The microbial gbu gene cluster links cardiovascular disease risk associated with red meat consumption to microbiota l-carnitine catabolism

氧化三甲胺 微生物群 生物 肠道菌群 丁酸盐 牛羊肉 基因簇 基因 微生物学 肉碱 遗传学 生物化学 食品科学 三甲胺 发酵
作者
Jennifer A. Buffa,Kymberleigh A. Romano,Matthew F. Copeland,David B. Cody,Weifei Zhu,Rachel Galvez,Xiaoming Fu,Kathryn H. Ward,Marc Ferrell,Hong Jian Dai,Sarah M. Skye,Ping Hu,Lin Li,Mirjana Parlov,Amy McMillan,Xingtao Wei,Ina Nemet,Robert Koeth,Xinmin S. Li,Zeneng Wang
出处
期刊:Nature microbiology [Nature Portfolio]
卷期号:7 (1): 73-86 被引量:120
标识
DOI:10.1038/s41564-021-01010-x
摘要

The heightened cardiovascular disease (CVD) risk observed among omnivores is thought to be linked, in part, to gut microbiota-dependent generation of trimethylamine-N-oxide (TMAO) from L-carnitine, a nutrient abundant in red meat. Gut microbial transformation of L-carnitine into trimethylamine (TMA), the precursor of TMAO, occurs via the intermediate γ-butyrobetaine (γBB). However, the interrelationship of γBB, red meat ingestion and CVD risks, as well as the gut microbial genes responsible for the transformation of γBB to TMA, are unclear. In the present study, we show that plasma γBB levels in individuals from a clinical cohort (n = 2,918) are strongly associated with incident CVD event risks. Culture of human faecal samples and microbial transplantation studies in gnotobiotic mice with defined synthetic communities showed that the introduction of Emergencia timonensis, a human gut microbe that can metabolize γBB into TMA, is sufficient to complete the carnitine → γBB → TMA transformation, elevate TMAO levels and enhance thrombosis potential in recipients after arterial injury. RNA-sequencing analyses of E. timonensis identified a six-gene cluster, herein named the γBB utilization (gbu) gene cluster, which is upregulated in response to γBB. Combinatorial cloning and functional studies identified four genes (gbuA, gbuB, gbuC and gbuE) that are necessary and sufficient to recapitulate the conversion of γBB to TMA when coexpressed in Escherichia coli. Finally, reanalysis of samples (n = 113) from a clinical, randomized diet, intervention study showed that the abundance of faecal gbuA correlates with plasma TMAO and a red meat-rich diet. Our findings reveal a microbial gene cluster that is critical to dietary carnitine → γBB → TMA → TMAO transformation in hosts and contributes to CVD risk.
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