Cheng Wei-Ting, Pei Si-Ya, Wu Jie, Wang Yan-Jie, Yang Yong-Wen, Xiao Mei-Fang, Chen Jun, Wang Yuan-Yuan, Wu Li, Huang Ze-Bing
Department of Infectious Diseases, Xiangya Hospital, Central South University, Changsha, 410008, China.
Hunan Key Laboratory of Viral Hepatitis, Xiangya Hospital, Central South University, Changsha, 410008, China.
Acta Pharmacol Sin. 2025 Jun;46(6):1676-1691. doi: 10.1038/s41401-025-01495-w. Epub 2025 Feb 20.
Non-alcoholic fatty liver disease (NAFLD) is the hepatic manifestation of the metabolic syndrome. NAFLD encompasses a spectrum of liver damage starting with liver steatosis and lipid disorders presented as the hallmark. Cannabinoid-2 receptor (CB2R) is the receptor of endocannabinoids mainly expressed in immune cells. Our preliminary study revealed the preventative role of CB2R in liver injury related to lipid metabolism. In this study, we aimed to explore the role of CB2R in NAFLD and the underlying mechanism related to microbial community. High-fat diet-induced NAFLD model was established in mice. We found that hepatic CB2R expression was significantly reduced in NAFLD mice and CB2R mice fed with normal chow. Interestingly, cohousing with or transplanted with microbiota from WT mice, or treatment with an antibiotic cocktail ameliorated the NAFLD phenotype of CB2R mice. The gut dysbiosis in CB2R mice including increased Actinobacteriota and decreased Bacteroidota was similar to that of NAFLD patients and NAFLD mice. Microbial functional analysis and metabolomics profiling revealed obviously disturbed tryptophan metabolism in NAFLD patients and NAFLD mice, which were also seen in CB2R mice. Correlation network showed that the disordered tryptophan metabolites such as indolelactic acid (ILA) and xanthurenic acid in CB2R mice were mediated by gut dysbiosis and related to NAFLD severity indicators. In vitro and in vivo validation experiments showed that the enriched tryptophan metabolites ILA aggravated NAFLD phenotypes. These results demonstrate the involvement of CB2R in NAFLD, which is related to gut microbiota-mediated tryptophan metabolites. Our findings highlight CB2R and the associated microbes and tryptophan metabolites as promising targets for the treatment of NAFLD.
非酒精性脂肪性肝病(NAFLD)是代谢综合征的肝脏表现。NAFLD包括一系列肝脏损伤,始于肝脂肪变性和以脂质紊乱为特征。大麻素2型受体(CB2R)是内源性大麻素的受体,主要在免疫细胞中表达。我们的初步研究揭示了CB2R在与脂质代谢相关的肝损伤中的预防作用。在本研究中,我们旨在探讨CB2R在NAFLD中的作用以及与微生物群落相关的潜在机制。在小鼠中建立了高脂饮食诱导的NAFLD模型。我们发现,NAFLD小鼠和喂食正常食物的CB2R小鼠肝脏中CB2R的表达显著降低。有趣的是,与野生型小鼠的微生物群同居或移植,或用抗生素混合物治疗可改善CB2R小鼠的NAFLD表型。CB2R小鼠的肠道菌群失调,包括放线菌门增加和拟杆菌门减少,与NAFLD患者和NAFLD小鼠相似。微生物功能分析和代谢组学分析显示,NAFLD患者和NAFLD小鼠的色氨酸代谢明显紊乱,CB2R小鼠也有此现象。相关网络显示,CB2R小鼠中色氨酸代谢产物如吲哚乳酸(ILA)和黄尿酸的紊乱是由肠道菌群失调介导的,且与NAFLD严重程度指标相关。体外和体内验证实验表明,富集的色氨酸代谢产物ILA加重了NAFLD表型。这些结果表明CB2R参与了NAFLD,这与肠道微生物群介导的色氨酸代谢产物有关。我们的研究结果突出了CB2R以及相关微生物和色氨酸代谢产物作为NAFLD治疗的有前景的靶点。
