ECM proteins regulate microRNA-mediated direct reprogramming of fibroblasts into cardiomyocytes via YAP signaling
Gerardina Ruocco, Letizia Nicoletti, Martina Coletto, Alessia Toccaceli, Valeria Chiono, Camilla Paoletti

TL;DR
This study shows that extracellular matrix proteins, especially laminin and a biomatrix, improve the conversion of heart fibroblasts into heart muscle cells using microRNA treatment.
Contribution
The study reveals that ECM proteins regulate microRNA-mediated reprogramming via YAP signaling, offering a new strategy to enhance in vitro cardiac reprogramming.
Findings
Biomatrix significantly increased reprogramming efficiency to about 20% cTnT+ cells.
Laminin and biomatrix improved cytoskeletal alignment and sarcomeric organization.
Fibronectin and collagen I promoted YAP activation and proliferation over transdifferentiation.
Abstract
Direct cardiac reprogramming represents a promising strategy to regenerate damaged myocardium by converting cardiac fibroblasts into induced cardiomyocytes (iCMs). Transient delivery of a four-microRNA cocktail (miRcombo: miR-1, miR-133, miR-208, and miR-499) has been shown to activate cardiac transcriptional programs in adult human cardiac fibroblasts (AHCFs). However, in vitro reprogramming efficiency remains limited compared to significantly higher outcomes observed in vivo, suggesting that microenvironmental cues present in the native myocardium play a crucial role in facilitating lineage conversion. This study investigated how extracellular matrix (ECM) proteins modulate miRcombo-mediated reprogramming. An in vitro cardiac ECM termed “biomatrix” was developed and characterized from long-term cultured AHCFs. An optimized decellularization protocol was applied to preserve major ECM…
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Taxonomy
TopicsPluripotent Stem Cells Research · Congenital heart defects research · Tissue Engineering and Regenerative Medicine
