SCOPE: A major goal of diabetes therapy is to identify novel drugs that preserve or expand pancreatic beta cell mass. Here, we examined the effect of a phenylpropenoic acid glucoside (PPAG) on the beta cell mass, and via which mechanism this effect is established. METHODS AND RESULTS: Mice were fed a high-fat and fructose-containing diet to induce obesity and hyperglycemia. PPAG treatment protected obese mice from diet-induced hyperglycemia and resulted in a tripling of beta cell mass. The effect of the phytochemical on beta cell mass was neither due to increased proliferation, as determined by Ki67 immunostaining, nor to neogenesis, which was assessed by genetic lineage tracing. TUNEL staining revealed suppressed apoptosis in PPAG-treated obese mice. In vitro, PPAG protected beta cells from palmitate-induced apoptosis. It protected beta cells against ER stress by increasing expression of antiapoptotic B-cell lymphoma 2 (BCL2) protein without affecting proapoptotic signals. CONCLUSIONS: We identified an antidiabetic phytochemical that protects pancreatic beta cells from ER stress and apoptosis induced by high-fat diet/lipotoxicity. At the tissue level, this led to a tripling of beta cell mass. At the molecular level, the protective effect of the phytochemical was mediated by increasing BCL2 expression in beta cells.
SCOPE: A major goal of diabetes therapy is to identify novel drugs that preserve or expand pancreatic beta cell mass. Here, we examined the effect of a phenylpropenoic acid glucoside (PPAG) on the beta cell mass, and via which mechanism this effect is established. METHODS AND RESULTS:Mice were fed a high-fat and fructose-containing diet to induce obesity and hyperglycemia. PPAG treatment protected obesemice from diet-induced hyperglycemia and resulted in a tripling of beta cell mass. The effect of the phytochemical on beta cell mass was neither due to increased proliferation, as determined by Ki67 immunostaining, nor to neogenesis, which was assessed by genetic lineage tracing. TUNEL staining revealed suppressed apoptosis in PPAG-treated obesemice. In vitro, PPAG protected beta cells from palmitate-induced apoptosis. It protected beta cells against ER stress by increasing expression of antiapoptotic B-cell lymphoma 2 (BCL2) protein without affecting proapoptotic signals. CONCLUSIONS: We identified an antidiabetic phytochemical that protects pancreatic beta cells from ER stress and apoptosis induced by high-fat diet/lipotoxicity. At the tissue level, this led to a tripling of beta cell mass. At the molecular level, the protective effect of the phytochemical was mediated by increasing BCL2 expression in beta cells.
Authors: Dhananjay Gupta; Thomas L Jetton; Kyla LaRock; Navjot Monga; Basanthi Satish; James Lausier; Mina Peshavaria; Jack L Leahy Journal: J Biol Chem Date: 2017-05-09 Impact factor: 5.157
Authors: Phiwayinkosi V Dludla; Elizabeth Joubert; Christo J F Muller; Johan Louw; Rabia Johnson Journal: Nutr Metab (Lond) Date: 2017-07-10 Impact factor: 4.169
Authors: Phiwayinkosi V Dludla; Christo J F Muller; Johan Louw; Sithandiwe E Mazibuko-Mbeje; Luca Tiano; Sonia Silvestri; Patrick Orlando; Fabio Marcheggiani; Ilenia Cirilli; Nireshni Chellan; Samira Ghoor; Bongani B Nkambule; M Faadiel Essop; Barbara Huisamen; Rabia Johnson Journal: Nutrients Date: 2020-04-20 Impact factor: 5.717
Authors: Amy L Clark; Zihan Yan; Sophia X Chen; Victoria Shi; Devesha H Kulkarni; Abhinav Diwan; Maria S Remedi Journal: Diabetes Obes Metab Date: 2021-08-02 Impact factor: 6.408