Caribbean: characterisation of a "core" regional RNA virome.},
journal = {Memorias do Instituto Oswaldo Cruz},
volume = {120},
number = {},
pages = {e250131},
pmid = {41538522},
issn = {1678-8060},
mesh = {Animals ; *Mosquito Vectors/virology/classification ; *Arboviruses/genetics/isolation & purification ; Colombia ; *Culicidae/virology/classification ; *Virome/genetics ; *RNA, Viral/genetics ; Metagenomics ; Seasons ; Caribbean Region ; *RNA Viruses/genetics/classification ; Arbovirus Infections/transmission ; },
abstract = {BACKGROUND: Mosquitoes are critical vectors in tropical regions where arboviruses like dengue and Zika are prevalent. This study focuses on characterising the RNA virome of mosquitoes in the Colombian Caribbean, emphasising the core regional virome and its role in the dynamics of arboviruses.

OBJECTIVES: The objective was to identify and analyse the core RNA virome of mosquitoes across different genera and seasons in the Colombian Caribbean to understand its composition and potential influence on arbovirus transmission dynamics.

METHODS: In 2023, 4,074 mosquitoes from the genera Mansonia, Coquillettidia, and Anopheles were collected across Córdoba, Sucre, Bolívar, and Magdalena during rainy and dry seasons. Specimens were pooled in groups of 50, subjected to RNA extraction, and sequenced on the MGI-G50™ platform. Bioinformatic analyses utilised the DIAMOND-MEGANizer pipeline and R packages (phyloseq, vegan, ggplot2) to identify viral communities.

FINDINGS: The analysis identified 22 viral families and 24 unclassified RNA viruses. The core regional virome, consistently present across species and seasons, was dominated by insect-specific viruses (ISVs) such as Aedes aegypti to virus 1 and 2, Astopletus, and Cumbaru, alongside Picornaviridae (30% of reads), Rhabdoviridae (20%), Orthomyxoviridae, and Bunyavirales. Mansonia titillans (38 species) and Coquillettidia nigricans (21 species) exhibited the highest viral richness. No significant arboviruses were detected, highlighting ISV dominance. Virome composition varied seasonally, with greater diversity in the rainy season due to increased breeding site availability and temperature.

MAIN CONCLUSIONS: The stability of the core virome suggests it modulates vector competence, potentially reducing arbovirus transmission. These findings advocate the use of metagenomics for enhanced vector surveillance and biological control strategies in neotropical ecosystems.},
}

Animals
*Mosquito Vectors/virology/classification
*Arboviruses/genetics/isolation & purification
Colombia
*Culicidae/virology/classification
*Virome/genetics
*RNA, Viral/genetics
Metagenomics
Seasons
Caribbean Region
*RNA Viruses/genetics/classification
Arbovirus Infections/transmission

@article {pmid41539094,
year = {2026},
author = {Wang, L and Xiong, Z and Chen, J and Liu, J and Liu, M and Yan, X and Fang, Z},
title = {Synergistic gut microbiome-host lipid axis underlies the antihypertensive effect of Qianyang Yuyin formula.},
journal = {Phytomedicine : international journal of phytotherapy and phytopharmacology},
volume = {151},
number = {},
pages = {157804},
doi = {10.1016/j.phymed.2026.157804},
pmid = {41539094},
issn = {1618-095X},
mesh = {*Gastrointestinal Microbiome/drug effects ; Animals ; Rats, Inbred SHR ; *Drugs, Chinese Herbal/pharmacology ; Male ; Rats ; *Antihypertensive Agents/pharmacology ; *Lipid Metabolism/drug effects ; Blood Pressure/drug effects ; Dysbiosis/drug therapy ; Fecal Microbiota Transplantation ; Hypertension/drug therapy ; *Prehypertension/drug therapy ; Disease Models, Animal ; },
abstract = {BACKGROUND: Prehypertension (Pre-HTN) is highly prevalent and substantially increases the risk of developing hypertension and cardiovascular disease. Gut microbiota (GM) dysbiosis and altered lipid metabolism are increasingly recognized as critical regulators of blood pressure (BP). Traditional Chinese Medicine (TCM) formulas, such as Qianyang Yuyin Granules (QYYY), offer multi-target interventions, yet their preventive mechanisms in Pre-HTN remain unclear.

PURPOSE: This study aimed to investigate the antihypertensive effects of QYYY and elucidate its underlying mechanisms in a prehypertensive rat model.

