Decoding the Epigenetic and Transcriptional Basis of Direct Cardiac Reprogramming.

Abstract

Heart disease, particularly resulting from myocardial infarction (MI), continues to be a leading cause of mortality, largely due to the limited regenerative capacity of the human heart. Current therapeutic approaches seek to generate new cardiomyocytes from alternative sources. Direct cardiac reprogramming, which converts fibroblasts into induced cardiomyocytes (iCMs), offers a promising alternative by enabling in situ cardiac regeneration and minimizing tumorigenesis concerns. Here we review recent advancements in the understanding of transcriptional and epigenetic mechanisms underlying cardiac reprogramming, with a focus on key early-stage molecular events, including epigenetic barriers and regulatory mechanisms that facilitate reprogramming. Despite substantial progress, the maturation of reprogrammed iCMs and human cardiac fibroblast reprogramming remain areas for further exploration. We also discuss the combinatorial roles of reprogramming factors in governing transcriptional and epigenetic changes. This review consolidates current knowledge and proposes future directions for promoting the translational potential of cardiac reprogramming techniques.