Abstract Background and Aims In age-related chronic kidney disease (CKD), the most frequent histological lesion observed is glomerulosclerosis. The molecular mechanisms involved in this deterioration process are unclear, but cellular senescence might play a role. Method By combining several murine models of physiological and accelerated aging with transgenic animals and in vitro models, we discovered the role of endothelial senescence in the development of glomerular lesions. Results These senescent glomerular endothelial cells secreted several molecules, grouped under the senescence associated secretory phenotype (SASP) including the plasminogen activator inhibitor 1 (PAI-1). Specific deletion of PAI-1 in endothelial cells prevented the development of glomerulosclerosis during physiological and accelerated aging, by decreasing podocyte loss. In addition, we showed that PAI-1 mediates a detrimental endothelial-podocyte crosstalk, as incubation of podocytes by supernatant of senescent glomerular endothelial cells led to their detachment. Consistently, preincubation of the senescent supernatant with tiplaxtinin, a PAI-1 inhibitor, preserved podocytes. More importantly, we demonstrated that these data are relevant to humans. In fact, PAI-1 staining the day of the transplantation was predictive of kidney allograft dysfunction 12 months after transplantation from elderly donors. Conclusion In conclusion, our study uncovers the critical role played by endothelial senescence in the development of glomerulosclerosis during aging and identified PAI-1 as a novel promising biomarker for predicting kidney dysfunction in patients receiving a kidney from elderly donors.