METHODS: Prehypertensive spontaneously hypertensive rats (SHRs) were treated with QYYY for four weeks. Multi-omics analyses, including metagenomics, plasma metabolomics, and transcriptomics, were conducted. Causal involvement of GM was tested using antibiotic-induced pseudo-germ-free SHRs with fecal microbiota transplantation (FMT) from QYYY-treated donors, administered alone or in combination with QYYY. Gut barrier integrity, systemic inflammation, and vascular function were evaluated by histology, immunofluorescence, transmission electron microscopy, and ELISA.

RESULTS: QYYY significantly lowered SBP and DBP, reversed GM dysbiosis, normalized the Firmicutes/Bacteroidetes ratio, and modulated differential bacteria including Frisingicoccus and Blautia. These microbial shifts correlated with restoration of lysophosphatidylethanolamines (LPEs), inversely associated with BP, revealing a GM-lipid-BP axis. FMT alone was insufficient, whereas the combination of FMT+QYYY produced the strongest antihypertensive effect, restoring intestinal barrier integrity, enhancing ZO-1 expression, and normalizing Ang-II and NO levels. Transcriptomic analyses suggested PPAR and ROS signaling pathways as potential mechanisms mediating the antihypertensive effect of QYYY.

CONCLUSION: QYYY prevents BP elevation in Pre-HTN via synergistic microbiota-dependent and independent mechanisms, offering a comprehensive strategy for early hypertension prevention.},
}

*Gastrointestinal Microbiome/drug effects
Animals
Rats, Inbred SHR
*Drugs, Chinese Herbal/pharmacology
Male
Rats
*Antihypertensive Agents/pharmacology
*Lipid Metabolism/drug effects
Blood Pressure/drug effects
Dysbiosis/drug therapy
Fecal Microbiota Transplantation
Hypertension/drug therapy
*Prehypertension/drug therapy
Disease Models, Animal

@article {pmid41539238,
year = {2026},
author = {Sitthipunya, A and Uthaipaisanwong, P and Sinwat, N and Kanjanavaikoon, K and Cheevadhanarak, S and Kusonmano, K},
title = {Metagenomic insights into the effects of Clostridium butyricum and Bacillus subtilis probiotics on the gut microbiome and metabolic pathways of industrial broilers in Thailand.},
journal = {Poultry science},
volume = {105},
number = {3},
pages = {106371},
pmid = {41539238},
issn = {1525-3171},
mesh = {Animals ; *Probiotics/pharmacology/administration & dosage ; *Bacillus subtilis/chemistry ; *Chickens/microbiology/metabolism ; *Gastrointestinal Microbiome/drug effects ; *Clostridium butyricum/chemistry ; Animal Feed/analysis ; Diet/veterinary ; *Metabolic Networks and Pathways/drug effects ; Thailand ; Metagenomics ; Dietary Supplements/analysis ; *Metagenome ; },
abstract = {Probiotic supplementation has become increasingly important in broiler production due to its safety and well-documented health benefits. The gut microbiome of broilers plays a vital role in feed digestion and maintaining intestinal homeostasis, which directly influences the efficacy of probiotics under specific farm conditions. This study aims to investigate the effects of single Bacillus subtilis probiotics and double-strain probiotics of Clostridium butyricum and B. subtilis supplementation on the gut microbiome of broilers in industrial farms. We evaluated sequencing data obtained from broilers supplemented with these probiotics through amplicon sequencing and metagenomic analysis. Our study revealed that probiotics significantly influence the cecal microbiome and its functionality in broilers. The use of double-strain probiotics increased butanoate metabolism, as well as the metabolism of glycine, serine, and threonine. This suggests their contribution from microbial gut species, including Alistipes onderdonkii, Alistipes finegoldii, Bacteroides uniformis, and Phocaeicola dorei. Supporting this finding, network analysis shows more connections between probiotics and commensal cecal microbiota, highlighting a cascade-linked association with butanoate-producing microbiota. Furthermore, single-strain B. subtilis probiotic supplementation uniquely enhanced arginine and proline metabolism, likely due to the presence of species such as Bacteroides sp. zj-18, Bacteroides cellulosilyticus, and Parabacteroides distasonis. Overall, our findings indicate that double-strain probiotics increased richness in the cecal microbial community, reshaped the microbial network, and enriched short-chain fatty acid and amino acid metabolism, contributing to improved gut health and performance in broiler production.},
}

