Stress-inducible Mig6 promotes pancreatic beta cell destruction in the pathogenesis of diabetes

Abstract

Pancreatic insulin-secreting beta cell failure is central to the development of diabetes. Therapeutic applications targeted at understanding and manipulating beta cell destruction mechanisms should enhance the preservation of functional beta cell mass and prevent diabetes. To this end, we have demonstrated that diabetogenic assaults (e.g., endoplasmic reticulum stress, glucolipotoxicity, and pro-inflammatory cytokines) attenuate the activation of beta cell pro-survival signaling pathways via a stress-inducible molecule called Mitogen-inducible gene 6 (Mig6). We discovered that the overabundance of Mig6 exacerbates stress-induced beta cell apoptosis and inhibits insulin secretion. Conversely, the deficiency of Mig6 partially protected beta cells from DNA damage-induced cell death. Further, we established that Mig6 haploinsufficient mice retained islet integrity and function and exhibited greater beta cell mass recovery following treatment with multiple low doses of the beta cell toxin streptozotocin. These data suggest that Mig6 may be a therapeutic target for beta cell preservation in diabetes.