Biophysical characterization of the short QT mutation hERG-N588K reveals a mixed gain-and loss-of-function

Abstract

The short QT syndrome is a newly discovered pro-arrhythmic condition, which may cause ventricular fibrillation and sudden death. Short QT can originate from the apparent gain-of-function mutation N588K in the hERG potassium channel that conducts repolarising I Kr current. The present study describes a profound biophysical characterization of HERG-N588K revealing both loss-of-function and gain-of-function properties of the mutant. Experiments were conducted after heterologous expression in both Xenopus laevis oocytes and mammalian cells and at both room temperature and at 37 °C. Also the impact of the β-subunits KCNE2 was investigated. The most prominent loss-of-function property of HERG-N588K was reduced tail currents but also the activation properties was compromised. Based on these biophysical results we suggest that the general view of HERG-N588K being a gain-of-function is modified to a mixed gain- and loss-of-function mutation. This might also have impact on the pathological picture of the HERG-N588K channels ability to trigger arrhythmic events. Copyright © 2008 S. Karger AG.