Literature DB >> 17118339

Characterization of the cardiac sodium channel SCN5A mutation, N1325S, in single murine ventricular myocytes.

Sandro L Yong1, Ying Ni, Teng Zhang, David J Tester, Michael J Ackerman, Qing K Wang.   

Abstract

The N(1325)S mutation in the cardiac sodium channel gene SCN5A causes the type-3 long-QT syndrome but the arrhythmogenic trigger associated with N(1325)S has not been characterized. In this study, we investigated the triggers for cardiac events in the expanded N(1325)S family. Among 11 symptomatic patients with document triggers, six died suddenly during sleep or while sitting (bradycardia-induced trigger), three died suddenly, and two developed syncope due to stress and excitement (non-bradycardia-induced). Patch-clamping studies revealed that the late sodium current (I(Na,L)) generated by mutation N(1325)S in ventricular myocytes from TG-NS/LQT3 mice was reduced with increased pacing, which explains bradycardia-induced mortalities in the family. The non-bradycardic triggers are related to the finding that APD became prolonged and unstable at increasing rates, often with alternating repolarization phases which was corrected with verapamil. This implies that Ca2+ influx and intracellular Ca2+ ([Ca2+]i) ions are involved and that [Ca2+]i inhomogeneity may be the underlying mechanisms behind non-bradycardia LQT3 arrhythmogenesis associated with mutation N(1325)S.

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Year:  2006        PMID: 17118339      PMCID: PMC1773013          DOI: 10.1016/j.bbrc.2006.11.019

Source DB:  PubMed          Journal:  Biochem Biophys Res Commun        ISSN: 0006-291X            Impact factor:   3.575


  20 in total

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3.  Role of calcium cycling versus restitution in the mechanism of repolarization alternans.

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10.  Small GTPases SAR1A and SAR1B regulate the trafficking of the cardiac sodium channel Nav1.5.

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