Animals
*Probiotics/pharmacology/administration & dosage
*Bacillus subtilis/chemistry
*Chickens/microbiology/metabolism
*Gastrointestinal Microbiome/drug effects
*Clostridium butyricum/chemistry
Animal Feed/analysis
Diet/veterinary
*Metabolic Networks and Pathways/drug effects
Thailand
Metagenomics
Dietary Supplements/analysis
*Metagenome

@article {pmid41539415,
year = {2026},
author = {Liu, P and He, G and Guo, Z and Tang, Y and Tan, Z and Song, Y and He, T and Lee, SL},
title = {Characteristics of microbial community succession and functional metabolite accumulation during microaerobic fermentation of high-sugar-load fruit and vegetable residues: Potential implications for guiding home production of environmental-friendly bioactive fertilizer.},
journal = {Genomics},
volume = {118},
number = {2},
pages = {111204},
doi = {10.1016/j.ygeno.2026.111204},
pmid = {41539415},
issn = {1089-8646},
mesh = {*Fermentation ; *Vegetables/metabolism/microbiology ; *Fruit/metabolism/microbiology ; *Microbiota ; *Fertilizers ; Germination ; Lactuca/growth & development/microbiology ; },
abstract = {Household fermentation tanks offer simple, low-cost solutions for fruit and vegetable waste utilization, yet staged metabolite formation during sugar-mediated fermentation remains understudied. Using metagenomic and metabolomic approaches, we characterized microbial succession and metabolite dynamics over 28 days. Three phases emerged: substrate activation (1-7d) with Enterobacter/Escherichia dominance producing organic acids; metabolic transition (8-21d) with Lactiplantibacillus proliferation (312.5% increase) accumulating phytohormones 3-hydroxycinnamic acid (2.84-fold) and adenine (1.38-fold); functional stability (21-28d) establishing Lactiplantibacillus-Acetobacter synergy enriching antioxidants and antimicrobial peptides. Multi-omics analysis revealed strong correlations between amino acid metabolism and functional metabolites (r = 0.78, p < 0.01). Fermentation broth (1:500 dilution) enhanced lettuce germination to 92.22% (p < 0.05).Although the potential of household agriculture is demonstrated through staged microbial community development and the formation of bioactive products, functional characteristics still need to be verified in the soil-plant system beyond seed germination assays.},
}

*Fermentation
*Vegetables/metabolism/microbiology
*Fruit/metabolism/microbiology
*Microbiota
*Fertilizers
Germination
Lactuca/growth & development/microbiology

@article {pmid41539810,
year = {2026},
author = {Liu, Y and Guo, Y and Mu, H and Aaqil, M and Zhang, F and Zheng, J and Sheng, J and Tian, Y and Zhao, C},
title = {Microbial succession-potential influence mechanism on flavor modulation in spontaneously fermented Moringa oleifera leaves: An integrative multi-omics approach.},
journal = {Food research international (Ottawa, Ont.)},
volume = {226},
number = {},
pages = {118184},
doi = {10.1016/j.foodres.2025.118184},
pmid = {41539810},
issn = {1873-7145},
mesh = {*Moringa oleifera/microbiology/chemistry ; *Fermentation ; Gas Chromatography-Mass Spectrometry ; *Plant Leaves/microbiology/chemistry ; *Taste ; Odorants/analysis ; Multiomics ; Amino Acids/analysis ; Volatile Organic Compounds/analysis ; *Food Microbiology ; *Microbiota ; *Bacteria/metabolism/classification ; *Fermented Foods/microbiology ; Food, Processed ; },
abstract = {In this study, the relationship between flavor composition and microbial succession in Moringa oleifera pickles (MOPs) at different stages of spontaneous fermentation was systematically investigated. The results demonstrated a significant increase in the content of organic acids and amino acids during fermentation including malonic acid, citric acid, valine (Val), and asparagine (Asn). These compounds not only enhanced the overall flavor profile but also provided favorable nutritional conditions that supported microbial succession. Furthermore, an integrated aroma network was established through the combined application of gas chromatography-mass spectrometry (GC-MS) and gas chromatography-ion mobility spectrometry (GC-IMS). GC-MS identified key aroma-active compounds such as ethyl caproate (fruity note), 3-hexenal (green, grassy note), and 2-phenylethanol (floral, rosy note). Complementarily, GC-IMS confirmed that esters, alcohols, and terpenes were the major contributors to fruit-like, mushroom-like, and fresh herbal aromas, indicating their critical role as flavor-modulating compounds throughout fermentation. Metagenomic analysis revealed Corynebacterium, Escherichia, Pseudomonas, Xanthomonas, and Pantoea as the dominant microbial genera involved in fermentation. These microbes primarily participated in amino acid, carbohydrate, and nucleotide metabolism and exhibited a close association with the formation of key flavor compounds. The strong influence of microbial succession on flavor evolution is likely driven by the observed correlations between microbial taxa and volatile organic compounds (VOCs). These correlations may stem from a series of complex ecological and metabolic interactions, including substrate competition, niche adaptation, and upstream-downstream dependencies within microbial metabolic networks. This study provides a theoretical foundation for the quality control of MOPs and the mitigation of potential pathogenic microorganisms, thereby supporting its application in enhancing product quality and consumer sensory satisfaction in the pickle industry.},
}

