Abstract
Although mesenchymal stem cells (MSC) have been shown to be safe in preclinical studies of cardiovascular disease, multiple meta-analyses have debated whether functional improvement is significant or not. The cardiac differentiation from MSC is achievable using cardiogenic factors, however, the high cost and long culture period may limit the applications. Here, we developed a novel method to optimize the therapeutic outcome for myocardial infarction (MI). Treatment of MSC with apicidin, a histone deacetylase inhibitor, dramatically increased the expressions of cardiac markers such as GATA4, Nkx2.5, and cardiac troponin I (cTnI). In AC/MSC, stemness-related genes and yes-associated protein (YAP), a potent oncogene that drives cell proliferation, were significantly suppressed. Furthermore apicidin treatment or YAP knockdown downregulated miR-130a expression followed by induction of cardiac markers in MSC. In the comparison study, we found that both cardiac gene induction and angiogenesis were most prominent in the mixture of non-treated MSC and AC/MSC (Mix). Using mouse MI model, we show that application of Mix was strongly associated with cardiac differentiation of injected MSC and improved cardiac performance. Our results suggest that suppression of YAP/miR-130a shifts MSC cell fate toward cardiac lineage and identify apicidin as a potential pharmacological target for therapeutic development.
Highlights
Mesenchymal stem cells (MSC) are regarded as safe and feasible for cardiovascular therapy in clinical applications [1,2,3]
mesenchymal stem cells (MSC) were treated with vehicle (Veh) or apicidin (AC, 3 μM) for 24 hours to analyze the induction of cardiac markers
To examine whether apicidin induced cardiac markers above GATA4, we tested the expressions of Nkx2.5 and cardiac troponin I (cTnI)
Summary
Mesenchymal stem cells (MSC) are regarded as safe and feasible for cardiovascular therapy in clinical applications [1,2,3]. Debate remains as to whether differentiation into mature cardiomyocytes would be better than the application of undifferentiated stem cells to damaged heart. Enforced expression of GATA4, Mef2c, and Tbx by using retroviral vectors in fibroblasts showed reprogramming cell lineage into cardiomyocytes [10]. In terms of cardiac differentiation efficiency, the process of reprogramming www.impactjournals.com/oncotarget fibroblasts to cardiomyocytes reported to be insufficient for clinical application [11]. Concerns about the safety of viral vector, perfect purification of differentiated cardiomyocytes from undifferentiated cells, and timeconsuming protocols are still remained unsolved
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