A microRNA program controls the transition of cardiomyocyte hyperplasia to hypertrophy and stimulates mammalian cardiac regeneration

Author:

Raso Andrea,Dirkx Ellen,Sampaio-Pinto Vasco,el Azzouzi Hamid,Cubero Ryan J.,Sorensen Daniel W.,Ottaviani Lara,Olieslagers Servé,Huibers Manon M.,de Weger Roel,Siddiqi Sailay,Moimas Silvia,Torrini Consuelo,Zentillin Lorena,Braga Luca,da Costa Martins Paula A.,van Berlo Jop H.,Zacchigna Serena,Giacca Mauro,De Windt Leon J.ORCID

Abstract

Myocardial regeneration is restricted to early postnatal life, when mammalian cardiomyocytes still retain the ability to proliferate. The molecular cues that induce cell cycle arrest of neonatal cardiomyocytes towards terminally differentiated adult heart muscle cells remain obscure. Here we report that the miR-106b∼25 cluster is higher expressed in the early postnatal myocardium and decreases in expression towards adulthood, especially under conditions of overload, and orchestrates the transition of cardiomyocyte hyperplasia towards cell cycle arrest and hypertrophy by virtue of its targetome. In line, gene delivery of miR-106b∼25 to the mouse heart provokes cardiomyocyte proliferation by targeting a network of negative cell cycle regulators including E2f5, Cdkn1c, Ccne1 and Wee1. Conversely, gene-targeted miR-106b∼25 null mice display spontaneous hypertrophic remodeling and exaggerated remodeling to overload by derepression of the prohypertrophic transcription factors Hand2 and Mef2d. Taking advantage of the regulatory function of miR-106b∼25 on cardiomyocyte hyperplasia and hypertrophy, viral gene delivery of miR-106b∼25 provokes nearly complete regeneration of the adult myocardium after ischemic injury. Our data demonstrate that exploitation of conserved molecular programs can enhance the regenerative capacity of the injured heart.

Publisher

Cold Spring Harbor Laboratory

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