*Moringa oleifera/microbiology/chemistry
*Fermentation
Gas Chromatography-Mass Spectrometry
*Plant Leaves/microbiology/chemistry
*Taste
Odorants/analysis
Multiomics
Amino Acids/analysis
Volatile Organic Compounds/analysis
*Food Microbiology
*Microbiota
*Bacteria/metabolism/classification
*Fermented Foods/microbiology
Food, Processed

@article {pmid41539854,
year = {2026},
author = {Choi, S and Kwon, H and Kim, WK and Ko, G},
title = {Attenuation of Clostridioides difficile Infection by Clostridium hylemonae.},
journal = {Journal of microbiology and biotechnology},
volume = {36},
number = {},
pages = {e2510017},
pmid = {41539854},
issn = {1738-8872},
mesh = {Animals ; *Clostridium Infections/microbiology/therapy/prevention & control ; *Clostridioides difficile ; *Clostridium/physiology/genetics ; Gastrointestinal Microbiome ; Mice ; Disease Models, Animal ; Feces/microbiology ; Bile Acids and Salts/metabolism ; },
abstract = {Clostridioides difficile infection (CDI) is a bacterial infection of the colon that can cause diarrhea and colitis. The use of antimicrobials disrupts the intestinal microbiota, weakening colonization resistance and creating an environment in which C. difficile can establish infection. It is, therefore, necessary to identify specific bacteria that are helpful for the recovery of the intestinal microbiota in individuals with CDI. Previous studies have identified several strains that showed a negative correlation with C. difficile. Among these strains, C. hylemonae DSM 15053, which possesses the bai operon similar to Clostridium scindens, was selected. To test this hypothesis, we utilized a CDI mouse model and evaluated the inhibitory effect of C. hylemonae DSM 15053. Furthermore, to gain insights into the underlying mechanisms, we performed gut microbiota analysis. Contrary to our expectations, C. hylemonae DSM 15053 did not significantly produce SBAs. Interestingly, however, microbial diversity and richness were significantly higher in the C. hylemonae DSM 15053-treated group compared with the PBS control group. In addition, we observed a higher abundance of the genera Phocaeicola, Akkermansia, and Parabacteroides in the C. hylemonae DSM 15053 group. Moreover, metagenomic and metabolomic analyses revealed that C. hylemonae DSM 15053 mitigates CDI through a mechanism distinct from that of C. scindens KCTC 5591, which primarily functions as a regulator of bile acid metabolism.},
}

Animals
*Clostridium Infections/microbiology/therapy/prevention & control
*Clostridioides difficile
*Clostridium/physiology/genetics
Gastrointestinal Microbiome
Mice
Disease Models, Animal
Feces/microbiology
Bile Acids and Salts/metabolism

@article {pmid41540059,
year = {2026},
author = {St John, E and Reysenbach, AL},
title = {Global deep-sea hydrothermal deposit metagenomes and metagenome-assembled genomes over time and space.},
journal = {Scientific data},
volume = {13},
number = {1},
pages = {283},
pmid = {41540059},
issn = {2052-4463},
support = {DEB-2409507//National Science Foundation/ ; },
mesh = {*Metagenome ; *Hydrothermal Vents/microbiology ; *Archaea/genetics ; Bacteria/genetics/classification ; Microbiota ; *Genome, Archaeal ; },
abstract = {Actively venting high temperature deep-sea hydrothermal vent deposits along tectonic spreading centers and in backarc basins harbor a rich diversity of thermophilic Bacteria and Archaea, many of which have no representatives in cultivation nor any genomic representation in databases. Here, in order to produce a global-scale time series metagenomic resource for studying the microbial functional and genomic diversity in these high temperature ecosystems, we obtained 70 metagenomes from collections across spatial and temporal gradients from 21 different vent fields spanning 16 years (1993-2009). The dataset (Deep-Sea Hydrothermal Vent dataset (DSV70)) includes 3.56 Tbp of raw DNA sequence reads, that have been assembled to produce 7,422 medium- to high-quality (based on CheckM2) metagenome-assembled genomes (MAGs) of Bacteria (6,063 MAGs) and Archaea (1,359 MAGs). Collectively, this DSV70 dataset and the published 40 metagenomes from more recent deep-sea collections (2004 to 2018), represent a valuable resource for exploring the functional and phylogenomic diversity of the deep-sea hydrothermal microbiomes, and provide many reference genomes for studies in the taxonomy and systematics of poorly studied microbial lineages. Further, with the interest in mining the mineral resources at deep-sea vents, the DSV70 provides a genomic legacy for monitoring impacts on the microbial communities in these systems.},
}

