与长QT综合征相关的一名婴儿猝死综合征（SIDS）婴儿中新型SCN5A突变S1333Y的生物物理特征

Biophysical characterization of a new SCN5A mutation S1333Y in a SIDS infant linked to long QT syndrome.

作者信息

Huang Hai, Millat Gilles, Rodriguez-Lafrasse Claire, Rousson Robert, Kugener Béatrice, Chevalier Philippe, Chahine Mohamed

机构信息

Le Centre de Recherche Université Laval Robert-Giffard, Québec City, QC, Canada.

出版信息

FEBS Lett. 2009 Mar 4;583(5):890-6. doi: 10.1016/j.febslet.2009.02.007. Epub 2009 Feb 10.

DOI:10.1016/j.febslet.2009.02.007

PMID:19302788

Abstract

Various entities and genetic etiologies, including inherited long QT syndrome type 3 (LQT3), contribute to sudden infant death syndrome (SIDS). The goal of our research was to biophysically characterize a new SCN5A mutation (S1333Y) in a SIDS infant. S1333Y channels showed the gain of Na(+) channel function characteristic of LQT3, including a persistent inward Na(+) current and an enhanced window current that was generated by a -8 mV shift in activation and a +7 mV shift in inactivation. The correlation between the biophysical data and arrhythmia susceptibility suggested that the SIDS was secondary to the LQT3-associated S1333Y mutation.

摘要

包括遗传性3型长QT综合征（LQT3）在内的各种因素和遗传病因都与婴儿猝死综合征（SIDS）有关。我们研究的目的是从生物物理学角度对一名SIDS婴儿中的一种新的SCN5A突变（S1333Y）进行特征描述。S1333Y通道表现出LQT3所特有的钠通道功能增强，包括持续性内向钠电流以及因激活电位负移8 mV和失活电位正移7 mV而产生的增强型窗电流。生物物理学数据与心律失常易感性之间的相关性表明，该SIDS是由LQT3相关的S1333Y突变继发导致的。

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与长QT综合征相关的一名婴儿猝死综合征（SIDS）婴儿中新型SCN5A突变S1333Y的生物物理特征

Biophysical characterization of a new SCN5A mutation S1333Y in a SIDS infant linked to long QT syndrome.

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