Citation

  • Authors: Royer, A., Demolombe, S., El Harchi, A., Le Quang, K., Piron, J., Toumaniantz, G., Mazurais, D., Bellocq, C., Lande, G., Terrenoire, C., Motoike, H. K., Chevallier, J. C., Loussouarn, G., Clancy, C. E., Escande, D., Charpentier, F.
  • Year: 2005
  • Journal: Cardiovasc Res 65 128-37
  • Applications: in vitro / DNA / jetPEI
  • Cell type: COS-7
    Description: African green monkey kidney cells
    Known as: COS, COS7

Abstract

OBJECTIVE: The K(+) channel encoded by the human ether-a-go-go-related gene (HERG) is crucial for repolarization in the human heart. In order to investigate the impact of HERG current (I(Kr)) on the incidence of cardiac arrhythmias, we generated a transgenic mouse expressing HERG specifically in the heart. METHODS AND RESULTS: ECG recordings at baseline showed no obvious difference between transgenic and wild-type (WT) mice with the exception of the T wave, which was more negative in transgenic mice than in WT mice. E4031 (20 mg/kg) prolonged the QTc interval and flattened the T wave in transgenic mice, but not in WT mice. Injection of BaCl(2) (25 mg/kg) induced short runs of ventricular tachycardia in 9/10 WT mice, but not in transgenic animals. Atrial pacing reproducibly induced atrial tachyarrhythmias in 11/15 WT mice. In contrast, atrial arrhythmia was inducible in only 2/11 transgenic mice. When pretreated with dofetilide (10 mg/kg), transgenic mice were as sensitive to experimental arrhythmias as WT mice. Microelectrode studies showed that atrial action potentials have a steeper slope of duration-rate adaptation in WT than in transgenic mice. Transgenic mice were also characterized by a post-repolarization refractoriness, which could result from the substantial amount of I(Kr) subsisting after repolarization as assessed with action potential-clamp experiments and simulations with a model of the transgenic mouse action potential. CONCLUSION: HERG expression in the mouse heart can protect against experimental induction of arrhythmias. This is the first report of such a protective effect of HERG in vivo.

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