*Metagenome
*Hydrothermal Vents/microbiology
*Archaea/genetics
Bacteria/genetics/classification
Microbiota
*Genome, Archaeal

@article {pmid41540332,
year = {2026},
author = {Wang, Y and Wu, C and Zhu, Q and Fan, C and Zhu, Y and Chen, Y and Wei, X and Feng, L},
title = {Comparative metagenomic characterization of gut microbiota and antibiotic resistome in multi-facility SPF mice.},
journal = {BMC microbiology},
volume = {26},
number = {1},
pages = {},
pmid = {41540332},
issn = {1471-2180},
mesh = {Animals ; *Gastrointestinal Microbiome/genetics/drug effects ; Mice ; *Metagenomics/methods ; Mice, Inbred C57BL ; Anti-Bacterial Agents/pharmacology ; *Bacteria/genetics/classification/drug effects/isolation & purification ; Mice, Inbred BALB C ; Specific Pathogen-Free Organisms ; Cecum/microbiology ; Metagenome ; *Drug Resistance, Microbial/genetics ; },
abstract = {Specific pathogen-free (SPF) mice are pivotal preclinical models linking basic microbiology to clinical translation, yet comprehensive high-resolution profiling of their gut microbiome, especially antibiotic resistance genes (ARGs), remains limited. To address this gap, metagenomic sequencing was conducted on cecal contents from C57BL/6 and BALB/c SPF mice from five Shanghai laboratory animal facilities, generating 141 Gbp high-quality sequencing data. From 1,761,909 predicted genes, 1,048,575 non-redundant genes were identified for analysis. Taxonomic annotation identified Bacillota (73.0%), Bacteroidota (16.6%), and Actinomycetota (2.9%) as dominant phyla. At the genus level, microbial communities varied markedly across facilities, with Muribaculaceae prevailing in SHA/SHD and Blautia or Enterococcus enriched in SHB/SHE. Beta diversity analysis showed communities clustered by facility, indicating breeding environment had a stronger impact on gut microbiota diversity than host strain. KEGG, COG, and GO functional annotation revealed broad metabolic and molecular diversity. Antibiotic resistome profiling identified 11 ARG categories, predominantly associated with glycopeptides (18.1%) and tetracycline (11.3%) resistance. The most enriched ARG carriers were Pseudomonadota (acrD, emrB, mdtB etc.), Bacillota (tet(44), tet(M), tet(O) etc.), Bacteroidota (tet(Q), mel, tet(X) etc.), and Actinomycetota (rpoB, ileS). Furthermore, ARGs resistance mechanisms varied between facilities with distinct beta-diversity clustering: SHB and SHE mice mainly employed antibiotic target alteration against glycopeptides, whereas SHA, SHD, and SHC-C57BL/6 primarily utilized antibiotic target protection against tetracyclines. This study presents a high-resolution comparison of gut microbiota and ARGs in SPF mice from multiple facilities, highlighting facility-dependent microbial and resistome variation and providing valuable references for preclinical microbiological standardization and risk assessment.},
}

Animals
*Gastrointestinal Microbiome/genetics/drug effects
Mice
*Metagenomics/methods
Mice, Inbred C57BL
Anti-Bacterial Agents/pharmacology
*Bacteria/genetics/classification/drug effects/isolation & purification
Mice, Inbred BALB C
Specific Pathogen-Free Organisms
Cecum/microbiology
Metagenome
*Drug Resistance, Microbial/genetics

