Characterization of gut microbial structural variations as determinants of human bile acid metabolism
Bile acids (BAs) facilitate intestinal fat absorption and act as important signaling molecules in host-gut microbiota crosstalk. BA-metabolizing pathways in the microbial community have been identified, but it remains largely unknown how the highly variable genomes of gut bacteria interact with host...
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Veröffentlicht in: | Cell host & microbe 2021-12, Vol.29 (12), p.1802-1814.e5 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Bile acids (BAs) facilitate intestinal fat absorption and act as important signaling molecules in host-gut microbiota crosstalk. BA-metabolizing pathways in the microbial community have been identified, but it remains largely unknown how the highly variable genomes of gut bacteria interact with host BA metabolism. We characterized 8,282 structural variants (SVs) of 55 bacterial species in the gut microbiomes of 1,437 individuals from two cohorts and performed a systematic association study with 39 plasma BA parameters. Both variations in SV-based continuous genetic makeup and discrete clusters showed correlations with BA metabolism. Metagenome-wide association analysis identified 809 replicable associations between bacterial SVs and BAs and SV regulators that mediate the effects of lifestyle factors on BA metabolism. This is the largest microbial genetic association analysis to demonstrate the impact of bacterial SVs on human BA composition, and it highlights the potential of targeting gut microbiota to regulate BA metabolism through lifestyle intervention.
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•Structural variations (SVs) underpin the bacterial populational genetic structure•Numerous microbial SVs are associated with plasma bile acid composition•SV-based metagenome analysis enables discovery of bile acid transformation genes•Lifestyle impacts human bile acid metabolism via modulation of microbial genetics
Wang et al. identify and characterize structural variants in human gut bacterial genomes involved in human bile acid metabolism that may act as mediators that regulate the impact of lifestyle factors on bile acid metabolism. |
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ISSN: | 1931-3128 1934-6069 |
DOI: | 10.1016/j.chom.2021.11.003 |