Cheng Yun-Jiu, Yao Hao, Ji Cheng-Cheng, Chen Xu-Miao, Fan Jun, Liu Li-Juan, Wu Su-Hua
Cell Physiol Biochem. 2018;51(3):1301-1312. doi: 10.1159/000495549. Epub 2018 Nov 27.
BACKGROUND/AIMS: Early repolarization syndrome (ERS) has been recently recognized as early repolarization pattern with idiopathic ventricular fibrillation. However, the genetic background of ERS has not been fully understood.
A Chinese family with sudden cardiac death associated with ERS was investigated. Direct sequencing of ERS susceptibility genes was performed on the proband and family members. Whole-cell patch-clamp methods were used to characterize the mutant channel expressed in HEK 293 cells.
One missense mutation (p. K801T) was found in the hERG (KCNH2 gene) by the direct sequencing of candidate genes. Whole cell voltage clamp studies of the K801T mutation in HEK 293 cells demonstrated a 1.5-fold increase in maximum steady state current (37.2±7.3 vs 20.3±4.4 pA/pF) that occurred at a 20 mV more positive potential compared to the wild type channels. The voltage dependence of inactivation was significantly shifted in the positive voltage direction (WT -59.5±1.4 vs K801T -44.3±1.2 mV). Kinetic analysis revealed slower inactivation rates of K801T, but faster rates of activation and deactivation. The hERG channel blockers tested inhibited K801T-hERG channel in concentration response, and the potencies of these drugs can be rank-ordered as follows: quinidine> disopyramide> sotalol> flecainide.
Our study indicated that the K801T mutation caused the gain of function of hERG channels that may account for the clinical phenotype of ERS. Quinidine and disopyramide could improve the function of K801T-hERG mutant channel, and may be therapeutic options for patients with the K801T hERG mutation.
背景/目的:早期复极综合征(ERS)最近被认为是伴有特发性室颤的早期复极模式。然而,ERS的遗传背景尚未完全明确。
对一个与ERS相关的心脏性猝死中国家系进行调查。对先证者及其家庭成员进行ERS易感基因的直接测序。采用全细胞膜片钳方法对在HEK 293细胞中表达的突变通道进行特性分析。
通过对候选基因的直接测序,在人ether-à-go-go相关基因(hERG,KCNH2基因)中发现一个错义突变(p.K801T)。对HEK 293细胞中K801T突变进行全细胞电压钳研究显示,与野生型通道相比,最大稳态电流增加了1.5倍(37.2±7.3对20.3±4.4 pA/pF),且发生在正20 mV的电位。失活的电压依赖性显著向正电压方向偏移(野生型-59.5±1.4对K801T-44.3±1.2 mV)。动力学分析显示K801T失活速率较慢,但激活和去激活速率较快。所测试的hERG通道阻滞剂以浓度依赖性方式抑制K801T-hERG通道,这些药物的效能排序如下:奎尼丁>丙吡胺>索他洛尔>氟卡尼。
我们的研究表明,K801T突变导致hERG通道功能增强,这可能解释了ERS的临床表型。奎尼丁和丙吡胺可改善K801T-hERG突变通道的功能,可能是K801T hERG突变患者的治疗选择。
