Abstract
Background and Objective: CRISPR tools that allow for precise manipulation of individual loci have not been used in generation of i nduced c ardiac p rogenitor c ells ( iCPC s). This study was designed to determine the feasibility and effectiveness of reprogramming fibroblasts into iCPC using CRISPR activation (CRISPRa) system. Methods: Tail-tip fibroblasts (TTFs) were isolated from Nkx2-5 cardiac enhancer GFP reporter mice. A gRNA pool targeting 17 progenitor genes was synthesized and transduced with dCas9-VP64 lentivirus into TTFs ( Fig.1A ). The phenotype of iCPCs was then characterized by immunostaining and FACS of progenitor markers. Finally, the cardiac-lineage differentiation potential of iCPCs was determined by immunostaining and electrophysiological assay under defined induction mediums. Results: iCPCs with GFP expression were formed in TTFs after transduction of CRISPRa targeting Isl1 , Gata4 , Baf60c , Tbx5 and Nkx2-5 (Fig.1B), while GFP was not activated by control virus. Cardiac progenitor markers were activated in iCPCs as shown by immunostaining (Fig.1C). The generation efficiency of Flk1-postive iCPCs induced by CRISPRa was ~60% as showed by FACS. iCPCs can be differentiated into cardiomyocytes as identified by immunostaining of cardiac-specific markers (Fig.1D). The iCPC-derived cardiomyocytes displayed spontaneous beating and showed cardiac action potentials (Fig.1E). Conclusion: The CRISPRa system is an efficient and specific way to generate iCPCs, which could provide a novel source of cells for cardiac regenerative medicine.
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