A Clostridia-rich microbiota enhances bile acid excretion in diarrhea-predominant irritable bowel syndrome
Ling Zhao, Wei Yang, Yang Chen, Fengjie Huang, Lin Lu, Chengyuan Lin, Tao Huang, Ziwan Ning, Lixiang Zhai, Linda L.D. Zhong, Waiching Lam, Zhen Yang, Xuan Zhang, Chungwah Cheng, Lijuan Han, Qinwei Qiu, Xiaoxiao Shang, Runyue Huang, Haitao Xiao, Zhenxing Ren, Dongfeng Chen, Silong Sun, Hani El-Nezami, Zongwei Cai, Aiping Lu, Xiaodong Fang, Wei Jia, Zhaoxiang Bian
Ling Zhao, Wei Yang, Yang Chen, Fengjie Huang, Lin Lu, Chengyuan Lin, Tao Huang, Ziwan Ning, Lixiang Zhai, Linda L.D. Zhong, Waiching Lam, Zhen Yang, Xuan Zhang, Chungwah Cheng, Lijuan Han, Qinwei Qiu, Xiaoxiao Shang, Runyue Huang, Haitao Xiao, Zhenxing Ren, Dongfeng Chen, Silong Sun, Hani El-Nezami, Zongwei Cai, Aiping Lu, Xiaodong Fang, Wei Jia, Zhaoxiang Bian
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Research Article Gastroenterology Microbiology

A Clostridia-rich microbiota enhances bile acid excretion in diarrhea-predominant irritable bowel syndrome

Abstract

An excess of fecal bile acids (BAs) is thought to be one of the mechanisms for diarrhea-predominant irritable bowel syndrome (IBS-D). However, the factors causing excessive BA excretion remain incompletely studied. Given the importance of gut microbiota in BA metabolism, we hypothesized that gut dysbiosis might contribute to excessive BA excretion in IBS-D. By performing BA-related metabolic and metagenomic analyses in 290 IBS-D patients and 89 healthy volunteers, we found that 24.5% of IBS-D patients exhibited excessive excretion of total BAs and alteration of BA-transforming bacteria in feces. Notably, the increase in Clostridia bacteria (e.g., C. scindens) was positively associated with the levels of fecal BAs and serum 7α-hydroxy-4-cholesten-3-one (C4), but negatively correlated with serum fibroblast growth factor 19 (FGF19) concentration. Furthermore, colonization with Clostridia-rich IBS-D fecal microbiota or C. scindens individually enhanced serum C4 and hepatic conjugated BAs but reduced ileal FGF19 expression in mice. Inhibition of Clostridium species with vancomycin yielded opposite results. Clostridia-derived BAs suppressed the intestinal FGF19 expression in vitro and in vivo. In conclusion, this study demonstrates that the Clostridia-rich microbiota contributes to excessive BA excretion in IBS-D patients, which provides a mechanistic hypothesis with testable clinical implications.

Authors

Ling Zhao, Wei Yang, Yang Chen, Fengjie Huang, Lin Lu, Chengyuan Lin, Tao Huang, Ziwan Ning, Lixiang Zhai, Linda L.D. Zhong, Waiching Lam, Zhen Yang, Xuan Zhang, Chungwah Cheng, Lijuan Han, Qinwei Qiu, Xiaoxiao Shang, Runyue Huang, Haitao Xiao, Zhenxing Ren, Dongfeng Chen, Silong Sun, Hani El-Nezami, Zongwei Cai, Aiping Lu, Xiaodong Fang, Wei Jia, Zhaoxiang Bian

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Figure 4

Dysregulation of BA synthesis and excretion in mice with manipulation of Clostridium species.

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Dysregulation of BA synthesis and excretion in mice with manipulation of...
(A) Manipulation of Clostridium species in conventional mice (n = 5–6/group) through introduction of C. scindens strain (C. s) or administration of vancomycin (0.1 mg/mL). (B) The GI transit time and fecal water contents of Clostridium-treated mice. (C) Relative levels of the fecal Clostridial bacteria (C. XIVa) and C. scindens measured by qPCR analysis. (D and E) The levels of total fecal BAs and serum C4. (F) The BA profile in the mouse liver. (G) Relative gene expression of BA synthetic regulators in the hepatic and ileal tissues. Differential BA-related phenotypes, bacteria, and genes are shown as mean ± SEM. BA metabolites are expressed with 5th–95th percentile values. Statistical significance was determined with the Kruskal-Wallis test. *P < 0.05, **P < 0.01 compared with the control group; #P < 0.05, ##P < 0.01 compared with the C. scindens group. CTR, control.