JTP-103237, a monoacylglycerol acyltransferase inhibitor, prevents fatty liver and suppresses both triglyceride synthesis and de novo lipogenesis.

AIM: Monoacyglycerol acyltransferases (MGATs) are known to play important roles in intestinal TG absorption. In contrast, the role of MGATs in the liver is still unclear. We investigated the effects of JTP-103237, a novel MGAT inhibitor, on hepatic MGAT activity and hepatic lipid metabolism. RESULTS: JTP-103237 reduced hepatic triglyceride content and hepatic MGAT activity in a high sucrose very low fat (HSVLF) diet induced fatty liver model. Interestingly, JTP-103237 suppressed not only triglyceride (TG) and diacylglycerol (DG) synthesis, but also fatty acid (FA) synthesis (de novo lipogenesis) in this model. JTP-103237 also suppressed lipogenesis-related gene expression, such as sterol regulatory element-binding protein 1-c. Moreover, JTP-103237 decreased plasma glucose levels and total cholesterol and reduced the accumulation of epididymal fats in HSVLF diet fed mice. CONCLUSION: In the present study, JTP-103237 prevented carbohydrate-induced fatty liver and suppressed both TG synthesis and de novo lipogenesis, suggesting MGAT inhibitor may prevent carbohydrate-induced metabolic disorders, including NAFLD, obesity and diabetes.

JTP-103237, a novel monoacylglycerol acyltransferase inhibitor, modulates fat absorption and prevents diet-induced obesity.

Monoacylglycerol acyltransferase 2 (MGAT2) plays an important role in intestinal fat absorption. We discovered the novel MGAT2 inhibitor, JTP-103237, and evaluated its pharmacological profile. JTP-103237 selectively inhibited MGAT2 without remarkable species differences and reduced absorbed lipids in circulation. After lipid administration, JTP-103237 slightly but significantly decreased triglyceride content in proximal small intestine and significantly increased the lipids content in the distal small intestine. In addition, JTP-103237 significantly increased MGAT substrate (monoacylglycerol and fatty acid) content in the small intestine. JTP-103237 increased plasma peptide YY levels after lipid loading and reduced food intake in a dietary fat-dependent manner. After chronic treatment, JTP-103237 significantly decreased body weight and increased O2 consumption in the early dark phase in high fat diet induced obese (DIO) mice. Moreover, JTP-103237 improved glucose tolerance and decreased fat weight and hepatic triglyceride content in DIO mice. Our findings indicate that JTP-103237 prevents diet-induced obesity by inhibiting intestinal MGAT2 and has unique properties as a drug for the treatment of obesity.