Coordinated down-regulation of KCNQ1 and KCNE1 expression contributes to reduction of IKs in canine hypertrophied hearts

doi:10.1016/S0008-6363(02)00717-4

Cardiovascular Research 2003 57(2):486-496; doi:10.1016/S0008-6363(02)00717-4
© 2003 by European Society of Cardiology

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Coordinated down-regulation of KCNQ1 and KCNE1 expression contributes to reduction of I_Ks in canine hypertrophied hearts

C Ramakers^a, M.A Vos^a, P.A Doevendans^a, M Schoenmakers^a, Y.S Wu^b, S Scicchitano^b, A Iodice^b, G.P Thomas^b, C Antzelevitch^b and R Dumaine^b^,*

^aCardiology, Cardiovascular Research Institute, Academic Hospital Maastricht, Maastricht, The Netherlands
^bCardiology Group, Department of Molecular Biology, Masonic Medical Research Laboratory, 2150 Bleecker Street, Utica, NY 13501, USA

^* Corresponding author. Tel.: +1-315-735-2217; fax: +1-315-735-5648. rdumaine{at}mmrl.edu

Objective: In animal models of hypertrophy, electrical remodelinggiving rise to QT prolongation occurs rapidly and is associatedwith the development of torsade de pointes (TdP) arrhythmiasand sudden death. Chronic AV block (CAVB)-induced hypertrophyin dogs has been associated with a reduction in the slow component(I_Ks) of the delayed rectifier potassium current (I_K), whichcontributes to a prolongation of ventricular repolarization,the development of an acquired form of long QT, and the substratefor triggered activity and TdP. The present study was designedto probe the molecular basis for the decrease in I_Ks by studyingthe characteristics of KCNE1 and KCNQ1, the putative genes responsiblefor formation of the channel. Methods and Results: Using a combinationof Northern blot, competitive multiplex PCR and immunoblot assays,we found that CAVB reduces KCNE1 and KCNQ1 RNA in the canineventricles by 70 and 80%, respectively. Protein levels of KCNE1and KCNQ1 were reduced by 60 and 50%, respectively. We alsodemonstrate at the molecular level the basis for inter-ventriculardifference in I_Ks density previously reported in hearts of normaldogs and show the basis for reduction of this difference inthe CAVB dog. Conclusions: Our results indicate that the CAVB-inducedreduction in I_Ks is due to a down-regulation of KCNE1 and KCNQ1transcription. The data suggest that electrical remodeling ofthe cardiac ventricle during hypertrophy involves regulationof the gene expression through modulation of transcriptionaland translational regulatory pathways. The reduction in KCNE1and KCNQ1 expression increases the dependence of ventricularrepolarization on the rapid component of I_K and may potentiatethe action of Class III antiarrhythmic agents.

KEYWORDS Arrhythmia (mechanisms); Gene expression; Hypertrophy; K-channel; Long QT syndrome; Remodeling; Repolarization; Ventricular arrhythmias

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