MiR-24-3p modulates cardiac function in doxorubicin -induced heart failure via the Sp1/PI3K signaling pathway

IF 4.4 2区 生物学 Q2 CELL BIOLOGY
Yonghong Zheng , Guojian Xiang , Linwen Zeng , Chao Yang , Jun Ke , Huizhen Yu , Jiancheng Zhang
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引用次数: 0

Abstract

Purpose

The goal of this research was to explore the role of miR-24-3p in heart failure (HF), with a focus on its impact on the specificity protein 1 (Sp1)/phosphoinositide 3-kinase (PI3K) pathway.

Methods

HF rat and HF cell models were established using doxorubicin(Dox). Cardiac function was assessed through echocardiography, while histological changes were observed via hematoxylin-eosin (HE) staining. To further investigate the underlying mechanisms, HF cell models were treated with either an Sp1 inhibitor or a PI3K inhibitor. Additionally, models with miR-24-3p overexpression or silencing were constructed. N-terminal pro-brain natriuretic peptide (NT-proBNP) levels were determined by ELISA. Cell apoptosis was evaluated using TUNEL staining, and lactate dehydrogenase (LDH) levels were measured by colorimetry. Reactive oxygen species (ROS) production was analyzed using flow cytometry. Related gene and protein expressions were assessed via qRT-PCR and Western blotting. Finally, the relationship between miR-24-3p and Sp1 was confirmed through dual-luciferase assays.

Results

Dox treatment increased the left ventricular internal diameter (LVIDd) while decreasing ejection fraction (EF) and fractional shortening (FS), leading to disorganized cardiomyocyte arrangement, cellular edema, and necrosis in rats. In HF rats, NT-proBNP, Caspase-3, and miR-24-3p expression levels were elevated, whereas Sp1 and PI3K mRNA and protein expression levels were decreased. Similarly, Dox-induced damage in H9c2 cardiomyocytes resulted in increased NT-proBNP, apoptosis, Caspase-3, LDH, ROS, and miR-24-3p expression, along with decreased Sp1 and PI3K expression. Treatment with either Sp1 or PI3K inhibitors exacerbated the Dox-induced cardiomyocyte damage, further elevating NT-proBNP, apoptosis, Caspase-3, LDH, ROS, and miR-24-3p expression levels. Notably, Sp1 inhibition reduced PI3K expression, and PI3K inhibition, in turn, suppressed Sp1 expression. Overexpression of miR-24-3p worsened Dox-induced cardiomyocyte damage, characterized by increased NT-proBNP, apoptosis, Caspase-3, LDH, and ROS expression, alongside reduced Sp1 and PI3K expression. In contrast, silencing miR-24-3p mitigated these detrimental effects and increased Sp1 and PI3K expression. Dual-luciferase assays confirmed that miR-24-3p directly targets Sp1.

Conclusion

Dox induces cardiomyocyte damage, impairs cardiac function, and promotes cardiomyocyte apoptosis and oxidative stress. Silencing miR-24-3p offers a protective effect by activating the Sp1/PI3K signaling pathway in heart failure.

MiR-24-3p 通过 Sp1/PI3K 信号通路调节多柔比星诱发的心力衰竭的心脏功能
目的:本研究旨在探索 miR-24-3p 在心力衰竭(HF)中的作用,重点研究其对特异性蛋白 1(Sp1)/磷脂肌醇 3- 激酶(PI3K)通路的影响。通过超声心动图评估心脏功能,通过苏木精-伊红(HE)染色观察组织学变化。为了进一步研究其潜在机制,高频细胞模型接受了 Sp1 抑制剂或 PI3K 抑制剂的治疗。此外,还构建了 miR-24-3p 过表达或沉默的模型。用酶联免疫吸附法测定 N 端脑钠肽(NT-proBNP)水平。细胞凋亡采用 TUNEL 染色法进行评估,乳酸脱氢酶(LDH)水平采用比色法进行测量。活性氧(ROS)的产生采用流式细胞术进行分析。通过 qRT-PCR 和 Western 印迹技术评估了相关基因和蛋白质的表达。最后,通过双荧光素酶检测法证实了 miR-24-3p 与 Sp1 之间的关系。结果 Dox 治疗增加了左心室内径(LVIDd),同时降低了射血分数(EF)和分数缩短(FS),导致大鼠心肌细胞排列紊乱、细胞水肿和坏死。在高频大鼠中,NT-proBNP、Caspase-3 和 miR-24-3p 表达水平升高,而 Sp1 和 PI3K mRNA 和蛋白表达水平降低。同样,Dox 诱导的 H9c2 心肌细胞损伤导致 NT-proBNP、细胞凋亡、Caspase-3、LDH、ROS 和 miR-24-3p 表达水平升高,Sp1 和 PI3K 表达水平降低。Sp1 或 PI3K 抑制剂会加剧 Dox 诱导的心肌细胞损伤,进一步提高 NT-proBNP、细胞凋亡、Caspase-3、LDH、ROS 和 miR-24-3p 的表达水平。值得注意的是,抑制 Sp1 会降低 PI3K 的表达,而抑制 PI3K 又会抑制 Sp1 的表达。过表达 miR-24-3p 会加重 Dox 诱导的心肌细胞损伤,表现为 NT-proBNP、细胞凋亡、Caspase-3、LDH 和 ROS 表达增加,同时 Sp1 和 PI3K 表达减少。相反,沉默 miR-24-3p 可减轻这些有害影响,并增加 Sp1 和 PI3K 的表达。双重荧光素酶测定证实,miR-24-3p 直接靶向 Sp1。沉默 miR-24-3p 可激活心衰患者的 Sp1/PI3K 信号通路,从而起到保护作用。
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
Cellular signalling
Cellular signalling 生物-细胞生物学
CiteScore
8.40
自引率
0.00%
发文量
250
审稿时长
27 days
期刊介绍: Cellular Signalling publishes original research describing fundamental and clinical findings on the mechanisms, actions and structural components of cellular signalling systems in vitro and in vivo. Cellular Signalling aims at full length research papers defining signalling systems ranging from microorganisms to cells, tissues and higher organisms.
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