Genome-wide association analyses highlight the role of the intestinal molecular environment in human gut microbiota variation.
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Dekkers KF, Pertiwi K, Baldanzi G, Lundmark P, Hammar U, Moksnes MR, Coward E, Nethander M, Salih GA, Miari M, Nguyen D, Sayols-Baixeras S, Eklund AC, Holm JB, Nielsen HB, Volpiano CG, Méric G, Thangam M, Hakaste L, Tuomi T, Ahlqvist E, Smith CA, Allen M, Reimann F, Gribble FM, Ohlsson C, Hveem K, Melander O, Nilsson PM, Engström G, Smith JG, Michaëlsson K, Ärnlöv J, Orho-Melander M, Fall T
Nat. Genet. 58 (3) 540-549 [2026-03-00; online 2026-02-13]
Despite the importance of the gut microbiome to health, the role of human genetic variation in shaping its composition remains poorly understood. Here we report genome-wide association analyses of harmonized metagenomic data from 16,017 adults in four Swedish population-based studies, with replication in 12,652 people from the Norwegian HUNT study. We identified variants in the OR51E1-OR51E2 locus, encoding sensors for microbiome-derived fatty acids, associated with microbial richness. We further identified 15 study-wide significant genetic associations (P < 5.4 × 10-11) involving eight loci and 14 common bacterial species, of which 11 associations at six loci were replicated. The results confirm previously reported associations at LCT, ABO and FUT2, and provide evidence for new loci MUC12, CORO7-HMOX2, SLC5A11, FOXP1 and FUT3-FUT6, with supporting data from metabolomics and gene expression analyses. Our findings link gut microbial variation genetically to gastrointestinal functions, including enteroendocrine fatty acid sensing, bile composition and mucosal layer composition.
NGI Uppsala (SNP&SEQ Technology Platform) [Service]
National Genomics Infrastructure [Service]
PubMed 41688638
DOI 10.1038/s41588-026-02512-2
Crossref 10.1038/s41588-026-02512-2
pmc: PMC12987725
pii: 10.1038/s41588-026-02512-2