Apoptosis repressor with caspase domain inhibits cardiomyocyte apoptosis by reducing K+ currents

doi:10.1152/ajpcell.00279.2002

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Am J Physiol Cell Physiol 284: C1405-C1410, 2003. First published January 29, 2003; doi:10.1152/ajpcell.00279.2002
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Vol. 284, Issue 6, C1405-C1410, June 2003

Apoptosis repressor with caspase domain inhibits cardiomyocyte apoptosis by reducing K⁺ currents

Daryoush Ekhterae^*, Oleksandr Platoshyn^*, Shen Zhang^*, Carmelle V. Remillard, and Jason X.-J. Yuan

Department of Medicine, School of Medicine, University of California, San Diego, California 92103

Cell shrinkage is an early prerequisite in programmed cell death, and cytoplasmic K⁺ is a dominant cation that controls intracellular ion homeostasisand cell volume. Blockade of K⁺ channels inhibits apoptotic cell shrinkage and attenuates apoptosis.We examined whether apoptotic repressor with caspase recruitmentdomain (ARC), an antiapoptotic protein, inhibits cardiomyocyteapoptosis by reducing K⁺ efflux through voltage-gated K⁺ (Kv) channels. In heart-derived H9c2 cells, whole cell Kv currents(I_K(V)) were isolated by using Ca²⁺-free extracellular (bath) solution and including 5 mM ATP and10 mM EGTA in the intracellular (pipette) solution. Extracellularapplication of 5 mM 4-aminopyridine (4-AP), a blocker of Kv channels,reversibly reduced I_K(V) by 50-60% in H9c2 cells. The remainingcurrents during 4-AP treatment may be generated by K⁺ efflux through 4-AP-insensitive K⁺ channels. Overexpression of ARC in heart-derived H9c2 cells significantlydecreased I_K(V), whereas treatment with staurosporine, a potentapoptosis inducer, enhanced I_K(V) in wild-type cells. The staurosporine-inducedincrease in I_K(V) was significantly suppressed and the staurosporine-mediatedapoptosis was markedly inhibited in cells overexpressing ARC comparedwith cells transfected with the control neomycin vector. Theseresults suggest that the antiapoptotic effect of ARC is, in part,due to inhibition of Kv channels incardiomyocytes.

apoptotic volume decrease; potassium channels; cardiac myocytes

^* D. Ekhterae, O. Platoshyn, and S. Zhang contributed equally to thiswork.

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