@article {pmid41543249,
year = {2026},
author = {Beals, DG and Carper, DL and Hochanadel, LH and Jawdy, SS and Klingeman, DM and Piatkowski, BT and Weston, DJ and Doktycz, MJ and Pelletier, DA},
title = {Genomic signatures in Variovorax enabling colonization of the Populus endosphere.},
journal = {mSystems},
volume = {11},
number = {2},
pages = {e0160525},
pmid = {41543249},
issn = {2379-5077},
mesh = {*Populus/microbiology ; Plant Roots/microbiology ; Rhizosphere ; *Comamonadaceae/genetics/classification ; *Genome, Bacterial ; Metagenomics ; Soil Microbiology ; Microbiota/genetics ; Genomics ; },
abstract = {Microbial colonization of plant roots involves strong selective pressures that shape the structure and function of root-associated communities. In particular, the endosphere represents a highly selective environment requiring host entry and in planta persistence. However, strain-specific microbial traits that enable endosphere colonization remain poorly understood. Here, we use a defined, genome-resolved community of 28 Variovorax strains isolated from the roots of Populus deltoides and Populus trichocarpa (poplar trees) to determine which strains partition between rhizosphere and endosphere compartments and to identify the genomic traits associated with endosphere specialization. By combining strain-resolved metagenomic profiling, comparative genomics, and functional assays, we demonstrate that dominant endosphere colonizers are enriched in genes related to nutrient metabolism, redox balance, transcriptional regulation, and a conserved L-fucose utilization pathway experimentally shown to enhance root colonization. Not all strains succeed through the same strategy. Community-wide functional profiling revealed a distinct and reduced set of traits in the endosphere, including orthogroups associated with low-abundance strains that were overlooked in strain-level analyses. These findings reveal that multiple ecological strategies, such as metabolic competition, regulatory adaptation, and niche specialization, can support endosphere colonization. Our results advance the understanding of how bacterial colonization traits are distributed and deployed within a plant microbiome and suggest that host filtering selects for distinct, and sometimes complementary, microbial strategies. This work supports a shift toward mechanistic, genome-resolved models of microbiome assembly and offers a framework for linking microbial function to host colonization success.IMPORTANCEPlants often depend on diverse microbial partners to support their growth, resilience, and adaptation to changing environments. Among these microbes, some bacteria inhabit the rhizosphere (the narrow zone around roots where microbes interact with the plant) while others are able to enter and persist within root tissues. The traits that distinguish these two lifestyles remain poorly understood. In this study, we examined a group of related Variovorax strains from poplar tree root microbiomes to ask why some rhizosphere-associated strains also become successful endosphere colonizers. We found that strains appear to succeed through different strategies: some may benefit from rapid growth on plant-derived carbon sources, while others may rely on stress tolerance or fine-tuned regulation. These results suggest that there is no single path from the rhizosphere into the root interior, but rather multiple strategies shaped by the host environment. Understanding this diversity can inform efforts to design resilient plant-microbe communities.},
}

*Populus/microbiology
Plant Roots/microbiology
Rhizosphere
*Comamonadaceae/genetics/classification
*Genome, Bacterial
Metagenomics
Soil Microbiology
Microbiota/genetics
Genomics

@article {pmid41543328,
year = {2026},
author = {Ji, Q and Wang, Y and Huo, L and Qiao, C and Li, F and Yang, F and Pan, L},
title = {Therapeutic Mechanisms of Lactiplantibacillus plantarum NXU0014 Against Chronic Alcohol-Induced Liver Injury Mediated by Gut-Liver Axis Modulation.},
journal = {Molecular nutrition & food research},
volume = {70},
number = {1},
pages = {e70375},
doi = {10.1002/mnfr.70375},
pmid = {41543328},
issn = {1613-4133},
support = {2023BCF01028//Key R & D Program of Ningxia Hui Autonomous Region/ ; 2023BCF01029//Key R & D Program of Ningxia Hui Autonomous Region/ ; 2024AAC05047//Ningxia Hui Autonomous Region Excellent Young Scientists Fund/ ; NYG2024042//Higher Education Scientific Research Grant, Department of Education of Ningxia Hui Autonomous Region/ ; },
mesh = {Animals ; Male ; Mice, Inbred C57BL ; *Probiotics/pharmacology ; *Lactiplantibacillus plantarum/physiology ; Liver/metabolism/drug effects ; *Liver Diseases, Alcoholic/therapy/microbiology ; Mice ; *Gastrointestinal Microbiome/drug effects/physiology ; Oxidative Stress ; Dysbiosis ; Intestinal Barrier Function ; },
abstract = {This study investigated the protective effects of Lactobacillus plantarum NXU0014 against chronic alcoholic liver injury (CALI) and its underlying mechanisms in a mouse model. Forty-eight male C57BL/6J mice were divided into four groups: blank control, model, silymarin, and L. plantarum NXU0014. The CALI model was induced by administering 56% Hongxing Erguotou liquor. Multi-omics analyses revealed that alcohol intake induced gut microbiota dysbiosis, characterized by an increased Firmicutes/Bacteroidetes ratio and decreased abundance of probiotics (e.g., Lactobacillus and Bifidobacterium). These changes were associated with hepatic pro-inflammatory upregulation, downregulation of antioxidant genes (Nrf2, HO-1), and impaired intestinal barrier function (ZO-1). Metabolomic disturbances featured elevated fecal bile acids, reduced amino acids, and enriched pathways for ABC transporters and bile secretion. Intervention with NXU0014 restored probiotic levels (including Bifidobacterium pseudodanubicum and Lactobacillus reuteri), alleviated hepatic inflammation and oxidative stress by activating the Nrf2/HO-1 pathway, and repaired the intestinal barrier. Integrated microbiome-metabolome analysis revealed a negative correlation between Lactobacillus and toxic bile acids, and a positive correlation between Bifidobacterium and anti-inflammatory metabolites. These findings demonstrate that NXU0014 mitigates liver injury by modulating gut-liver axis metabolic interactions, highlighting its potential as a novel probiotic-based therapy for alcoholic liver disease.},
}

