电针通过lncRNA H19的m6A甲基化调控S1PR2/TLR4/NLRP3信号通路缓解脑缺血再灌注损伤

Han-Rui Zhang, Gu-Quan Ma, He-Qun Lv, Yao-Ting Feng, Yong-Jun Peng
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引用次数: 0

摘要

电针(EA)治疗对脑缺血再灌注损伤(CIR)具有保护作用。然而,其潜在的分子机制仍未完全阐明:所有大鼠随机分为五组:SHAM组、MCAO组、MCAO+EA(MEA)组、MCAO+METTL3过表达+EA(METTL3)组和MCAO+lncRNA H19过表达+EA(lncRNA H19)组。建立大脑中动脉闭塞(MCAO)大鼠以模拟CIR损伤。通过向大鼠侧脑室立体定向注射慢病毒诱导lncRNA H19和METTL3的过表达。MEA组、METTL3组和lncRNA H19组大鼠在 "人中"(DU26)和 "百会"(DU20)穴位(3.85/6.25Hz;1mA)上接受EA治疗。此外,本实验还检测了神经功能缺损评分、脑梗死面积、脑组织病理变化、总RNA m6A水平以及METTL3、S1PR2、TLR4、NLRP3和lncRNA H19的表达:结果:EA改善了MCAO大鼠的神经功能缺损评分、脑梗死面积和病理损伤,而过表达METTL3或lncRNA H19则减弱了EA对CIR损伤的有益影响。更重要的是,EA 下调了 MCAO 大鼠的总 RNA m6A 水平以及 METTL3、S1PR2、TLR4、NLRP3 和 lncRNA H19 的表达。相反,过表达 METTL3 或 lncRNA H19 可逆转 EA 诱导的下调:研究结果表明,EA可能通过lncRNA H19的m6A甲基化下调S1PR2/TLR4/NLRP3信号通路,从而缓解CIR损伤。我们的研究结果为EA对CIR损伤的分子机制提供了新的见解。
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Electroacupuncture Alleviates Cerebral Ischemia-reperfusion Injury by Regulating the S1PR2/TLR4/NLRP3 Signaling Pathway via m6A Methylation of lncRNA H19.

Electroacupuncture (EA) treatment plays a protective role in cerebral ischemiareperfusion (CIR) injury. However, the underlying molecular mechanism is still not fully elucidated.

Methods: All rats were randomly divided into five groups: the SHAM group, MCAO group, MCAO+EA (MEA) group, MCAO+METTL3 overexpression+EA (METTL3) group and MCAO+lncRNA H19 overexpression+EA (lncRNA H19) group. The middle cerebral artery occlusion (MCAO) rats were established to mimic CIR injury. The overexpression of lncRNA H19 and METTL3 was induced by stereotactic injection of lentiviruses into the rat lateral ventricles. The rats in the MEA, METTL3, and lncRNA H19 groups were treated with EA therapy on "Renzhong" (DU26) and "Baihui" (DU20) acupoints (3.85/6.25Hz; 1mA). Besides, the neurological deficit scoring, cerebral infarction area, pathological changes in brain tissue, total RNA m6A level, and the expression of METTL3, S1PR2, TLR4, NLRP3 and lncRNA H19 were detected in this experiment.

Results: EA improved the neurological deficit scoring, cerebral infarction area, and pathological injury in MCAO rats, while these beneficial effects of EA on CIR injury were attenuated by the overexpression of METTL3 or lncRNA H19. More importantly, EA down-regulated the total RNA m6A level and the expression of METTL3, S1PR2, TLR4, NLRP3 and lncRNA H19 in MCAO rats. Instead, the overexpression of METTL3 or lncRNA H19 was found to reverse the EA-induced down-regulation.

Conclusion: The findings indicated that EA might down-regulate the S1PR2/TLR4/NLRP3 signaling pathway via m6A methylation of lncRNA H19 to alleviate CIR injury. Our findings provide a new insight into the molecular mechanism of EA on CIR injury.

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