Abstract Background MicroRNAs have the therapeutic potential for heart repair after myocardial infarction(MI). Using a functional high-throughput screening approach, we identified microRNA-519e(miR-519e) as an inducer of cell-cycling in human-derived iPSC-cardiomyocytes(hiPSC-CM). Purpose This study examines miR-519e for cell division in hiPSC-CM, additional beneficial functions in heart-related non-CMs, and direct target identification and validation in vitro and in vivo. Methods MiR-519e-mimics or miR-scrambled(miR-scr) were transfected into hiPSC-CM, human aortic endothelial cells(HAEC) and human cardiac fibroblasts(cFB). Proliferative markers (EdU(5-Ethynyl-2'- deoxyuridine), H3P(Phospho-Histone H3) and AURKB(Aurora B-kinase)) and apoptotic response using MTT assay after exposure to doxorubicin were assessed in hiPSC-CMs. Angiogenic capacity of HAEC was evaluated by tube formation assay and fibrotic response of cFBs using EdU and α-SMA(smooth muscle actin) staining. In vivo, a mouse MI model with ligation of the left anterior descending followed by intramyocardial injection of miR-519e or miR-scr was used. Direct target identification of miR-519e was assessed using in silico analysis combined with RNA-Seq of miR-519e-mimic treated hiPSC-CMs and validated using Ago2-RNA immunoprecipitation(RIP) followed by qPCR. Results After transfection of miR-519e-mimics in hiPSC-CM, a significant proliferative response indicative of cell division was observed in immunofluorescence staining and on protein level as compared with miR-scr treated hiPSC-CMs (EdU, H3P and AURKB, p<0.01). Apoptosis was blunted in miR-519e-treated hiPSC-CMs (p<0.05). MiR-519e-treatment of HAEC resulted in more meshes (p<0.01) and longer tube length (p<0.05), indicating enhanced pro-angiogenic capacity. Importantly, EdU-uptake and α-SMA were similar in miR-519e-treated cFB as compared to miR-scr, suggesting neutral effects of miR-519e on myofibroblast transition. In mice undergoing MI, injection of miR-519e-mimics significantly downregulated CDKN1A/P21(Cyclin dependent kinase inhibitor 1A) (p<0.05 vs. miR-scr), a direct target of miR-519e and negative master regulator of cell-cycling. For further novel target identification of miR-519e, we performed in silico analysis combined with RNA-Seq data from miR-519e-treated hiPSC-CM and validation using Ago2-RIP followed by qPCR. Herein, we identified PTEN(Phosphatase and tensin homolog) and TGFBR2(Transforming growth factor β receptor 2) that are involved in cardiomyocyte proliferation and hypoxic response, as direct targets of miR-519e. Conclusion Collectively, miR-519e is a potent inducer of cell division in human cardiomyocytes, with anti-apoptotic and pro-angiogenic capacity in the absence of pro-fibrotic effects. We show that miR-519e treatment downregulates key negative cell-cycle regulators in vivo and we identified novel direct targets of miR-519e that are involved in regulatory pathways for heart regeneration.
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