Cdk5 Contributes to Diabetic Islet β Cell and Kidney Injury by Impairing Autophagy.
Yuejia Tao, Li Wang, Yipeng Liu, Yong Wei, Ruixue Wang, Sha Sha, Shanshan Zheng, Shijie Hou, Shunyao Liu
Abstract
Open AccessInsufficient insulin secretion due to islet β cell damage is a hallmark of diabetes mellitus. Diabetic nephropathy (DN) is a common microvascular complication of diabetes, and podocyte damage is the main cause of proteinuria in patients with DN. Over-activation of cyclin-dependent kinase 5 (Cdk5) is involved in the development of diabetes and its complications; however, the specific mechanism remains to be elucidated. The aim of this study was to investigate the role of Cdk5 in diabetic islet β cells and renal injury. Our results showed that Cdk5 expression was upregulated in diabetic mice, which induced attenuated autophagy and increased apoptosis of islet β cells, as well as decreased insulin secretion. Similarly, Cdk5 activation impaired autophagy and apoptosis of podocytes. Decreasing the expression of Cdk5 in diabetes and DN partially restored the autophagy of islet β cells and podocytes and reduced the damage to islet β cells and podocytes. In conclusion, Cdk5 is involved in islet β cell and podocyte damage in a high glucose environment; thus, targeting Cdk5 may be a significant therapeutic option for diabetes and its complications.