Description
OBJECTIVES: Activation of the bile acid (BA) receptors farnesoid X receptor (FXR) or G protein-coupled bile acid receptor (GPBAR1; TGR5) improves metabolic homeostasis. In this study, we aim to determine the impact of pharmacological activation of bile acid receptors by INT-767 on reversal of diet-induced metabolic disorders, and the relative contribution of FXR vs. TGR5 to INT-767's effects on metabolic parameters. METHODS: Wild-type (WT), Tgr5(-/-), Fxr(-/-), Apoe(-/-) and Shp(-/-) mice were used to investigate whether and how BA receptor activation by INT-767, a semisynthetic agonist for both FXR and TGR5, could reverse diet-induced metabolic disorders. RESULTS: INT-767 reversed HFD-induced obesity dependent on activation of both TGR5 and FXR and also reversed the development of atherosclerosis and non-alcoholic fatty liver disease (NAFLD). Mechanistically, INT-767 improved hypercholesterolemia by activation of FXR and induced thermogenic genes via activation of TGR5 and/or FXR. Furthermore, INT-767 inhibited several lipogenic genes and de novo lipogenesis in the liver via activation of FXR. We identified peroxisome proliferation-activated receptor gamma (PPARgamma) and CCAAT/enhancer-binding protein alpha (CEBPalpha) as novel
Subject
Humans; Male; Animals; Mice; *Atherosclerosis; *Farnesoid X receptor; *NAFLD; *Obesity; *TGR5; Diet; Hep G2 Cells; Receptors; Inbred C57BL; High-Fat/adverse effects; Cytoplasmic and Nuclear/*agonists; Bile Acids and Salts/pharmacology/*therapeutic use; Hypercholesterolemia/*drug therapy/etiology/metabolism; Non-alcoholic Fatty Liver Disease/*drug therapy/etiology/metabolism; Obesity/*drug therapy/etiology/metabolism; G-Protein-Coupled/*agonists