Department of BiostatisticsVirginia Commonwealth University School of MedicineRichmondVirginiaUSA.
Division of Gastroenterology and HepatologyNational University Health SystemSingapore.
Hepatology. 2022 Dec;76(6):1811-1824. doi: 10.1002/hep.32568. Epub 2022 Jun 23.
Bile acids are hepatic metabolites and have many properties considered to be relevant to the pathophysiology of NAFLD. Circulating levels of the intestinal microbiome-modified bile acid deoxycholate are increased in cirrhosis.
To further elucidate the role of bile acids and intestinal microbiota linked to bile acids in progressively severe NAFLD, a multiomic study of feces including 16S rRNA sequencing, microbial transcriptomics and metabolomics was performed in a cohort with varying phenotypes of NAFLD. Several bile acids of microbial origin derived from deoxycholic acid (DCA) (glycodeoxycholate, 7-ketodeoxycholic acid, dehydrocholic acid) increased with disease activity and fibrosis stage. These were linked to increased expression of microbial bile salt hydrolase, bile acid operon (BaiCD) and hydroxysteroid dehydrogenases (hdhA) required for DCA and downstream metabolite synthesis providing a mechanistic basis for altered bile acid profiles with disease progression. Bacteroidetes and several genera of Lachnospiraceae family containing DCA generating genes increased with increasing disease severity, whereas several potentially beneficial microbes sensitive to antibacterial effects of DCA e.g., Ruminococcaceae were decreased. The clinical relevance of these data was confirmed in an independent cohort enrolled in a clinical trial for NASH where at entry DCA and its conjugates were associated with advanced fibrosis. In patients treated with placebo, DCA declined in those with fibrosis regression and increased in those with fibrosis progression. DCA rose further in those with compensated cirrhosis when they experienced decompensation.
These findings demonstrate a role for bile acids and the bile acid dependent microbiome in the development and progression of NAFLD and set the stage to leverage these findings for NASH biomarker development and for therapeutics.
胆汁酸是肝脏代谢物,具有许多被认为与非酒精性脂肪性肝病(NAFLD)病理生理学相关的特性。肝硬化患者肠道微生物群修饰的胆汁酸脱氧胆酸的循环水平升高。
为了进一步阐明与胆汁酸相关的胆汁酸和肠道微生物群在逐渐严重的 NAFLD 中的作用,对包括 16S rRNA 测序、微生物转录组学和代谢组学在内的粪便进行了多组学研究,该研究纳入了具有不同 NAFLD 表型的队列。几种源自脱氧胆酸(DCA)的微生物源性胆汁酸(甘氨脱氧胆酸、7-酮脱氧胆酸、去氢胆酸)随着疾病活动和纤维化阶段的增加而增加。这些与微生物胆盐水解酶、胆汁酸操纵子(BaiCD)和需要 DCA 和下游代谢物合成的羟甾醇脱氢酶(hdhA)的表达增加有关,为疾病进展中胆汁酸谱的改变提供了机制基础。随着疾病严重程度的增加,拟杆菌门和包含 DCA 生成基因的几个lachnospiraceae 家族的几个属增加,而几种对 DCA 抗菌作用敏感的潜在有益微生物,如 ruminococcaceae,则减少。这些数据在一项 NASH 临床试验中纳入的独立队列中得到了证实,在该试验中,DCA 及其缀合物在进入时与晚期纤维化相关。在接受安慰剂治疗的患者中,纤维化消退的患者 DCA 下降,纤维化进展的患者 DCA 上升。当代偿性肝硬化患者出现失代偿时,DCA 进一步升高。
这些发现表明胆汁酸和依赖于胆汁酸的微生物群在 NAFLD 的发生和发展中起作用,并为 NASH 生物标志物的开发和治疗提供了依据。
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