Ozone protects cardiomyocytes from myocardial ischemia-reperfusion injury through miR-200c/FOXO3 axis.

IF 2.6 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Receptors and Signal Transduction Pub Date : 2022-12-01 DOI:10.1080/10799893.2022.2060259

Lian Zhang, Xingping Men, Shenglong Yu, Huizhuang Guo, Yi Luo, Hanwei Chen, Shaohua Mi

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引用次数: 2

Abstract

Purpose: Myocardial ischemia-reperfusion injury (I/R) is a detrimental process contributing to the pathological progression of coronary artery diseases. Studies indicate that miRNAs are implicated in ischemic heart disease, and ozone therapy could protect the heart from ischemic heart disease. In this study, we investigated the effect of ozone on miR-200c expression and the potential role of miR-200c in an I/R myocardial injury model.

Methods: A myocardial cellular model of I/R was established to detect the expression of miR-200c. Cardiomyocytes with I/R induction were treated with ozone as a cellular model to detect miR-200 expression and investigate its functional roles. The downstream target of miR-200c was predicted with Starbase online tools and validated by dual luciferase reporter assay. The function of miR-200c/FOXO3 axis in I/R was examined by CCK-8 proliferation and apoptotic assays.

Results: miR-200c was upregulated in primary cardiomyocytes of the I/R model. In cardiomyocyte cells, cell proliferation in the I/R group was significantly impaired, which could be partially rescued by miR-200c inhibitor or ozone treatment. Cell death detected by LDH release and apoptosis assay in the I/R model could also be inhibited by miR-200c inhibitor or ozone treatment. FOXO3 was identified as a downstream target of miR-200c, which was induced by ozone treatment and suppressed by miR-200c. Silencing FOXO3 abrogated the protective effect of ozone treatment on the I/R cell model.

Conclusion: Overall, our results suggest that ozone plays a cardio-protective role in I/R through regulating miR-200/FOXO3 axis, and indicate that targeting miR-200/FOXO3 axis could potentially alleviate I/R.

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臭氧通过miR-200c/FOXO3轴保护心肌细胞免受心肌缺血再灌注损伤。

目的:心肌缺血再灌注损伤(I/R)是导致冠状动脉疾病病理进展的一个有害过程。研究表明，mirna与缺血性心脏病有关，臭氧治疗可以保护心脏免受缺血性心脏病的侵害。在这项研究中，我们研究了臭氧对miR-200c表达的影响以及miR-200c在I/R心肌损伤模型中的潜在作用。方法:建立I/R心肌细胞模型，检测miR-200c的表达。用臭氧处理I/R诱导的心肌细胞作为细胞模型，检测miR-200的表达并研究其功能作用。使用Starbase在线工具预测miR-200c的下游靶标，并通过双荧光素酶报告基因试验进行验证。通过CCK-8增殖和凋亡实验检测miR-200c/FOXO3轴在I/R中的功能。结果:miR-200c在I/R模型原代心肌细胞中表达上调。在心肌细胞中，I/R组细胞增殖明显受损，可通过miR-200c抑制剂或臭氧处理部分恢复。在I/R模型中，通过LDH释放和凋亡实验检测到的细胞死亡也可以通过miR-200c抑制剂或臭氧处理来抑制。FOXO3被确定为miR-200c的下游靶点，通过臭氧处理诱导并被miR-200c抑制。沉默FOXO3消除了臭氧处理对I/R细胞模型的保护作用。结论:总体而言，我们的研究结果表明臭氧通过调节miR-200/FOXO3轴在I/R中发挥心脏保护作用，并且表明靶向miR-200/FOXO3轴可能会减轻I/R。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Receptors and Signal Transduction 生物-生化与分子生物学

CiteScore

6.60

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Journal of Receptors and Signal Tranduction is included in the following abstracting and indexing services: BIOBASE; Biochemistry and Biophysics Citation Index; Biological Abstracts; BIOSIS Full Coverage Shared; BIOSIS Previews; Biotechnology Abstracts; Current Contents/Life Sciences; Derwent Chimera; Derwent Drug File; EMBASE; EMBIOLOGY; Journal Citation Reports/ Science Edition; PubMed/MedLine; Science Citation Index; SciSearch; SCOPUS; SIIC.