MicroRNA-1 downregulation increases connexin 43 displacement and induces ventricular tachyarrhythmias in rodent hypertrophic hearts. (Articolo in rivista)

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  • MicroRNA-1 downregulation increases connexin 43 displacement and induces ventricular tachyarrhythmias in rodent hypertrophic hearts. (Articolo in rivista) (literal)
Anno
  • 2013-01-01T00:00:00+01:00 (literal)
Alternative label
  • Antonio Curcio1, Daniele Torella1,3, Claudio Iaconetti1, Eugenia Pasceri1, Jolanda Sabatino1, Sabato Sorrentino1, Salvatore Giampà1, Mariella Micieli1, Alberto Polimeni1, Beverley J. Henning3, Angelo Leone1, Daniele Catalucci4, Georgina M. Ellison1,3, Gianluigi Condorelli4, Ciro Indolfi1,2* (2013)
    MicroRNA-1 downregulation increases connexin 43 displacement and induces ventricular tachyarrhythmias in rodent hypertrophic hearts.
    in PloS one
    (literal)
Http://www.cnr.it/ontology/cnr/pubblicazioni.owl#autori
  • Antonio Curcio1, Daniele Torella1,3, Claudio Iaconetti1, Eugenia Pasceri1, Jolanda Sabatino1, Sabato Sorrentino1, Salvatore Giampà1, Mariella Micieli1, Alberto Polimeni1, Beverley J. Henning3, Angelo Leone1, Daniele Catalucci4, Georgina M. Ellison1,3, Gianluigi Condorelli4, Ciro Indolfi1,2* (literal)
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  • 1 Division of Cardiology, Laboratory of Molecular and Cellular Cardiology, Department of Medical and Surgical Sciences, University Magna Graecia, Catanzaro, Italy, 2 URT - National Research Council, University Magna Graecia, Catanzaro, Italy, 3 Biostem Unit, RISES, Liverpool John Moores University, Liverpool, United Kingdom, 4 Humanitas Clinical and Research Center, Rozzano, Milan, and National Research Council, Italy (literal)
Titolo
  • MicroRNA-1 downregulation increases connexin 43 displacement and induces ventricular tachyarrhythmias in rodent hypertrophic hearts. (literal)
Abstract
  • Downregulation of the muscle-specific microRNA-1 (miR-1) mediates the induction of pathologic cardiac hypertrophy. Dysfunction of the gap junction protein connexin 43 (Cx43), an established miR-1 target, during cardiac hypertrophy leads to ventricular tachyarrhythmias (VT). However, it is still unknown whether miR-1 and Cx43 are interconnected in the pro-arrhythmic context of hypertrophy. Thus, in this study we investigated whether a reduction in the extent of cardiac hypertrophy could limit the pathological electrical remodeling of Cx43 and the onset of VT by modulating miR-1 levels. Wistar male rats underwent mechanical constriction of the ascending aorta to induce pathologic left ventricular hypertrophy (LVH) and afterwards were randomly assigned to receive 10mg/kg valsartan, VAL (LVH +VAL) delivered in the drinking water or placebo (LVH) for 12 weeks. Sham surgery was performed for control groups. Programmed ventricular stimulation reproducibly induced VT in LVH compared to LVH+VAL group. When compared to sham controls, rats from LVH group showed a significant decrease of miR-1 and an increase of Cx43 expression and its ERK1/2-dependent phosphorylation, which displaces Cx43 from the gap junction. Interestingly, VAL administration to rats with aortic banding significantly reduced cardiac hypertrophy and prevented miR-1 down- regulation and Cx43 up-regulation and phosphorylation. Gain- and loss-of-function experiments in neonatal cardiomyocytes (NCMs) in vitro confirmed that Cx43 is a direct target of miR-1. Accordingly, in vitro angiotensin II stimulation reduced miR-1 levels and increased Cx43 expression and phosphorylation compared to un-stimulated NCMs. Finally, in vivo miR-1 cardiac overexpression by an adenoviral vector intra-myocardial injection reduced Cx43 expression and phosphorylation in mice with isoproterenol-induced LVH. In conclusion, miR-1 regulates Cx43 expression and activity in hypertrophic cardiomyocytes in vitro and in vivo. Treatment of pressure overload-induced myocyte hypertrophy reduces the risk of life-threatening VT by normalizing miR-1 expression levels with the consequent stabilization of Cx43 expression and activity within the gap junction. (literal)
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