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Original Articles

Mutations in Sodium Channel β1- and β2-Subunits Associated With Atrial Fibrillation

Hiroshi Watanabe, MD, PhD; Dawood Darbar, MD; Daniel W. Kaiser, MD; Kim Jiramongkolchai, BSc; Sameer Chopra, PhD; Brian S. Donahue, MD, PhD; Prince J. Kannankeril, MD and Dan M. Roden, MD

From the Departments of Medicine (H.W., D.D., D.K., K.J., S.C., D.M.R.), Anesthesiology (B.S.D.), Pediatrics (P.J.K.), and Pharmacology (D.M.R.), Vanderbilt University School of Medicine, Nashville, Tenn; and Division of Cardiology (H.W.), Niigata University School of Medicine, Niigata, Japan.

Correspondence Dan M. Roden, MD, Oates Institute for Experimental Therapeutics, Vanderbilt University School of Medicine, 2215B Garland Ave, 1285 MRBIV Light Hall, Nashville, TN 37232-0575. E-mail dan.roden{at}vanderbilt.edu

Received March 11, 2008; accepted January 12, 2009.

Background— We and others have reported mutations in the cardiac predominant sodium channel gene SCN5A in patients with atrial fibrillation (AF). We also have reported that SCN1B is associated with Brugada syndrome and isolated cardiac conduction disease. We tested the hypothesis that mutations in the 4 sodium channel β-subunit genes SCN1B–SCN4B contribute to AF susceptibility.

Methods and Results— Screening for mutations in the 4 β-subunit genes was performed in 480 patients with AF (118 patients with lone AF and 362 patients with AF and cardiovascular disease) and 548 control subjects (188 ethnically defined anonymized subjects and 360 subjects without AF). The effects of mutant β-subunits on SCN5A mediated currents were studied using electrophysiological studies. We identified 2 nonsynonymous variants in SCN1B (resulting in R85H, D153N) and 2 in SCN2B (R28Q, R28W) in patients with AF. These occur at residues highly conserved across mammals and were absent in control subjects. In 3 of 4 mutation carriers, the ECGs showed saddleback-type ST-segment elevation in the right precordial leads. Transcripts encoding both SCN1B and SCN2B were detected in human atrium and ventricle. In heterologous expression studies using Chinese hamster ovary cells, the mutant β1- or β2-subunits reduced SCN5A-mediated current and altered channel gating compared with coexpression of wild-type subunits.

Conclusions— Loss of function mutations in sodium channel β-subunits were identified in patients with AF and were associated with a distinctive ECG phenotype. These findings further support the hypothesis that decreased sodium current enhances AF susceptibility.

Key Words: arrhythmia • sodium channel • electrophysiology • genetics • mutations • atrial fibrillation

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CLINICAL PERSPECTIVE

Donna K. Arnett, PhD, was Guest Editor for this article.

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