TRPM7 Deficiency Accelerates Vascular Senescence by Inhibiting H3K18 Lactylation.
Yue Wang, Jing Chen, Xuan Wang, Jin Li, Shujun Yang, Lingping Zhu, Zhenyu Li, Chuanchang Li, Wanzhou Wu, Yongping Bai
Abstract
Open AccessBlood vessels exhibit a pronounced vulnerability to aging and are often at the forefront of systemic aging processes. Vascular endothelial cells, which line blood vessels and directly contact blood flow, are susceptible to damage and play a key role in vascular aging; however, the underlying mechanisms of their aging remain unclear. Here, we identify TRPM7 as a key molecule in vascular endothelial aging. Endothelial deletion of TRPM7 significantly accelerates premature vascular aging in mice. Mechanistically, TRPM7 deficiency reduces lactate production and inhibits the lactylation writer protein p300, leading to decreased histone H3K18 lactylation. This induces a gene expression profile reprogramming, increasing the expression of the senescence gene p21 and decreasing the expression of angiogenesis genes. Inhibiting p21 or supplementing lactate reversed premature vascular endothelial aging caused by TRPM7 deficiency. This study reveals the critical role of the TRPM7-H3K18la axis in vascular aging, offering potential therapeutic targets for vascular anti-aging interventions.