Cellular consequences of HERG mutations in the long QT syndrome: precursors to sudden cardiac death

doi:10.1016/S0008-6363(00)00293-5

Cardiovascular Research 2001 50(2):301-313; doi:10.1016/S0008-6363(00)00293-5
© 2001 by European Society of Cardiology

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Cellular consequences of HERG mutations in the long QT syndrome: precursors to sudden cardiac death

Colleen E. Clancy and Yoram Rudy^*

Cardiac Bioelectricity Research and Training Center, Department of Physiology and Biophysics, Department of Biomedical Engineering, 509 Wickenden Building, Case Western Reserve University, Cleveland, OH 44106-7207, USA

^* Corresponding author. Tel.: +1-216-368-4051; fax: +1-216-368-8672 yxr{at}po.cwru.edu

Background: A variety of mutations in HERG, the major subunitof the rapidly activating component of the cardiac delayed rectifierI_Kr, have been found to underlie the congenital Long-QT syndrome,LQT2. LQT2 may give rise to severe arrhythmogenic phenotypesleading to sudden cardiac death. Objective: We attempt to elucidatethe mechanisms by which heterogeneous LQT2 genotypes can leadto prolongation of the action potential duration (APD) and consequentlythe QT interval on the ECG. Methods: We develop Markovian modelsof wild-type (WT) and mutant I_Kr channels and incorporate thesemodels into a comprehensive model of the cardiac ventricularcell. Results: Using this virtual transgenic cell model, wedescribe the effects of HERG mutations on the cardiac ventricularaction potential (AP) and provide insight into the mechanismby which each defect results in a net loss of repolarizing currentand prolongation of APD. Conclusions: This study demonstrateswhich mutations can prolong APD sufficiently to generate earlyafterdepolarizations (EADs), which may trigger life-threateningarrhythmias. The severity of the phenotype is shown to dependon the specific kinetic changes and how they affect I_Kr duringthe time course of the action potential. Clarifying how defectsin HERG can lead to impaired cellular electrophysiology canimprove our understanding of the link between channel structureand cellular function.

KEYWORDS Arrhythmia (mechanisms); Computer modelling; K-channel; Long QT syndrome; Sudden death; Ventricular arrhythmias

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