Animals
Male
Mice, Inbred C57BL
*Probiotics/pharmacology
*Lactiplantibacillus plantarum/physiology
Liver/metabolism/drug effects
*Liver Diseases, Alcoholic/therapy/microbiology
Mice
*Gastrointestinal Microbiome/drug effects/physiology
Oxidative Stress
Dysbiosis
Intestinal Barrier Function

@article {pmid41544440,
year = {2026},
author = {Yang, L and Ru, J and Guo, S and Yang, X and Li, P and Deng, L and Wang, X},
title = {Research note: The chicken gut virome: Spatiotemporal dynamics and divergent responses to antibiotic versus phytogenic supplementation.},
journal = {Poultry science},
volume = {105},
number = {3},
pages = {106373},
pmid = {41544440},
issn = {1525-3171},
mesh = {Animals ; *Chickens/virology ; *Anti-Bacterial Agents/pharmacology/administration & dosage ; *Gastrointestinal Microbiome/drug effects ; *Bacteriophages/drug effects/physiology/genetics ; Dietary Supplements/analysis ; *Virome/drug effects ; Animal Feed/analysis ; Diet/veterinary ; *Chlortetracycline/pharmacology/administration & dosage ; *Plant Extracts/pharmacology/administration & dosage ; },
abstract = {This study employed metagenomic sequencing data to comprehensively investigate the gut virome, with a focus on the bacteriophage communities (the phageome), across intestinal regions and developmental stages in 360 chickens. We characterized the spatiotemporal dynamics of phage communities and assessed the impact of chlortetracycline (CTC), an antibiotic, and Macleaya cordata extract (MCE), a phytogenic supplement. Our analysis revealed that phage community assembly was highly structured, exhibiting distinct successional patterns across age and between foregut and hindgut segments. A key finding was the identification of a potential antibiotic-phage synergy, mediated by phage-encoded auxiliary metabolic genes (AMGs) involved in bacterial immune evasion, suggesting a novel mechanism for enhanced infectivity under antibiotic pressure. In contrast, phytogenic supplementation promoted gut ecosystem homeostasis by fostering significantly richer and more diverse phage communities. Our results delineate the fundamental ecology of the chicken gut virome and provide mechanistic insights into how different growth promoters exert contrasting effects on viral populations, supporting the use of phytogenics as sustainable alternatives for animal husbandry.},
}

Animals
*Chickens/virology
*Anti-Bacterial Agents/pharmacology/administration & dosage
*Gastrointestinal Microbiome/drug effects
*Bacteriophages/drug effects/physiology/genetics
Dietary Supplements/analysis
*Virome/drug effects
Animal Feed/analysis
Diet/veterinary
*Chlortetracycline/pharmacology/administration & dosage
*Plant Extracts/pharmacology/administration & dosage

