Sestrin2 (SESN2) is a stress-inducible protein known for its cytoprotective functions, but its role in diabetic vascular complications remains unclear. This study investigated the impact of SESN2 on methylglyoxal (MGO)-induced endothelial-mesenchymal transition (EndMT). Human endothelial cells were transfected with SESN2 siRNA duplexes to silence SESN2 expression, followed by MGO treatment. SESN2 knockdown significantly exacerbated MGO-induced oxidative stress, as evidenced by the reduced expression of antioxidant markers. Furthermore, SESN2 silencing enhanced the inflammatory response to MGO, demonstrated by the increased levels of pro-inflammatory cytokines. Notably, SESN2 deficiency promoted EndMT, a key process in diabetes-induced cardiovascular complications, as shown by the increased expression of mesenchymal markers and the decreased expression of endothelial markers. These findings suggest that SESN2 plays a critical protective role in endothelial cells against MGO-induced damage. The study provides novel insights into the molecular mechanisms underlying diabetic cardiovascular complications and identifies SESN2 as a potential therapeutic target for preventing endothelial dysfunction in diabetes. Our results indicate that SESN2 downregulation may contribute to the pathogenesis of diabetic vascular complications by promoting EndMT, increased oxidative stress, and inflammation.
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