L532P 和 N588K 人类 ether-a-go-go 相关基因突变在人类心房肌细胞计算模型中的心律失常潜能。

Arrhythmic potency of human ether-a-go-go-related gene mutations L532P and N588K in a computational model of human atrial myocytes.

机构信息

Institute of Biomedical Engineering, Karlsruhe Institute of Technology (KIT), Kaiserstr. 12, 76131 Karlsruhe, Germany.

出版信息

Europace. 2014 Mar;16(3):435-43. doi: 10.1093/europace/eut375.

DOI:10.1093/europace/eut375

PMID:24569898

Abstract

AIMS

Human ether-à-go-go-related gene (hERG) missense mutations N588K and L532P are both associated with atrial fibrillation (AF). However, the underlying gain-of-function mechanism is different. The aim of this computational study is to assess and understand the arrhythmogenic mechanisms of these genetic disorders on the cellular and tissue level as a basis for the improvement of therapeutic strategies.

METHODS AND RESULTS

The IKr formulation of an established model of human atrial myocytes was adapted by using the measurement data of wild-type and mutant hERG channels. Restitution curves of the action potential duration and its slope, effective refractory period (ERP), conduction velocity, reentry wavelength (WL), and the vulnerable window (VW) were determined in a one-dimensional (1D) tissue strand. Moreover, spiral wave inducibility and rotor lifetime in a 2D tissue patch were evaluated. The two mutations caused an increase in IKr regarding both peak amplitude and current integral, whereas the duration during which IKr is active was decreased. The WL was reduced due to a shorter ERP. Spiral waves could be initiated by using mutation models as opposed to the control case. The frequency dependency of the VW was reversed.

CONCLUSION

Both mutations showed an increased arrhythmogenicity due to decreased refractory time in combination with a more linear repolarization phase. The effects were more pronounced for mutation L532P than for N588K. Furthermore, spiral waves presented higher stability and a more regular pattern for L532P. These in silico investigations unveiling differences of mutations affecting the same ion channel may help to advance genotype-guided AF prevention and therapy strategies.

摘要

目的

人类 ether-à-go-go 相关基因（hERG）错义突变 N588K 和 L532P 均与心房颤动（AF）有关。然而，其功能获得的潜在机制是不同的。本计算研究的目的是评估和理解这些遗传疾病在细胞和组织水平上的致心律失常机制，为改进治疗策略提供基础。

方法和结果

使用野生型和突变 hERG 通道的测量数据，对已建立的人心房肌细胞模型的 IKr 公式进行了改编。在一维（1D）组织束中确定了动作电位时程及其斜率、有效不应期（ERP）、传导速度、折返波长（WL）和脆弱窗口（VW）的恢复曲线。此外，评估了 2D 组织贴片中的螺旋波诱导和转子寿命。这两种突变都导致 IKr 的峰值幅度和电流积分增加，而 IKr 活性的持续时间缩短。由于 ERP 缩短，WL 减少。可以使用突变模型而不是对照案例来启动螺旋波。VW 的频率依赖性被反转。

结论

两种突变均由于复律时间缩短以及复极相更线性而导致致心律失常性增加。与 N588K 相比，L532P 的影响更为明显。此外，L532P 的螺旋波呈现更高的稳定性和更规则的模式。这些揭示影响同一离子通道的突变差异的计算机研究可能有助于推进基于基因型的 AF 预防和治疗策略。

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L532P 和 N588K 人类 ether-a-go-go 相关基因突变在人类心房肌细胞计算模型中的心律失常潜能。

Arrhythmic potency of human ether-a-go-go-related gene mutations L532P and N588K in a computational model of human atrial myocytes.

机构信息

出版信息

AIMS

METHODS AND RESULTS

CONCLUSION

目的

方法和结果

结论

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