@article {pmid41544986,
year = {2026},
author = {Liu, X and Zhang, J and Niu, Y and Bai, Y and Jia, X and Cai, S and Wang, Y and Zhang, X and Shi, B and Hu, J and Zhang, C and Zhao, Z},
title = {Dynamic changes in rumen fermentation, microbial communities, and metabolite profiles of non-pregnant and gestational Ashidan yaks.},
journal = {Genomics},
volume = {118},
number = {2},
pages = {111205},
doi = {10.1016/j.ygeno.2026.111205},
pmid = {41544986},
issn = {1089-8646},
mesh = {Animals ; *Rumen/microbiology/metabolism ; Cattle/microbiology/metabolism ; Fermentation ; Female ; *Metabolome ; Metagenome ; Pregnancy ; *Gastrointestinal Microbiome ; *Microbiota ; },
abstract = {Rumen microbiota and their metabolites in ruminants across reproductive stages benefit the animals' growth, health and offspring's development. However, the impact of rumen fermentation profiles, microbial composition, and metabolite dynamics between non-pregnant and gestating Ashidan yaks remains poorly understood. This study analyzed the rumen fermentation, metagenome and metabolome of five 2-3-year-old Ashidan yaks during the non-pregnant period (NP; 11-30 days pre-mating) and the gestational period (GP; 112-148 days post-conception). Research has found that gestation had higher acetic acid and ammonia nitrogen (NH3-N) (P < 0.05), increased Ascomycota, Apicomplexa, Rhodococcus, Acinetobacter, Methanosphaera (P < 0.05); differential metabolites enriched in valine, leucine, isoleucine biosynthesis and histidine metabolism (P < 0.05), with L-threonine and urocanic acid as major ones. Additionally, microorganisms, metabolites and fermentation parameters correlated. The study shows Ashidan yaks adapt to reproductive stages via regulating rumen microbiota and metabolism, providing a basis for feeding management.},
}

Animals
*Rumen/microbiology/metabolism
Cattle/microbiology/metabolism
Fermentation
Female
*Metabolome
Metagenome
Pregnancy
*Gastrointestinal Microbiome
*Microbiota

@article {pmid41547150,
year = {2026},
author = {Liu, J and Huang, X and Wang, Y and Wang, Y and Luo, R and Lu, X and Cao, K and Xing, J and Tu, Y and Zheng, W},
title = {Metagenomics insights into the effects of lactic acid bacteria inoculation on the microbial communities and antibiotic resistance genes in mare milk.},
journal = {International journal of food microbiology},
volume = {450},
number = {},
pages = {111622},
doi = {10.1016/j.ijfoodmicro.2026.111622},
pmid = {41547150},
issn = {1879-3460},
mesh = {Animals ; *Milk/microbiology ; Horses ; *Lactobacillales/genetics/physiology ; Metagenomics ; Fermentation ; Female ; *Microbiota ; *Drug Resistance, Bacterial/genetics ; *Drug Resistance, Microbial/genetics ; Genes, Bacterial ; Anti-Bacterial Agents/pharmacology ; Bacteria/genetics/isolation & purification/classification ; },
abstract = {Antibiotic resistance genes (ARGs) are emerging contaminants threatening public health, yet their transmission risk via mare milk products remains understudied. Using metagenomics, we analyzed lactic acid bacteria (LAB)-inoculated fermented, naturally fermented, raw, and pasteurized mare milk to investigate the effect of LAB inoculation on the distribution and transmission pathways of ARGs in mare milk. The results showed that naturally fermented, raw, and pasteurized mare milk had the highest number of pathogens, relative abundance of ARGs, and relative abundance of mobile genetic elements (MGEs), while LAB inoculation significantly reduced these (p < 0.05). Bacillota was the dominant microbial group in different samples. Compared to naturally fermented and raw mare milk, LAB-inoculated fermentation significantly altered microbial community structure (p < 0.05). This not only reduced or eliminated certain harmful bacteria but also decreased the abundance of total ARGs and multiple ARG subtypes by reducing host bacteria and MGEs. Microbes and MGEs jointly drove ARG transmission, with microbes being key. Transposon, Bacteroidota, and Pseudomonadota are the major MGEs and microbial taxa for ARG transmission. LAB inoculation can effectively inhibit the spread of 11 ARG types, including β-lactam and multidrug resistance, by weakening the co-occurrence network among microbes, ARGs, and MGEs. This study enhances understanding of resistance genes in diverse equine dairy products, elucidates the impact of LAB fermentation on ARG distribution and transmission pathways in mare milk, and provides valuable data references and theoretical guidance for safer equine dairy processing.},
}

Animals
*Milk/microbiology
Horses
*Lactobacillales/genetics/physiology
Metagenomics
Fermentation
Female
*Microbiota
*Drug Resistance, Bacterial/genetics
*Drug Resistance, Microbial/genetics
Genes, Bacterial
Anti-Bacterial Agents/pharmacology
Bacteria/genetics/isolation & purification/classification