Atrial AMP-activated protein kinase is critical for prevention of dysregulation of electrical excitability and atrial fibrillation
Kevin N. Su, Yina Ma, Marine Cacheux, Zeki Ilkan, Nour Raad, Grace K. Muller, Xiaohong Wu, Nicole Guerrera, Stephanie L. Thorn, Albert J. Sinusas, Marc Foretz, Benoit Viollet, Joseph G. Akar, Fadi G. Akar, Lawrence H. Young
Kevin N. Su, Yina Ma, Marine Cacheux, Zeki Ilkan, Nour Raad, Grace K. Muller, Xiaohong Wu, Nicole Guerrera, Stephanie L. Thorn, Albert J. Sinusas, Marc Foretz, Benoit Viollet, Joseph G. Akar, Fadi G. Akar, Lawrence H. Young
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Research Article Cardiology

Atrial AMP-activated protein kinase is critical for prevention of dysregulation of electrical excitability and atrial fibrillation

Abstract

Metabolic stress is an important cause of pathological atrial remodeling and atrial fibrillation. AMPK is a ubiquitous master metabolic regulator, yet its biological function in the atria is poorly understood in both health and disease. We investigated the impact of atrium-selective cardiac AMPK deletion on electrophysiological and structural remodeling in mice. Loss of atrial AMPK expression caused atrial changes in electrophysiological properties and atrial ectopic activity prior to the onset of spontaneous atrial fibrillation. Concomitant transcriptional downregulation of connexins and atrial ion channel subunits manifested with delayed left atrial activation and repolarization. The early molecular and electrophysiological abnormalities preceded left atrial structural remodeling and interstitial fibrosis. AMPK inactivation induced downregulation of transcription factors (Mef2c and Pitx2c) linked to connexin and ion channel transcriptional reprogramming. Thus, AMPK plays an essential homeostatic role in atria, protecting against adverse remodeling potentially by regulating key transcription factors that control the expression of atrial ion channels and gap junction proteins.

Authors

Kevin N. Su, Yina Ma, Marine Cacheux, Zeki Ilkan, Nour Raad, Grace K. Muller, Xiaohong Wu, Nicole Guerrera, Stephanie L. Thorn, Albert J. Sinusas, Marc Foretz, Benoit Viollet, Joseph G. Akar, Fadi G. Akar, Lawrence H. Young

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Figure 4

Atrial AMPK deletion prolongs atrial depolarization and causes premature atrial ectopic complexes prior to the development of atrial fibrillation in mice.

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Atrial AMPK deletion prolongs atrial depolarization and causes premature...
Serial cardiac in vivo surface ECGs were performed in AMPK double-KO sarcolipin-Cre Prkaa1fl/fl Prkaa2fl/fl (AMPK-dKO) and littermate control Prkaa1fl/fl Prkaa2fl/fl (CON) mice. AMPK-dKO mice developed prolonged P-wave duration at a young age without altered ventricular conduction time or heart rate. (A) Representative ECGs (lead II) showing P-wave morphology in AMPK-dKO and CON mice at 1 week of age. (B) Representative signal-averaged tracings of 10 consecutive heartbeats used for quantitative electrocardiographic analysis. Vertical black lines denote the start and termination of atrial depolarization (P-wave duration) and ventricular depolarization (QRS complex duration). Scale bars 50 ms. (C) Quantification of P-wave duration, atrial-ventricular conduction time (PR interval), heart rate (HR), and QRS complex duration in mice at 1, 3, and 8 weeks of age. Values are mean ± SEM of n = 6–8. **P < 0.05, ***P < 0.01 versus CON by unpaired Student’s t test with correction for multiple comparisons. (D) Representative example of ectopic premature atrial complex in an AMPK-dKO mouse (denoted by the black arrow). Scale bar: 80 ms.