Mild therapeutic hypothermic protection activates the PI3K/AKT signaling pathway to inhibit TRPM7 and suppress ferroptosis induced by myocardial ischemia‑reperfusion injury.

IF 3.4 3区 医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL Molecular medicine reports Pub Date : 2024-12-01 Epub Date: 2024-10-04 DOI:10.3892/mmr.2024.13345
Yaqi Li, Yixuan Chen, Peng Yu, Deju Zhang, Xiaoyi Tang, Zicheng Zhu, Fan Xiao, Wei Deng, Yang Liu, Zhaoying Tan, Jing Zhang, Shuchun Yu
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Abstract

The present study aimed to investigate the role of PI3K‑mediated ferroptosis signaling induced by mild therapeutic hypothermia (MTH), which was defined as a temperature of 34˚C, in protecting against myocardial ischemia-reperfusion (I/R) injury (MIRI). To meet this aim, H9C2 cells underwent hypoxia‑reperfusion (H/R) and/or MTH. The MTT assay was used to assess cell viability, cytotoxicity was measured using a lactate dehydrogenase cytotoxicity assay, and Annexin V‑FITC/PI flow cytometric analysis was used to analyze early and late cell apoptosis. In addition, 84 healthy adult male Sprague‑Dawley rats were randomly divided into seven groups (n=12), and underwent I/R and various treatments. Hemodynamics were monitored, and the levels of myocardial injury marker enzymes and oxidative stress markers in myocardial tissue were measured using ELISA. The expression levels of PI3K, AKT, transient receptor potential cation channel subfamily M member 7 (TRPM7), glutathione peroxidase 4 (GPX4) and acyl‑CoA synthetase long chain family member 4 (ACSL4) in animals and cells were measured using western blot analysis. These experiments revealed that MTH could effectively reduce myocardial infarct size, improve hemodynamic performance following MIRI and suppress myocardial apoptosis, thereby contributing to the recovery from H/R injury. Mechanistically, MTH was revealed to be able to activate the PI3K/AKT signaling pathway in cells, upregulating GPX4, and downregulating the expression levels of TRPM7 and ACSL4. Treatment with 2‑aminoethoxydiphenyl borate (an inhibitor of TRPM7) could further strengthen the myocardial protective effects of MTH, whereas treatment with erastin (promoter of ferroptosis) and wortmannin (inhibitor of PI3K) led to the effective elimination of the myocardial protective effects of MTH. Compared with in the I/R group, the PI3K/AKT activation level and the expression levels of GPX4 were both significantly increased, whereas the expression levels of TRPM7 and ACSL4 were significantly decreased in the I/R + MTH group. Taken together, the results of the present study indicated that MTH may activate the PI3K/AKT signaling pathway to inhibit TRPM7 and suppress ferroptosis induced by MIRI.

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轻度治疗性低温保护可激活PI3K/AKT信号通路,从而抑制TRPM7,抑制心肌缺血再灌注损伤诱导的铁变态反应。
本研究旨在探讨轻度治疗性低温(MTH)诱导的 PI3K 介导的铁氧化信号在保护心肌免受缺血再灌注(I/R)损伤(MIRI)中的作用。为了达到这一目的,H9C2 细胞接受了缺氧再灌注(H/R)和/或 MTH。MTT试验用于评估细胞活力,乳酸脱氢酶细胞毒性试验用于测量细胞毒性,Annexin V-FITC/PI流式细胞分析用于分析早期和晚期细胞凋亡。此外,84 只健康的成年雄性 Sprague-Dawley 大鼠被随机分为 7 组(n=12),接受 I/R 和各种治疗。监测血流动力学,并用酶联免疫吸附法测定心肌组织中心肌损伤标志酶和氧化应激标志物的水平。采用 Western 印迹分析法检测了动物和细胞中 PI3K、AKT、瞬态受体电位阳离子通道 M 亚家族成员 7(TRPM7)、谷胱甘肽过氧化物酶 4(GPX4)和酰基-CoA 合成酶长链家族成员 4(ACSL4)的表达水平。这些实验表明,MTH 能有效缩小心肌梗死面积,改善 MIRI 后的血流动力学表现,抑制心肌细胞凋亡,从而促进 H/R 损伤的恢复。从机理上讲,MTH能激活细胞中的PI3K/AKT信号通路,上调GPX4,下调TRPM7和ACSL4的表达水平。用2-氨基乙氧基二苯基硼酸酯(TRPM7的抑制剂)处理可进一步加强MTH的心肌保护作用,而用麦拉宁(铁变态反应的促进剂)和沃特曼宁(PI3K的抑制剂)处理可有效消除MTH的心肌保护作用。与I/R组相比,I/R + MTH组的PI3K/AKT活化水平和GPX4的表达水平均显著升高,而TRPM7和ACSL4的表达水平则显著降低。综上所述,本研究结果表明,MTH可激活PI3K/AKT信号通路,抑制TRPM7,抑制MIRI诱导的铁变态反应。
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来源期刊
Molecular medicine reports
Molecular medicine reports 医学-病理学
CiteScore
7.60
自引率
0.00%
发文量
321
审稿时长
1.5 months
期刊介绍: Molecular Medicine Reports is a monthly, peer-reviewed journal available in print and online, that includes studies devoted to molecular medicine, underscoring aspects including pharmacology, pathology, genetics, neurosciences, infectious diseases, molecular cardiology and molecular surgery. In vitro and in vivo studies of experimental model systems pertaining to the mechanisms of a variety of diseases offer researchers the necessary tools and knowledge with which to aid the diagnosis and treatment of human diseases.
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