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导致Brugada综合征和长QT综合征表型的钠离子通道突变:机制的模拟研究

Na(+) channel mutation that causes both Brugada and long-QT syndrome phenotypes: a simulation study of mechanism.

作者信息

Clancy Colleen E, Rudy Yoram

机构信息

Cardiac Bioelectricity Research and Training Center, Department of Biomedical Engineering, Case Western Reserve University, Cleveland, Ohio 44106-7207, USA.

出版信息

Circulation. 2002 Mar 12;105(10):1208-13. doi: 10.1161/hc1002.105183.

DOI:10.1161/hc1002.105183
PMID:11889015
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1997279/
Abstract

BACKGROUND

Complex physiological interactions determine the functional consequences of gene abnormalities and make mechanistic interpretation of phenotypes extremely difficult. A recent example is a single mutation in the C terminus of the cardiac Na(+) channel, 1795insD. The mutation causes two distinct clinical syndromes, long QT (LQT) and Brugada, leading to life-threatening cardiac arrhythmias. Coexistence of these syndromes is seemingly paradoxical; LQT is associated with enhanced Na(+) channel function, and Brugada with reduced function.

METHODS AND RESULTS

Using a computational approach, we demonstrate that the 1795insD mutation exerts variable effects depending on the myocardial substrate. We develop Markov models of the wild-type and 1795insD cardiac Na(+) channels. By incorporating the models into a virtual transgenic cell, we elucidate the mechanism by which 1795insD differentially disrupts cellular electrical behavior in epicardial and midmyocardial cell types. We provide a cellular mechanistic basis for the ECG abnormalities observed in patients carrying the 1795insD gene mutation.

CONCLUSIONS

We demonstrate that the 1795insD mutation can cause both LQT and Brugada syndromes through interaction with the heterogeneous myocardium in a rate-dependent manner. The results highlight the complexity and multiplicity of genotype-phenotype relationships, and the usefulness of computational approaches in establishing a mechanistic link between genetic defects and functional abnormalities.

摘要

背景

复杂的生理相互作用决定了基因异常的功能后果,使得对表型进行机制性解释极为困难。最近的一个例子是心脏钠通道C末端的一个单基因突变,即1795insD。该突变导致两种不同的临床综合征,长QT综合征(LQT)和Brugada综合征,可引发危及生命的心律失常。这些综合征的共存看似自相矛盾;LQT与钠通道功能增强相关,而Brugada综合征则与功能降低相关。

方法与结果

我们采用计算方法证明,1795insD突变根据心肌底物发挥不同作用。我们构建了野生型和1795insD心脏钠通道的马尔可夫模型。通过将这些模型整合到虚拟转基因细胞中,我们阐明了1795insD以不同方式破坏心外膜和心肌中层细胞类型的细胞电行为的机制。我们为携带1795insD基因突变的患者所观察到的心电图异常提供了细胞机制基础。

结论

我们证明,1795insD突变可通过与异质性心肌以心率依赖的方式相互作用,导致LQT和Brugada综合征。这些结果凸显了基因型-表型关系的复杂性和多样性,以及计算方法在建立遗传缺陷与功能异常之间机制联系方面的实用性。

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