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microRNA-21-5p dysregulation in exosomes derived from heart failure patients impairs regenerative potential
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microRNA-21-5p dysregulation in exosomes derived from heart failure patients impairs regenerative potential
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Journal Article
microRNA-21-5p dysregulation in exosomes derived from heart failure patients impairs regenerative potential
2019
Overview
Exosomes, as functional paracrine units of therapeutic cells, can partially reproduce the reparative properties of their parental cells. The constitution of exosomes, as well as their biological activity, largely depends on the cells that secrete them. We isolated exosomes from explant-derived cardiac stromal cells from patients with heart failure (FEXO) or from normal donor hearts (NEXO) and compared their regenerative activities in vitro and in vivo. Patients in the FEXO group exhibited an impaired ability to promote endothelial tube formation and cardiomyocyte proliferation in vitro. Intramyocardial injection of NEXO resulted in structural and functional improvements in a murine model of acute myocardial infarction. In contrast, FEXO therapy exacerbated cardiac function and left ventricular remodeling. microRNA array and PCR analysis revealed dysregulation of miR-21-5p in FEXO. Restoring miR-21-5p expression rescued FEXO's reparative function, whereas blunting miR-21-5p expression in NEXO diminished its therapeutic benefits. Further mechanistic studies revealed that miR-21-5p augmented Akt kinase activity through the inhibition of phosphatase and tensin homolog. Taken together, the heart failure pathological condition altered the miR cargos of cardiac-derived exosomes and impaired their regenerative activities. miR-21-5p contributes to exosome-mediated heart repair by enhancing angiogenesis and cardiomyocyte survival through the phosphatase and tensin homolog/Akt pathway.
Publisher
American Society for Clinical Investigation
Subject
/ Analysis
/ Animals
/ Cancer
/ Exosomes
/ Female
/ Heart
/ Human Umbilical Vein Endothelial Cells - metabolism
/ Human Umbilical Vein Endothelial Cells - pathology
/ Humans
/ Kinases
/ Male
/ Mice
/ MicroRNA
/ miRNA
/ Myocytes, Cardiac - metabolism
/ Myocytes, Cardiac - pathology
/ Neovascularization, Physiologic
/ Proteins
/ Proto-Oncogene Proteins c-akt - genetics
/ Proto-Oncogene Proteins c-akt - metabolism
/ Structure-function relationships
/ Tensin
