Clinical, Genetic, and Biophysical Characterization of SCN5A Mutations Associated With Atrioventricular Conduction Block

doi:10.1161/hc0302.102592

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Circulation. 2002;105:341-346
doi: 10.1161/hc0302.102592

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Clinical, Genetic, and Biophysical Characterization of SCN5A Mutations Associated With Atrioventricular Conduction Block

Dao W. Wang, MD; Prakash C. Viswanathan, PhD; Jeffrey R. Balser, MD, PhD; Alfred L. George, Jr, MD; D. Woodrow Benson, MD, PhD

From the Departments of Pharmacology (D.W.W., J.R.B., A.L.G.), Anesthesiology (P.C.V., J.R.B.), and Medicine (A.L.G.), Vanderbilt University School of Medicine, Nashville, Tenn, and Department of Pediatrics (D.W.B.), Medical University of South Carolina, Charleston.

Correspondence to D. Woodrow Benson, MD, PhD, Division of Cardiology, OSB 4, Children’s Hospital Medical Center, 3333 Burnet Avenue, Cincinnati, OH 45229-3039. E-mail woody.benson{at}chmcc.org

Background— Three distinct cardiac arrhythmia disorders,the long-QT syndrome, Brugada syndrome, and conduction systemdisease, have been associated with heterozygous mutations inthe cardiac voltage-gated sodium channel ${alpha}$ -subunit gene (SCN5A).We present clinical, genetic, and biophysical features of 2new SCN5A mutations that result in atrioventricular (AV) conductionblock.

Methods and Results— SCN5A was used as a candidate genein 2 children with AV block. Molecular genetic studies revealedG to A transition mutations that resulted in the substitutionof serine for glycine (G298S) in the domain I S5-S6 loop andasparagine for aspartic acid (D1595N) within the S3 segmentof domain IV. The functional consequences of G298S and D1595Nwere assessed by whole-cell patch clamp recording of recombinantmutant channels coexpressed with the ß1 subunit ina cultured cell line (tsA201). Both mutations impair fast inactivationbut do not exhibit sustained non-inactivating currents. Themutations also reduce sodium current density and enhance slowerinactivation components. Action potential simulations predictthat this combination of biophysical abnormalities will significantlyslow myocardial conduction velocity.

Conclusions— A distinct pattern of biophysical abnormalitiesnot previously observed for any other SCN5A mutant have beenrecognized in association with AV block. These data provideinsight into the distinct clinical phenotypes resulting frommutation of a single ion channel.

Key Words: arrhythmia • bundle-branch block • genetics • long-QT syndrome

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				A Brucato, A Jonzon, D Friedman, L D Allan, G Vignati, M Gasparini, J I Stein, S Montella, M Michaelsson, and J Buyon Proposal for a new definition of congenital complete atrioventricular block Lupus, June 1, 2003; 12(6): 427 - 435. [Abstract] [PDF]

				C. E. Clancy, M. Tateyama, H. Liu, X. H.T. Wehrens, and R. S. Kass Non-Equilibrium Gating in Cardiac Na+ Channels: An Original Mechanism of Arrhythmia Circulation, May 6, 2003; 107(17): 2233 - 2237. [Abstract] [Full Text] [PDF]

Clinical Investigation and Reports

Clinical, Genetic, and Biophysical Characterization of SCN5A Mutations Associated With Atrioventricular Conduction Block

				H. L Tan, C. R Bezzina, J. P.P Smits, A. O Verkerk, and A. A.M Wilde Genetic control of sodium channel function Cardiovasc Res, March 15, 2003; 57(4): 961 - 973. [Abstract] [Full Text] [PDF]

				E. Moric, E. Herbert, M. Trusz-Gluza, A. Filipecki, U. Mazurek, and T. Wilczok The implications of genetic mutations in the sodium channel gene (SCN5A) Europace, January 1, 2003; 5(4): 325 - 334. [Abstract] [Full Text] [PDF]

				H. Morita, K. Kusano-Fukushima, S. Nagase, Y. Fujimoto, K. Hisamatsu, H. Fujio, K. Haraoka, M. Kobayashi, S. T. Morita, K. Nakamura, et al. Atrial fibrillation and atrial vulnerability in patients with Brugada syndrome J. Am. Coll. Cardiol., October 16, 2002; 40(8): 1437 - 1444. [Abstract] [Full Text] [PDF]