miR-134直接靶向NOS3调控PI3K/Akt通路对心肌缺氧/再氧化损伤的影响

Jian-Min Xiao, Ji-Jia Wang, Li-Li Sun
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引用次数: 11

摘要

目的探讨miR-134在心肌缺血中的作用。方法采用Real-time PCR和western blotting检测miR-134、一氧化氮合酶3 (NOS3)和凋亡相关蛋白的表达。H9c2细胞分别进行乳酸脱氢酶(LDH)检测、细胞计数试剂盒-8 (CCK-8)检测、Hoechst 33342/PI双染和流式细胞术检测。MiR-134 mimic/inhibitor用于调控MiR-134的表达。利用生物信息学分析和荧光素酶报告基因法鉴定miR-134与NOS3之间的相互关系。救援实验显示NOS3的作用。western blot分析PI3K/AKT的参与情况。结果MiR-134在心肌缺血模型中受到高调控,转染MiR-134 mimic/inhibitor可加速/损害细胞凋亡速度,减弱/发挥H/R调节PI3K/AKT信号活性状态诱导的细胞增殖繁荣。LDH活性也因不同处理而发生变化。此外,miR-134可以直接靶向NOS3,同时减弱NOS3的表达。miR-134抑制剂与pcDNA3.1-NOS3共转染,突出了miR-134对心肌H/R损伤的抑制作用。本研究揭示了miR-134/NOS3轴在心肌H/R损伤中的关键作用,为未来提供了一种潜在的治疗技术。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of miR-134 against myocardial hypoxia/reoxygenation injury by directly targeting NOS3 and regulating PI3K/Akt pathway 1
Abstract Purpose To reveal the function of miR-134 in myocardial ischemia. Methods Real-time PCR and western blotting were performed to measure the expression of miR-134, nitric oxide synthase 3 (NOS3) and apoptotic-associated proteins. Lactic dehydrogenase (LDH) assay, cell counting kit-8 (CCK-8), Hoechst 33342/PI double staining and flow cytometry assay were implemented in H9c2 cells, respectively. MiR-134 mimic/inhibitor was used to regulate miR-134 expression. Bioinformatic analysis and luciferase reporter assay were utilized to identify the interrelation between miR-134 and NOS3. Rescue experiments exhibited the role of NOS3. The involvement of PI3K/AKT was assessed by western blot analysis. Results MiR-134 was high regulated in the myocardial ischemia model, and miR-134 mimic/inhibitor transfection accelerated/impaired the speed of cell apoptosis and attenuated/exerted the cell proliferative prosperity induced by H/R regulating active status of PI3K/AKT signaling. LDH activity was also changed due to the different treatments. Moreover, miR-134 could target NOS3 directly and simultaneously attenuated the expression of NOS3. Co-transfection miR-134 inhibitor and pcDNA3.1-NOS3 highlighted the inhibitory effects of miR-134 on myocardial H/R injury. Conclusion This present work puts insights into the crucial effects of the miR-134/NOS3 axis in myocardial H/R injury, delivering a potential therapeutic technology in future.
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