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Histone Demethylase KDM4A Inhibition Represses Neuroinflammation and Improves Functional Recovery in Ischemic Stroke

组蛋白 冲程(发动机) 医学 脱甲基酶 缺血性中风 神经科学 神经炎症 内科学 炎症 化学 生物 缺血 生物化学 物理 基因 热力学
作者
Yanfei Liu,Liang Zhao,Jianzhong Zhang,Liquan Lv,Kaiwei Han,Cheng-Guang Huang,Zheng Xu
出处
期刊:Current Pharmaceutical Design [Bentham Science Publishers]
卷期号:27 (21): 2528-2536 被引量:17
标识
DOI:10.2174/1381612827666210105124529
摘要

Background: Epigenetic regulation concerning histone lysine methylation and demethylation play a crucial role in cerebral ischemic injury. Dysregulation of histone methylation modifiers has been identified in cerebral ischemia. However, the function and the underlying mechanisms of histone demethylase KDM4A on neuroinflammation and functional recovery in ischemic stroke remains unclear. Methods: In the present study, the rat model of transient middle cerebral artery occlusion (MCAO) was established, and the expression level of KDM4A was assessed in brain tissues. KDM4A inhibition was carried out by intrathecal injection with Lv-shKDM4A, and then pro-inflammatory cytokines and neurological functional tests were assessed. Results: We demonstrated that rats subjected to MCAO showed a markedly increased expression of KDM4A, pro-inflammatory cytokines IL-1β and TNF-α, and vascular endothelial growth factor (VEGF), whereas KDM4A inhibition repressed the expression of IL-1β, TNF-α and VEGF both in MCAO and oxygen-glucose deprivation (OGD) models. Furthermore, KDM4A inhibition showed a marked improvement in spatial learning and sensorimotor function, as suggested by mNSS and foot-fault test, respectively. Mechanistically, KDM4A inhibition repressed NF-κB signaling activation in microglia as indicated by decreased expression and nuclear translocation of p65 in vitro and in vivo. The effects of KDM4A overexpression on exacerbating neuroinflammation was inhibited by additional treatment of NF-κB inhibitor (JSH-23). Conclusion:: The current results demonstrated KDM4A inhibition improves functional recovery in ischemic stroke by repressing NF-κB activation and subsequent neuroinflammation.
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