Human and bacterial genetic variation shape oral microbiomes and health.

Human genetic variation influences all aspects of our biology, including the oral cavity(1-3), through which nutrients and microbes enter the body. Yet it is largely unknown which human genetic variants shape a person's oral microbiome and potentially promote its dysbiosis(3-5). We characterized the oral microbiomes of 12,519 people by re-analysing whole-genome sequencing reads from previously sequenced saliva-derived DNA. Human genetic variation at 11 loci (10 new) associated with variation in oral microbiome composition. Several of these related to carbohydrate availability; the strongest association (P = 3.0 × 10(-188)) involved the common FUT2 W154X loss-of-function variant, which associated with the abundances of 58 bacterial species. Human host genetics also seemed to powerfully shape genetic variation in oral bacterial species: these 11 host genetic variants also associated with variation of gene dosages in 68 regions of bacterial genomes. Common, multi-allelic copy number variation of AMY1, which encodes salivary amylase, associated with oral microbiome composition (P = 1.5 × 10(-53)) and with dentures use in UK Biobank (P = 5.9 × 10(-35), n = 418,039) but not with body mass index (P = 0.85), suggesting that salivary amylase abundance impacts health by influencing the oral microbiome. Two other microbiome composition-associated loci, FUT2 and PITX1, also significantly associated with dentures risk, collectively nominating numerous host-microbial interactions that contribute to tooth decay.