KChIP2 attenuates cardiac hypertrophy through regulation of Ito and intracellular calcium signaling

Hongwei Jin, Lahouaria Hadri, Julieta Palomeque, Charlotte Morel, Ioannis Karakikes, Roger Kaprielian, Roger Hajjar, Djamel Lebeche

Research output: Contribution to journalArticlepeer-review

33 Scopus citations

Abstract

Recent evidence shows that the auxiliary subunit KChIP2, which assembles with pore-forming Kv4-subunits, represents a new potential regulator of the cardiac calcium-independent transient outward potassium current (Ito) density. In hypertrophy and heart failure, KChIP2 expression has been found to be significantly decreased. Our aim was to examine the role of KChIP2 in cardiac hypertrophy and the effect of restoring its expression on electrical remodeling and cardiac mechanical function using a combination of molecular, biochemical and gene targeting approaches. KChIP2 overexpression through gene transfer of Ad.KChIP2 in neonatal cardiomyocytes resulted in a significant increase in Ito-channel forming Kv4.2 and Kv4.3 protein levels. In vivo gene transfer of KChIP2 in aortic banded adult rats showed that, compared to sham-operated or Ad.β-gal-transduced hearts, KChIP2 significantly attenuated the developed left ventricular hypertrophy, robustly increased Ito densities, shortened action potential duration, and significantly altered myocyte mechanics by shortening contraction amplitudes and maximal rates of contraction and relaxation velocities and decreasing Ca2+ transients. Interestingly, blocking Ito with 4-aminopyridine in KChIP2-overexpressing adult cardiomyocytes significantly increased the Ca2+ transients to control levels. One-day-old rat pups intracardially transduced with KChIP2 for twomonths then subjected to aortic banding for 6-8weeks (to induce hypertrophy) showed similar echocardiographic, electrical and mechanical remodeling parameters. In addition, in cultured adult cardiomyocytes, KChIP2 overexpression increased the expression of Ca2+-ATPase (SERCA2a) and sodium calcium exchanger but had no effect on ryanodine receptor 2 or phospholamban expression. In neonatal myocytes, KChIP2 notably reversed Ang II-induced hypertrophic changes in protein synthesis and MAP-kinase activation. It also significantly decreased calcineurin expression, NFATc1 expression and nuclear translocation and its downstream target, MCiP1.4. Altogether, these data show that KChIP2 can attenuate cardiac hypertrophy possibly through modulation of intracellular calcium concentration and calcineurin/NFAT pathway.

Original languageEnglish
Pages (from-to)1169-1179
Number of pages11
JournalJournal of Molecular and Cellular Cardiology
Volume48
Issue number6
DOIs
StatePublished - Jun 2010

Keywords

  • Cardiac contractility
  • Cardiac hypertrophy
  • Gene transfer
  • KChIP2
  • Kv4 channels

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