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TASK-4通道功能获得性突变与严重心脏传导障碍。

Gain-of-function mutation in TASK-4 channels and severe cardiac conduction disorder.

作者信息

Friedrich Corinna, Rinné Susanne, Zumhagen Sven, Kiper Aytug K, Silbernagel Nicole, Netter Michael F, Stallmeyer Birgit, Schulze-Bahr Eric, Decher Niels

机构信息

Department of Cardiovascular Medicine, Institute for Genetics of Heart Diseases (IfGH), University Hospital Münster, Münster, Germany.

Institute of Physiology and Pathophysiology, Vegetative Physiology, University of Marburg, Marburg, Germany.

出版信息

EMBO Mol Med. 2014 Jul;6(7):937-51. doi: 10.15252/emmm.201303783.

DOI:10.15252/emmm.201303783
PMID:24972929
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4119356/
Abstract

Analyzing a patient with progressive and severe cardiac conduction disorder combined with idiopathic ventricular fibrillation (IVF), we identified a splice site mutation in the sodium channel gene SCN5A. Due to the severe phenotype, we performed whole-exome sequencing (WES) and identified an additional mutation in the KCNK17 gene encoding the K2P potassium channel TASK-4. The heterozygous change (c.262G>A) resulted in the p.Gly88Arg mutation in the first extracellular pore loop. Mutant TASK-4 channels generated threefold increased currents, while surface expression was unchanged, indicating enhanced conductivity. When co-expressed with wild-type channels, the gain-of-function by G88R was conferred in a dominant-active manner. We demonstrate that KCNK17 is strongly expressed in human Purkinje cells and that overexpression of G88R leads to a hyperpolarization and strong slowing of the upstroke velocity of spontaneously beating HL-1 cells. Thus, we propose that a gain-of-function by TASK-4 in the conduction system might aggravate slowed conductivity by the loss of sodium channel function. Moreover, WES supports a second hit-hypothesis in severe arrhythmia cases and identified KCNK17 as a novel arrhythmia gene.

摘要

在分析一名患有进行性严重心脏传导障碍合并特发性室颤(IVF)的患者时,我们在钠通道基因SCN5A中发现了一个剪接位点突变。由于该患者表型严重,我们进行了全外显子组测序(WES),并在编码K2P钾通道TASK - 4的KCNK17基因中发现了另一个突变。杂合变化(c.262G>A)导致第一个细胞外孔环中出现p.Gly88Arg突变。突变的TASK - 4通道产生的电流增加了三倍,而表面表达没有变化,表明导电性增强。当与野生型通道共表达时,G88R的功能获得以显性激活的方式赋予。我们证明KCNK17在人浦肯野细胞中强烈表达,并且G88R的过表达导致自发搏动的HL - 1细胞超极化以及动作电位上升速度强烈减慢。因此,我们提出传导系统中TASK - 4的功能获得可能会加重因钠通道功能丧失而导致的传导减慢。此外,WES支持严重心律失常病例中的二次打击假说,并将KCNK17鉴定为一个新的心律失常基因。

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