Xuying Tan1, Yan Liu2, Jingan Long1, Si Chen1, Gongcheng Liao1, Shangling Wu1, Chunlei Li1, Lijun Wang3, Wenhua Ling1, Huilian Zhu1. 1. Guangdong Provincial Key Laboratory of Food, Nutrition and Health, School of Public Health, Sun Yat-sen University, Guangzhou, 510080, P. R. China. 2. Department of Clinical Nutrition, Shenzhen Hospital, Southern Medical University, Shenzhen, 518100, Guangdong Province, China. 3. Department of Nutrition, School of Medicine, Jinan University, Guangzhou, 510632, Guangdong Province, China.
Abstract
SCOPE: Trimethylamine N-oxide (TMAO), the metabolite of choline generated by gut microbiota, is associated with nonalcoholic fatty liver disease (NAFLD) and could influence bile acid (BA) metabolism. However, whether TMAO aggravates liver steatosis by modulating BA metabolism and the related mechanisms has not been investigated. METHODS AND RESULTS: A case-control study including biopsy-proven NAFLD patients (n = 34) and controls (n = 14) is conducted to determine the correlation between TMAO and BA metabolism. Serum levels of total BA and the percentage of farnesoid X receptor (FXR)-antagonistic BA species are markedly higher in NAFLD patients than in the controls. Serum levels of TMAO positively correlated with the serum levels of total BA and hepatic mRNA expression of cholesterol 7 alpha hydroxylase (CYP7A1). In a murine model, it is found that 18 weeks administration of TMAO impairs liver function and increases hepatic triglyceride accumulation and lipogenesis in mice fed with a high-fat diet. TMAO increases BA synthesis and shifted hepatic BA composition toward FXR-antagonistic activity. Knockdown of CYP7A1 via small interfering RNA or activation of FXR by GW4064 blocks the effect of TMAO-induced lipogenesis in palmitic acid-treated HepG2 cells. CONCLUSION: TMAO aggravates liver steatosis by suppressing BA-mediated hepatic FXR signaling.
SCOPE: Trimethylamine N-oxide (TMAO), the metabolite of choline generated by gut microbiota, is associated with nonalcoholic fatty liver disease (NAFLD) and could influence bile acid (BA) metabolism. However, whether TMAO aggravates liver steatosis by modulating BA metabolism and the related mechanisms has not been investigated. METHODS AND RESULTS: A case-control study including biopsy-proven NAFLD patients (n = 34) and controls (n = 14) is conducted to determine the correlation between TMAO and BA metabolism. Serum levels of total BA and the percentage of farnesoid X receptor (FXR)-antagonistic BA species are markedly higher in NAFLD patients than in the controls. Serum levels of TMAO positively correlated with the serum levels of total BA and hepatic mRNA expression of cholesterol 7 alpha hydroxylase (CYP7A1). In a murine model, it is found that 18 weeks administration of TMAO impairs liver function and increases hepatic triglyceride accumulation and lipogenesis in mice fed with a high-fat diet. TMAO increases BA synthesis and shifted hepatic BA composition toward FXR-antagonistic activity. Knockdown of CYP7A1 via small interfering RNA or activation of FXR by GW4064 blocks the effect of TMAO-induced lipogenesis in palmitic acid-treated HepG2 cells. CONCLUSION:TMAO aggravates liver steatosis by suppressing BA-mediated hepatic FXR signaling.
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Authors: P León-Mimila; H Villamil-Ramírez; X S Li; D M Shih; S T Hui; E Ocampo-Medina; B López-Contreras; S Morán-Ramos; M Olivares-Arevalo; P Grandini-Rosales; L Macías-Kauffer; I González-González; R Hernández-Pando; F Gómez-Pérez; F Campos-Pérez; C Aguilar-Salinas; E Larrieta-Carrasco; T Villarreal-Molina; Z Wang; A J Lusis; S L Hazen; A Huertas-Vazquez; S Canizales-Quinteros Journal: Diabetes Metab Date: 2020-08-10 Impact factor: 6.041