Transmural expression of transient outward potassium current subunits in normal and failing canine and human hearts

doi:10.1113/jphysiol.2004.075861

Transmural expression of transient outward potassium current subunits in normal and failing canine and human hearts

Stephen Zicha^1,2, Ling Xiao^1,2, Sara Stafford¹, Tae Joon Cha¹, Wei Han¹, Andras Varro³ and Stanley Nattel^1,2

¹ Departments of Medicine and Research Center, Montreal Heart Institute and University of Montreal, Montreal, Quebec
² Departments of Pharmacology and Therapeutics, McGill University, Montreal, Quebec, Canada
³ Department of Pharmacology and Pharmacotherapy, University of Szeged, Hungary

The transient outward current (I_to), an important contributorto transmural electrophysiological heterogeneity, is significantlyremodelled in congestive heart failure (CHF). The molecularbases of transmural I_to gradients and CHF-dependent ionic remodellingare incompletely understood. To elucidate these issues, we studiedmRNA and protein expression of Kv4.3 and KChIP2, the principalalpha and beta subunits believed to form I_to, in epicardialand endocardial tissues and in isolated cardiomyocytes fromcontrol dogs and dogs with CHF induced by 240 beats min^–1ventricular tachypacing. CHF decreased I_to density in both epicardiumand endocardium (by 73 and 55% at +60 mV, respectively), withouta significant change in relative current density (endocardium/epicardium0.11 control, 0.17 CHF). There were transmural gradients inmRNA expression of both Kv4.3 (endocardium/epicardium ratio0.3 under control conditions) and KChIP2 (endocardium/epicardiumratio 0.2 control), which remained in the presence of CHF (Kv4.3endocardium/epicardium ratio 0.4; KChIP2 0.4). There were qualitativelysimilar protein expression gradients in human and canine cardiactissues and isolated canine cardiomyocytes; however, the KChIP2gradient was only detectable with a highly selective monoclonalantibody and closely approximated the I_to density gradient.Kv4.3 mRNA expression was reduced by CHF, but KChIP2 mRNA wasnot significantly changed. CHF decreased Kv4.3 protein expressionin canine cardiac tissues and cardiomyocytes, as well as interminally failing human heart tissue samples, but KChIP2 proteinwas not down-regulated in any of the corresponding sample sets.We conclude that both Kv4.3 and KChIP2 may contribute to epicardial–endocardialgradients in I_to, and that I_to down-regulation in human andcanine CHF appears due primarily to changes in Kv4.3.

(Received 20 September 2004; accepted after revision 19 October 2004; first published online 21 October 2004)
Corresponding author S. Nattel: Montreal Heart Institute Research Center, 5000 Belanger Street East, Montreal, Quebec H1T 1C8, Canada. Email: stanley.nattel{at}icm-mhi.org

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