M1 macrophages accelerate renal glomerular endothelial cell senescence through reactive oxygen species accumulation in streptozotocin-induced diabetic mice.

Cellular senescence is a fundamental aging mechanism leading to tissue dysfunction. Accumulation of senescent cells is observed in the context of diabetes, which plays an important role in the pathogenesis of diabetes and its complications. Macrophages, the most prevalent leucocytes found in diabetic kidney, have been implicated in the modulation of cellular senescence; however, their role and mechanism in cellular senescence of diabetic kidney have not been determined. In this study, we found trends of cellular senescence in the glomeruli of streptozotocin-induced diabetic mice. The onset of glomerular senescence was confirmed by increased SA-β-gal staining, the upregulation of p16INK4a, p21, and p53 protein levels and the increased expression of SASP RNA. The senescent cells in the glomeruli were mainly endothelial cells. We next confirmed that M1 macrophages accumulated in the glomeruli, occurred just shortly before glomerular senescence. Therefore, we examined whether M1 macrophage accumulation is associated with glomerular endothelial cell senescence. Thus, an in vitro co-culture model was established using human renal glomerular endothelial cells (HRGECs) and M1-polarized THP-1 macrophages. Indeed, M1 macrophages induced senescence in HRGECs. Furthermore, intracellular ROS levels and p38 MAPK signalling activation were significantly increased in HRGECs and reducing ROS generation significantly abolished M1 macrophage-mediated endothelial senescence and p38 MAPK activation, suggesting that M1 macrophage-mediated endothelial senescence is largely dependent on ROS. Thus, our results demonstrate that kidney M1 macrophage accumulation is in connection with endothelial cell senescence and strategy to modulate M1 macrophages accumulation is promising to be a new target for immunotherapy for diabetic kidney disease and other age-related diseases.