The G4 Resolvase Dhx36 Modulates Cardiomyocyte Differentiation and Ventricular Conduction System Development

Overview

Journal Nat Commun

Specialty Biology

Date 2024 Oct 4

PMID 39366945

Authors

Pablo Gomez-Del Arco

Joan Isern

Daniel Jimenez-Carretero

Dolores Lopez-Maderuelo

Rebeca Pineiro-Sabaris

Fadoua El Abdellaoui-Soussi

Carlos Torroja

Maria Linarejos Vera-Pedrosa

Mercedes Grima-Terren

Alberto Benguria

Ana Simon-Chica

Antonio Queiro-Palou

Ana Dopazo

Fatima Sanchez-Cabo

Jose Jalife

Jose Luis de la Pompa

David Filgueiras-Rama

Pura Munoz-Canoves

Juan Miguel Redondo

Affiliations

Soon will be listed here.

Abstract

Extensive genetic studies have elucidated cardiomyocyte differentiation and associated gene networks using single-cell RNA-seq, yet the intricate transcriptional mechanisms governing cardiac conduction system (CCS) development and working cardiomyocyte differentiation remain largely unexplored. Here we show that mice deleted for Dhx36 (encoding the Dhx36 helicase) in the embryonic or neonatal heart develop overt dilated cardiomyopathy, surface ECG alterations related to cardiac impulse propagation, and (in the embryonic heart) a lack of a ventricular conduction system (VCS). Heart snRNA-seq and snATAC-seq reveal the role of Dhx36 in CCS development and in the differentiation of working cardiomyocytes. Dhx36 deficiency directly influences cardiomyocyte gene networks by disrupting the resolution of promoter G-quadruplexes in key cardiac genes, impacting cardiomyocyte differentiation and CCS morphogenesis, and ultimately leading to dilated cardiomyopathy and atrioventricular block. These findings further identify crucial genes and pathways that regulate the development and function of the VCS/Purkinje fiber (PF) network.

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