ER stress relief drives ß-cell proliferation

Abstract

AbstractRegenerating endogenous pancreatic ß-cells is a potentially curative yet currently elusive strategy for diabetes therapy. Mimicking the microenvironment of the developing pancreas and leveraging vascular signals that support pancreatic endocrinogenesis may promote ß-cell regeneration. We aimed to investigate whether recovery from experimental hypovascularization of the endocrine pancreas, achieved by modulating the transgenic production of a VEGF-A blocker in ß-cells, could trigger mouse ß-cell proliferation. Serendipitously, we found that transgene overexpression in ß-cells induces endoplasmic reticulum (ER) stress and that subsequent relief from this stress stimulates ß-cell proliferation independent of vessel recovery. TransientGFPoverexpressionin vivoand chemical induction of ER stressin vitroreplicated this ß-cell cycling response. Our findings highlight the potential side effects of ER stress due to transgene overexpression in ß-cells and assert that ER stress relief serves as a potent regenerative stimulus.