化学
热休克蛋白
细胞生物学
热应力
细胞凋亡
热冲击
压力(语言学)
休克(循环)
生物物理学
信号转导
热休克蛋白70
机制(生物学)
战斗或逃跑反应
生物化学
氧化应激
作者
Jirui Wen,Yuhao Zou,Can Li,Ling Wang,Zhengdong Lin,Juan Cheng,Tianshan Zhang,Zhizhen Hao,Shixi Liu,Xuehong Wan,Rong Yao,Jifeng Liu,Jiang Wu
出处
期刊:Cell Reports
[Cell Press]
日期:2026-04-27
卷期号:45 (5): 117317-117317
标识
DOI:10.1016/j.celrep.2026.117317
摘要
Lysine lactylation (Kla) is a metabolite-sensing post-translational modification that bridges cellular metabolism to protein function. Here, we discover that heat stress triggers anaerobic glycolysis and lactate accumulation in brain microvascular endothelial cells. We find that plasma lactate inversely correlates with Glasgow Coma Scale scores in heat stroke patients and predicts poor outcomes. Mechanistically, AARS1 catalyzes the transfer of lactate to HSP90β at lysine 275 (K275). Critically, the lactylation of HSP90β disrupts its interaction with apoptotic protease-activating factor 1 (APAF-1). This modification compromises the protective function of HSP90β, liberating APAF-1 to activate the mitochondrial apoptosis pathway, resulting in blood-brain barrier (BBB) injury. Functional validation reveals that decreasing lactate production or inhibiting AARS1 confers protection. These findings establish HSP90β K275 lactylation as a metabolic switch that modulates protective mechanisms during heat stress-induced cerebrovascular injury. Collectively, our study provides insights into heat stress pathogenesis and identifies potential therapeutic targets for heat-related brain damage.
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