Hyodeoxycholic acid alleviates non-alcoholic fatty liver disease through modulating the gut-liver axis

Junliang Kuang; Jieyi Wang; Yitao Li; Mengci Li; Mingliang Zhao; Kun Ge; Dan Zheng; Kenneth Cheung; Boya Liao; Shouli Wang; Tianlu Chen; Yinan Zhang; Congrong Wang; Guang Ji; Peng Chen; Hongwei Zhou; Cen Xie; Aihua Zhao; Weiping Jia; Xiaojiao Zheng; Wei Jia

doi:10.1016/j.cmet.2023.07.011

Hyodeoxycholic acid alleviates non-alcoholic fatty liver disease through modulating the gut-liver axis

Junliang Kuang(Shanghai Jiao Tong University), Jieyi Wang(Shanghai Jiao Tong University), Yitao Li(Hong Kong Baptist University), Mengci Li(Shanghai Jiao Tong University), Mingliang Zhao(Shanghai Jiao Tong University), Kun Ge(Shanghai Jiao Tong University), Dan Zheng(Shanghai Jiao Tong University), Kenneth Cheung(Hong Kong Baptist University), Boya Liao(Hong Kong Baptist University), Shouli Wang(Shanghai Jiao Tong University), Tianlu Chen(Shanghai Jiao Tong University), Yinan Zhang(Shanghai Jiao Tong University), Congrong Wang(Tongji University), Guang Ji(Shanghai University of Traditional Chinese Medicine), Peng Chen(Southern Medical University), Hongwei Zhou(Zhujiang Hospital), Cen Xie(Chinese Academy of Sciences), Aihua Zhao(Shanghai Jiao Tong University), Weiping Jia(Hong Kong Baptist University), Xiaojiao Zheng(Shanghai Jiao Tong University), Wei Jia(Hong Kong Baptist University)

Cell Metabolism

August 16, 2023

10.1016/j.cmet.2023.07.011

Cited by 284Open Access

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Abstract

Non-alcoholic fatty liver disease (NAFLD) is regarded as a pandemic that affects about a quarter of the global population. Recently, host-gut microbiota metabolic interactions have emerged as distinct mechanistic pathways implicated in the development of NAFLD. Here, we report that a group of gut microbiota-modified bile acids (BAs), hyodeoxycholic acid (HDCA) species, are negatively correlated with the presence and severity of NAFLD. HDCA treatment has been shown to alleviate NAFLD in multiple mouse models by inhibiting intestinal farnesoid X receptor (FXR) and upregulating hepatic CYP7B1. Additionally, HDCA significantly increased abundances of probiotic species such as Parabacteroides distasonis, which enhances lipid catabolism through fatty acid-hepatic peroxisome proliferator-activated receptor alpha (PPARα) signaling, which in turn upregulates hepatic FXR. These findings suggest that HDCA has therapeutic potential for treating NAFLD, with a unique mechanism of simultaneously activating hepatic CYP7B1 and PPARα.

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