Extracellular vesicles engineering by silicates-activated endothelial progenitor cells for myocardial infarction treatment in male mice

被引:0
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作者
Bin Yu
Hekai Li
Zhaowenbin Zhang
Peier Chen
Ling Wang
Xianglin Fan
Xiaodong Ning
Yuxuan Pan
Feiran Zhou
Xinyi Hu
Jiang Chang
Caiwen Ou
机构
[1] Guangdong Provincial Key Laboratory of Cardiac Function and Microcirculation,The 10th Affiliated Hospital of Southern Medical University (Dongguan People’s Hospital), Southern Medical University
[2] Zhujiang Hospital,Department of Rehabilitation Medicine
[3] Southern Medical University,Department of Cardiology and Laboratory of Heart Center
[4] Zhujiang Hospital,State Key Laboratory of High
[5] Guangdong Provincial Biomedical Engineering Technology Research Center for Cardiovascular Disease,Performance Ceramics and Super fine Microstructure
[6] Southern Medical University,Joint Centre of Translational Medicine
[7] Wenzhou Institute,School of Biomedical Engineering, Biomaterials Research Center
[8] Zhejiang Engineering Research Center for Tissue Repair Materials,undefined
[9] University of Chinese Academy of Sciences,undefined
[10] Shanghai Institute of Ceramics,undefined
[11] Chinese Academy of Sciences,undefined
[12] The First Affiliated Hospital of Wenzhou Medical University,undefined
[13] Southern Medical University,undefined
来源
Nature Communications | / 14卷
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摘要
Extracellular vesicles have shown good potential in disease treatments including ischemic injury such as myocardial infarction. However, the efficient production of highly active extracellular vesicles is one of the critical limitations for their clinical applications. Here, we demonstrate a biomaterial-based approach to prepare high amounts of extracellular vesicles with high bioactivity from endothelial progenitor cells (EPCs) by stimulation with silicate ions derived from bioactive silicate ceramics. We further show that hydrogel microspheres containing engineered extracellular vesicles are highly effective in the treatment of myocardial infarction in male mice by significantly enhancing angiogenesis. This therapeutic effect is attributed to significantly enhanced revascularization by the high content of miR-126a-3p and angiogenic factors such as VEGF and SDF-1, CXCR4 and eNOS in engineered extracellular vesicles, which not only activate endothelial cells but also recruit EPCs from the circulatory system.
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