Abstract
Monoacylglycerol O‐acyltransferase 2 (MGAT2) is one of the key enzymes responsible for triglyceride (TG) re‐synthesis in the small intestine. We have previously demonstrated that pharmacological inhibition of MGAT2 has beneficial effects on obesity and metabolic disorders in mice. Here, we further investigate the effects of MGAT2 inhibition on (a) fat‐induced gut peptide release and fat intake in normal mice and (b) metabolic disorders in high‐fat diet (HFD)‐fed ob/ob mice, a model of severe obesity and type 2 diabetes mellitus, using an orally bioavailable MGAT2 inhibitor Compound B (CpdB). CpdB inhibited elevation of plasma TG in mice challenged with an oil‐supplemented liquid meal. Oil challenge stimulated the secretion of two gut anorectic hormones (peptide tyrosine–tyrosine and glucagon‐like peptide‐1) into the bloodstream, and these responses were augmented in mice pretreated with CpdB. In a two‐choice test using an HFD and a low‐fat diet, CpdB selectively inhibited intake of the HFD in normal mice. Administration of CpdB to HFD‐fed ob/ob mice for 5 weeks suppressed food intake and body weight gain and inhibited elevation of glycated hemoglobin. These results indicate that pharmacological MGAT2 inhibition modulates fat‐induced gut peptide release and fat intake in normal mice and improves obesity and diabetes in HFD‐fed ob/ob mice and thus may have potential for development into a treatment of obesity and its related metabolic diseases.
Highlights
Monoacylglycerol O-acyltransferase 2 (MGAT2) is one of the key enzymes responsible for triglyceride (TG) re-synthesis in the small intestine
We report a further investigation of the effects of MGAT2 inhibition on (a) fat-induced gut peptide release and fat intake in normal mice and (b) metabolic disorders in high-fat diet (HFD)-fed ob/ob mice—a model of severe obesity and type 2 diabetes mellitus—using another MGAT2 inhibitor, Compound B (CpdB)
Differences in average EE (Fig. 3E) and Respiratory quotient (RQ) (Fig. 3F) were not observed between CpdB- and vehicle-treated mice at day 36. These results indicated that pharmacological MGAT2 inhibition by CpdB suppressed excessive intake of an HFD and improved obesity and diabetes in this animal model
Summary
Monoacylglycerol O-acyltransferase 2 (MGAT2) is one of the key enzymes responsible for triglyceride (TG) re-synthesis in the small intestine. Enhanced release of anorectic gut peptides, such as glucagon-like peptide-1 (GLP-1), and altered macronutrient preferences shifted away from fat were observed in MGAT2 knockout (KO) mice [12,14] These reports suggest that MGAT2 is a key molecule involved in fat sensing in the gut and support the concept that pharmacological inhibition of MGAT2 could be used as a treatment for obesity and its related metabolic diseases. We report a further investigation of the effects of MGAT2 inhibition on (a) fat-induced gut peptide release and fat intake in normal mice and (b) metabolic disorders in HFD-fed ob/ob mice—a model of severe obesity and type 2 diabetes mellitus—using another MGAT2 inhibitor, Compound B (CpdB). Our data suggest several new beneficial aspects of pharmacological MGAT2 inhibition for improvement of obesity-related metabolic diseases in mice
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