Loss of Free Fatty Acid Receptor 2 leads to impaired islet mass and beta cell survival

The regulation of pancreatic ß cell mass is a critical factor to help maintain normoglycemia during insulin resistance. Nutrient-sensing G protein-coupled receptors (GPCR) contribute to aspects of ß cell function, including regulation of ß cell mass. Nutrients such as free fatty acids (FFAs) contribute to precise regulation of ß cell mass by signaling through cognate GPCRs, and considerable evidence suggests that circulating FFAs promote ß cell expansion by direct and indirect mechanisms. Free Fatty Acid Receptor 2 (FFA2) is a ß cell-expressed GPCR that is activated by short chain fatty acids, particularly acetate. Recent studies of FFA2 suggest that it may act as a regulator of ß cell function. Here, we set out to explore what role FFA2 may play in regulation of ß cell mass. Interestingly, Ffar2(-/-) mice exhibit diminished ß cell mass at birth and throughout adulthood, and increased ß cell death at adolescent time points, suggesting a role for FFA2 in establishment and maintenance of ß cell mass. Additionally, activation of FFA2 with Gaq/11-biased agonists substantially increased ß cell proliferation in in vitro and ex vivo proliferation assays. Collectively, these data suggest that FFA2 may be a novel therapeutic target to stimulate ß cell growth and proliferation. Overall design: Islet from normal chow fed 10-12 weeks global FFA2 KO and WT mice were harvested. Islets from two mice were pool as one sample. Total RNA is extracted and sequenced.