Bax and Bak jointly control survival and dampen the early unfolded protein response in pancreatic ß-cells under glucolipotoxic stress.

ER stress and apoptosis contribute to the loss of pancreatic ß-cells under pro-diabetic conditions of glucolipotoxicity. Although activation of canonical intrinsic apoptosis is known to require pro-apoptotic Bcl-2 family proteins Bax and Bak, their individual and combined involvement in glucolipotoxic ß-cell death are not known. It has also remained an open question if Bax and Bak in ß-cells have non-apoptotic roles in mitochondrial function and ER stress signaling, as suggested in other cell types. Using mice with individual or combined ß-cell deletion of Bax and Bak, we demonstrated that glucolipotoxic ß-cell death in vitro occurs by both non-apoptotic and apoptotic mechanisms, and the apoptosis could be triggered by either Bax or Bak alone. In contrast, they had non-redundant roles in mediating staurosporine-induced apoptosis. We further established that Bax and Bak do not affect normal glucose-stimulated ß-cell Ca2+ responses, insulin secretion, or in vivo glucose tolerance. Finally, our experiments revealed that combined deletion of Bax and Bak amplified the unfolded protein response in islets during the early stages of chemical- or glucolipotoxicity-induced ER stress. These findings shed new light on roles of the core apoptosis machinery in ß-cell survival and stress signals of importance for the pathobiology of diabetes.