评估T634S-hERG突变的促心律失常作用：来自模拟研究的见解。

Evaluating pro-arrhythmogenic effects of the T634S-hERG mutation: insights from a simulation study.

作者信息

Hu Wei, Zhang Wenfeng, Zhang Kevin, Al-Moubarak Ehab, Zhang Yihong, Harmer Stephen C, Hancox Jules C, Zhang Henggui

机构信息

Biological Physics Group, Department of Physics and Astronomy, University of Manchester, Manchester M13 9PL, UK.

College of Computer and Information Science, Chongqing Normal University, Chongqing, People's Republic of China.

出版信息

Interface Focus. 2023 Dec 15;13(6):20230035. doi: 10.1098/rsfs.2023.0035. eCollection 2023 Dec 6.

DOI:10.1098/rsfs.2023.0035

PMID:38106919

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10722218/

Abstract

A mutation to serine of a conserved threonine (T634S) in the hERG K channel S6 pore region has been identified as a variant of uncertain significance, showing a loss-of-function effect. However, its potential consequences for ventricular excitation and arrhythmogenesis have not been reported. This study evaluated possible functional effects of the T634S-hERG mutation on ventricular excitation and arrhythmogenesis by using multi-scale computer models of the human ventricle. A Markov chain model of the rapid delayed rectifier potassium current (I) was reconstructed for wild-type and T634S-hERG mutant conditions and incorporated into the ten Tusscher . models of human ventricles at cell and tissue (1D, 2D and 3D) levels. Possible functional impacts of the T634S-hERG mutation were evaluated by its effects on action potential durations (APDs) and their rate-dependence (APDr) at the cell level; and on the QT interval of pseudo-ECGs, tissue vulnerability to unidirectional conduction block (VW), spiral wave dynamics and repolarization dispersion at the tissue level. It was found that the T634S-hERG mutation prolonged cellular APDs, steepened APDr, prolonged the QT interval, increased VW, destablized re-entry and augmented repolarization dispersion across the ventricle. Collectively, these results imply potential pro-arrhythmic effects of the T634S-hERG mutation, consistent with LQT2.

摘要

人乙醚相关基因钾通道（hERG K通道）S6孔区保守的苏氨酸突变为丝氨酸（T634S），已被鉴定为意义未明的变异体，表现出功能丧失效应。然而，其对心室兴奋和心律失常发生的潜在影响尚未见报道。本研究通过使用人心室的多尺度计算机模型，评估T634S-hERG突变对心室兴奋和心律失常发生的可能功能影响。针对野生型和T634S-hERG突变体条件重建了快速延迟整流钾电流（I）的马尔可夫链模型，并将其纳入细胞和组织（1D、2D和3D）水平的十种人类心室Tusscher模型中。通过T634S-hERG突变对细胞水平动作电位时程（APD）及其频率依赖性（APDr）的影响，以及对组织水平伪心电图QT间期、组织对单向传导阻滞的易损性（VW）、螺旋波动力学和复极离散的影响，评估T634S-hERG突变可能的功能影响。研究发现，T634S-hERG突变延长了细胞APD，使APDr变陡，延长了QT间期，增加了VW，破坏了折返并增加了整个心室的复极离散。总体而言，这些结果暗示T634S-hERG突变具有潜在的促心律失常作用，与长QT综合征2型（LQT2）一致。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6bed/10722218/d9c50e733682/rsfs20230035f01.jpg

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评估T634S-hERG突变的促心律失常作用：来自模拟研究的见解。

Evaluating pro-arrhythmogenic effects of the T634S-hERG mutation: insights from a simulation study.

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