Key bacterial taxa and metabolic pathways affecting gut short-chain fatty acid profiles in early life

Author:

Tsukuda NaokiORCID,Yahagi KanaORCID,Hara TaekoORCID,Watanabe YoheiORCID,Matsumoto Hoshitaka,Mori HiroshiORCID,Higashi KoichiORCID,Tsuji HirokazuORCID,Matsumoto Satoshi,Kurokawa KenORCID,Matsuki TakahiroORCID

Abstract

AbstractInfant gut microbiota development affects the host physiology throughout life, and short-chain fatty acids (SCFAs) are promising key metabolites mediating microbiota-host relationships. Here, we investigated dense longitudinally collected faecal samples from 12 subjects during the first 2 years (n = 1048) to identify early life gut SCFA patterns and their relationships with the microbiota. Our results revealed three distinct phases of progression in the SCFA profiles: early phase characterised by low acetate and high succinate, middle-phase characterised by high lactate and formate and late-phase characterised by high propionate and butyrate. Assessment of the SCFA–microbiota relationships revealed that faecal butyrate is associated with increased Clostridiales and breastfeeding cessation, and that diverse and personalised assemblage of Clostridiales species possessing the acetyl-CoA pathway play major roles in gut butyrate production. We also found an association between gut formate and some infant-type bifidobacterial species, and that human milk oligosaccharides (HMO)-derived fucose is the substrate for formate production during breastfeeding. We identified genes upregulated in fucose and fucosylated HMO utilisation in infant-type bifidobacteria. Notably, bifidobacteria showed interspecific and intraspecific variation in the gene repertoires, and cross-feeding of fucose contributed to gut formate production. This study provides an insight into early life SCFA–microbiota relationships, which is an important step for developing strategies for modulating lifelong health.

Funder

Yakult Central Institute

Database Integration Coordination Program (DICP) from the National Bioscience Database Center (NBDC), Japan Science and Technology Agency

Publisher

Springer Science and Business Media LLC

Subject

Ecology, Evolution, Behavior and Systematics,Microbiology

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