来源于间歇性缺氧刺激的血管平滑肌细胞的外泌体miR-129和miR-342抑制eIF2α/ATF4轴预防钙化主动脉瓣疾病。

IF 3.6 3区 生物学 Q3 CELL BIOLOGY
Chen Huang, Xu Han, Linjie Yang, Wei Song, Hualu Zhang, Xiaohua Zhu, Gongcheng Huang, Jing Xu
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引用次数: 0

摘要

本研究旨在阐明在钙化性主动脉瓣疾病(CAVD)中,来自间歇性缺氧刺激的血管平滑肌细胞(VSMCs)的外泌体中负载的miR-129/miR-342的作用。进行生物信息学分析以鉴定VSMCs衍生的外泌体和CAVD样品中差异表达的miR,并预测其潜在的靶基因。将VSMCs暴露于间歇性缺氧以诱导刺激,然后分离外泌体。体外培养瓣膜间质细胞(VICs),研究miR-129/miR-342对VICs成骨分化和eIF2α主动脉瓣钙化的影响。使用ApoE敲除小鼠建立CAVD小鼠模型用于体内验证。在CAVD样本中,miR-129和miR-342下调,而eIF2α和ATF4上调。miR-129和miR-342通过靶向调控对eIF2α表现出抑制作用。间歇性缺氧刺激的VSMCs释放的外泌体含有miR-129和miR-342。miR-129和miR-342的过表达,或沉默ATF4,抑制了VICs的成骨分化和主动脉瓣钙化,而过表达的eIF2α可以挽救这一点。总的来说,VSMCs的间歇性缺氧刺激导致外泌体的分泌,外泌体激活miR-129/miR-342双途径,从而抑制eIF2α/ATF4轴,并减弱VICs的成骨分化和CAVD进展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Exosomal miR-129 and miR-342 derived from intermittent hypoxia-stimulated vascular smooth muscle cells inhibit the eIF2α/ATF4 axis from preventing calcified aortic valvular disease.

Exosomal miR-129 and miR-342 derived from intermittent hypoxia-stimulated vascular smooth muscle cells inhibit the eIF2α/ATF4 axis from preventing calcified aortic valvular disease.

This study aims to elucidate the role of miR-129/miR-342 loaded in exosomes derived from vascular smooth muscle cells (VSMCs) stimulated by intermittent hypoxia in calcified aortic valvular disease (CAVD). Bioinformatics analysis was conducted to identify differentially expressed miRs in VSMCs-derived exosomes and CAVD samples, and their potential target genes were predicted. VSMCs were exposed to intermittent hypoxia to induce stimulation, followed by isolation of exosomes. Valvular interstitial cells (VICs) were cultured in vitro to investigate the impact of miR-129/miR-342 on VICs' osteogenic differentiation and aortic valve calcification with eIF2α. A CAVD mouse model was established using ApoE knockout mice for in vivo validation. In CAVD samples, miR-129 and miR-342 were downregulated, while eIF2α and ATF4 were upregulated. miR-129 and miR-342 exhibited inhibitory effects on eIF2α through targeted regulation. Exosomes released from intermittently hypoxia-stimulated VSMCs contained miR-129 and miR-342. Overexpression of miR-129 and miR-342, or silencing ATF4, suppressed VICs' osteogenic differentiation and aortic valve calcification, which could be rescued by overexpressed eIF2α. Collectively, intermittent hypoxia stimulation of VSMCs leads to the secretion of exosomes that activate the miR-129/miR-342 dual pathway, thereby inhibiting the eIF2α/ATF4 axis and attenuating VICs' osteogenic differentiation and CAVD progression.

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来源期刊
CiteScore
6.40
自引率
4.90%
发文量
40
期刊介绍: The Journal of Cell Communication and Signaling provides a forum for fundamental and translational research. In particular, it publishes papers discussing intercellular and intracellular signaling pathways that are particularly important to understand how cells interact with each other and with the surrounding environment, and how cellular behavior contributes to pathological states. JCCS encourages the submission of research manuscripts, timely reviews and short commentaries discussing recent publications, key developments and controversies. Research manuscripts can be published under two different sections : In the Pathology and Translational Research Section (Section Editor Andrew Leask) , manuscripts report original research dealing with celllular aspects of normal and pathological signaling and communication, with a particular interest in translational research. In the Molecular Signaling Section (Section Editor Satoshi Kubota) manuscripts report original signaling research performed at molecular levels with a particular interest in the functions of intracellular and membrane components involved in cell signaling.
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