Genetic Ablation of TASK-1 (Tandem of P Domains in a Weak Inward Rectifying K + Channel–Related Acid-Sensitive K + Channel-1) (K 2P 3.1) K + Channels Suppresses Atrial Fibrillation and Prevents Electrical Remodeling-Reference-Cited by-同舟云学术

Genetic Ablation of TASK-1 (Tandem of P Domains in a Weak Inward Rectifying K + Channel–Related Acid-Sensitive K + Channel-1) (K 2P 3.1) K + Channels Suppresses Atrial Fibrillation and Prevents Electrical Remodeling

Published:2019-09 Issue:9 Volume:12 Page:
ISSN:1941-3149
Container-title:Circulation: Arrhythmia and Electrophysiology
language:en
Short-container-title:Circ: Arrhythmia and Electrophysiology

Author:

Schmidt Constanze¹²³,Wiedmann Felix¹²³,Beyersdorf Christoph¹²³,Zhao Zhihan²⁴,El-Battrawy Ibrahim²⁴,Lan Huan²⁴,Szabo Gabor⁵,Li Xin⁴,Lang Siegfried²⁴,Korkmaz-Icöz Sevil⁵,Rapti Kleopatra¹²,Jungmann Andreas¹²,Ratte Antonius¹²³,Müller Oliver J.⁶⁷,Karck Matthias⁵,Seemann Gunnar⁸⁹,Akin Ibrahim²⁴,Borggrefe Martin²⁴,Zhou Xiao-Bo²⁴,Katus Hugo A.¹²³,Thomas Dierk¹²

Affiliation:

1. Department of Cardiology (C.S., F.W., C.B., K.R., A.J., A.R., H.A.K., D.T.), University of Heidelberg.

2. DZHK (German Centre for Cardiovascular Research), partner site Heidelberg/Mannheim (C.S., F.W., C.B., Z.Z., I.E.-B., H.L., S.L., K.R., A.J., A.R., I.A., M.B., X.-B.Z., H.A.K., D.T.), University of Heidelberg.

3. HCR (Heidelberg Center for Heart Rhythm Disorders) (C.S., F.W., C.B., A.R., H.A.K., D.T.), University Hospital Heidelberg.

4. First Department of Medicine, University Medical Center Mannheim (Z.Z., I.E.-B., H.L., X.L., S.L., I.A., M.B., X.-B.Z.).

5. Department of Cardiac Surgery (G. Szabo, S.K.-I., M.K.), University Hospital Heidelberg.

6. Department of Internal Medicine III (O.J.M.), University of Kiel.

7. DZHK, partner site Hamburg/Kiel/Lübeck (O.J.M.), University of Kiel.

8. Institute for Experimental Cardiovascular Medicine, University Heart Centre Freiburg/Bad Krozingen (G. Seemann).

9. Faculty of Medicine, Albert-Ludwigs University of Freiburg, Germany (G. Seemann).

Abstract

Background: Despite an increasing understanding of atrial fibrillation (AF) pathophysiology, translation into mechanism-based treatment options is lacking. In atrial cardiomyocytes of patients with chronic AF, expression, and function of tandem of P domains in a weak inward rectifying TASK-1 (K + channel–related acid-sensitive K + channel-1) (K 2P 3.1) atrial-specific 2-pore domain potassium channels is enhanced, resulting in action potential duration shortening. TASK-1 channel inhibition prevents action potential duration shortening to maintain values observed among sinus rhythm subjects. The present preclinical study used a porcine AF model to evaluate the antiarrhythmic efficacy of TASK-1 inhibition by adeno-associated viral anti–TASK-1-siRNA (small interfering RNA) gene transfer. Methods: AF was induced in domestic pigs by atrial burst stimulation via implanted pacemakers. Adeno-associated viral vectors carrying anti–TASK-1-siRNA were injected into both atria to suppress TASK-1 channel expression. After the 14-day follow-up period, porcine cardiomyocytes were isolated from right and left atrium, followed by electrophysiological and molecular characterization. Results: AF was associated with increased TASK-1 transcript, protein and ion current levels leading to shortened action potential duration in atrial cardiomyocytes compared to sinus rhythm controls, similar to previous findings in humans. Anti–TASK-1 adeno-associated viral application significantly reduced AF burden in comparison to untreated AF pigs. Antiarrhythmic effects of anti–TASK-1-siRNA were associated with reduction of TASK-1 currents and prolongation of action potential durations in atrial cardiomyocytes to sinus rhythm values. Conclusions Adeno-associated viral-based anti–TASK-1 gene therapy suppressed AF and corrected cellular electrophysiological remodeling in a porcine model of AF. Suppression of AF through selective reduction of TASK-1 currents represents a new option for antiarrhythmic therapy.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Physiology (medical),Cardiology and Cardiovascular Medicine

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