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心脏钠通道第二结构域中一个新的三碱基对缺失导致布加综合征。

A novel three base-pair deletion in domain two of the cardiac sodium channel causes Brugada syndrome.

作者信息

Tan Boon Yew, Wang Luokai, Uttamchandani Mahesh, Barajas-Martinez Hector, Dumaine Robert, Morin Nathalie, Ching Chi Keong, Ho Kah Leng, Chong Daniel Thuan Tee, Chow Weien, Yap Eric Peng Huat, Moochhala Shabbir, Hu Dan, Yong Rita Yu Yin, Teo Wee Siong

机构信息

National Heart Centre Singapore, 5 Hospital Drive, Singapore 169609.

Defence Medical and Environmental Research Institute, DSO National Laboratories, 27 Medical Drive, Singapore 117510; Department of Biological Sciences and Department of Chemistry, National University of Singapore, 14 Science Drive 4, Singapore 117543.

出版信息

J Electrocardiol. 2018 Jul-Aug;51(4):667-673. doi: 10.1016/j.jelectrocard.2018.03.009. Epub 2018 Mar 21.

DOI:10.1016/j.jelectrocard.2018.03.009
PMID:29997009
Abstract

INTRODUCTION

Mutations within SCN5A are found in a significant proportion (15-30%) of Brugada syndrome (BrS) cases and impair sodium transport across excitable cardiac cells that mediate ventricular contractions. Genetic testing offers a means to clinically assess and manage affected individuals and their family members.

METHODS AND RESULTS

The proband at age 44 years old exhibited a syncopal event during exercise, and presented later with a spontaneous type-I BrS pattern on 12‑lead resting electrocardiogram (ECG). Mutational analysis performed across all SCN5A exons revealed a unique three base-pair deletion p.M741_T742delinsI (c.2223_2225delGAC), in a heterozygous state in the proband and 2 siblings. This mutation was not seen in a cohort of 105 ethnicity-matched controls or in public genome databases. Patch clamp electrophysiology study conducted in TSA201 cells showed an abolishment of sodium current (I). The proband, and several relatives, also harboured a known SCN5A variant, p.R1193Q (c.3578G>A).

CONCLUSION

Our study has demonstrated the deleterious effect of a novel SCN5A mutation p.M741_T742delinsI (c.2223_2225delGAC). The findings highlight the complex effects of gender and age in phenotype manifestation. It also offers insights into improving the long-term management of BrS, and the utility of cascade genetic screening for risk stratification.

摘要

引言

在相当比例(15%-30%)的Brugada综合征(BrS)病例中发现了SCN5A基因的突变,这些突变会损害介导心室收缩的可兴奋心脏细胞上的钠转运。基因检测为临床评估和管理受影响的个体及其家庭成员提供了一种方法。

方法与结果

先证者为一名44岁男性,在运动期间出现晕厥事件,随后在12导联静息心电图(ECG)上呈现出自发性I型BrS图形。对所有SCN5A外显子进行的突变分析显示,先证者及其2名兄弟姐妹存在一种独特的三个碱基对缺失p.M741_T742delinsI(c.2223_2225delGAC),处于杂合状态。在105名种族匹配的对照人群或公共基因组数据库中未发现该突变。在TSA201细胞中进行的膜片钳电生理研究显示钠电流(I)消失。先证者及几名亲属还携带一种已知的SCN5A变体p.R1193Q(c.3578G>A)。

结论

我们的研究证明了一种新型SCN5A突变p.M741_T742delinsI(c.2223_2225delGAC)的有害作用。研究结果突出了性别和年龄在表型表现中的复杂影响。它还为改善BrS的长期管理以及级联基因筛查在风险分层中的应用提供了见解。

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