循环外泌体通过调节miR-190a-3p/CXCR4/CXCL12通路在急性心肌梗死中保护心肌损伤的潜在作用。

IF 2.9 4区 生物学 Q2 BIOPHYSICS
Chun-Yuan Jiang, Ting-Ting Zhong, Lu-Wen Qiu, Yan-Feng Liu, Hui-Hua Zuo, Xiao-Fei Huang
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引用次数: 3

摘要

不同来源的外泌体对缺血性心肌损伤具有保护作用。本研究考察了循环外泌体在小鼠急性心肌梗死(AMI)模型中的保护作用,并探讨了其潜在的分子机制。外泌体在AMI小鼠模型中对心肌损伤的影响进行了评估。体内研究表明,循环外泌体可减小心肌梗死面积,改善心肌组织形态,减少心肌组织凋亡。此外,外泌体处理后,模型小鼠的CD34 + /VEGFR2 +细胞群和CD31、CXCR4和CXCL12表达增加。在缺氧处理的人心肌细胞(HCMs)培养基中提取的外泌体中,MiR-190a-3p显著下调。进一步分析表明,miR-190a-3p可以通过靶向各自的3' utr与CXCR4/CXCL12发生物理相互作用。这些外泌体可上调EPCs中CXCR4和CXCL12的表达;此外,miR-190a-3p模拟物抑制了EPCs中CXCR4/CXCL12的表达,而其抑制剂具有相反的作用。体外功能实验显示,miR-190a-3p过表达可抑制EPCs的细胞活力、增殖、迁移、粘附和成管;而miR-190a-3p抑制剂作用相反;从缺氧处理的hcm培养基中提取的外泌体表现出类似miR-190a-3p抑制剂的作用。此外,与假手术组相比,AMI组血清外泌体中miR-190a-3p表达下调。与假手术组相比,AMI组用血清外泌体处理可促进EPCs的细胞增殖、迁移、粘附和成管。更重要的是,IT1t减弱了miR-190a-3p抑制对EPC增殖、迁移、粘附和成管的增强作用。综上所述,循环外泌体对AMI小鼠模型心肌损伤具有保护作用,下调循环外泌体中miR-190a-3p可能对心肌损伤具有保护作用。缺氧诱导HCM培养基中miR-190a-3p下调,机制研究表明缺氧条件下HCM培养基外泌体通过调节miR-190a-3p/CXCR4/CXCL12通路促进EPCs的细胞活力、增殖、迁移、粘附和成管。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The potential role of circulating exosomes in protecting myocardial injury in acute myocardial infarction via regulating miR-190a-3p/CXCR4/CXCL12 pathway.

The potential role of circulating exosomes in protecting myocardial injury in acute myocardial infarction via regulating miR-190a-3p/CXCR4/CXCL12 pathway.

Exosomes of different origins have been found to be protective against ischemic-induced myocardial injury. This study examined the protective effects of circulating exosomes in the mice model of acute myocardial infarction (AMI) and explored the underlying molecular mechanisms. The effects of exosomes on myocardial injury were assessed in the AMI mice model. The in vivo studies showed that circulating exosomes reduced the infarcted size, improved the morphology of heart tissues and also reduced apoptosis of the heart tissues. In addition, the model mice showed an increase in the CD34 + /VEGFR2 + cell population and CD31, CXCR4 and CXCL12 expression after exosomes treatment. MiR-190a-3p was significantly down-regulated in the exosomes derived from the culture medium of hypoxia-treated human cardiomyocytes (HCMs). Further analysis revealed that miR-190a-3p could physically interact with CXCR4/CXCL12 by targeting the respective 3'UTRs. These exosomes could up-regulated CXCR4 and CXCL12 expression in the EPCs; in addition, miR-190a-3p mimics repressed CXCR4/CXCL12 expression in EPCs, while its inhibitor had opposite effects. The in vitro functional assays showed that miR-190a-3p overexpression suppressed the cell viability, proliferation, migration, adhesion and tube formation of EPCs; while miR-190a-3p inhibitor had the opposite effects; exosomes derived from the culture medium of hypoxia-treated HCMs exhibited similar actions of miR-190a-3p inhibitor. Moreover, miR-190a-3p was down-regulated in exosomes from serum in the AMI group when compared to that from sham group. Treatment with exosomes from serum in the AMI group promoted cell proliferation, migration, adhesion and tube formation of EPCs when compared to that in the sham group. More importantly, IT1t attenuated the enhanced effects of miR-190a-3p inhibition on EPC proliferation, migration, adhesion and tube formation. In conclusion, circulating exosomes exerted protective effects on myocardial injury in the AMI mice model, and down-regulation of miR-190a-3p in the circulating exosomes may exert protective effects against myocardial injury. Hypoxia induced the downregulation of miR-190a-3p in the culture medium of HCMs, and the mechanistic investigations indicated that exosomes of hypoxia-conditioned HCM culture medium promoted the cell viability, proliferation, migration, adhesion and tube formation of EPCs via regulating miR-190a-3p/CXCR4/CXCL12 pathway.

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来源期刊
CiteScore
6.00
自引率
0.00%
发文量
22
审稿时长
6-12 weeks
期刊介绍: The Journal of Bioenergetics and Biomembranes is an international journal devoted to the publication of original research that contributes to fundamental knowledge in the areas of bioenergetics, biomembranes, and transport, including oxidative phosphorylation, photosynthesis, muscle contraction, as well as cellular and systemic metabolism. The timely research in this international journal benefits biophysicists, membrane biologists, cell biologists, biochemists, molecular biologists, physiologists, endocrinologists, and bio-organic chemists.
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