一种导致长QT综合征的新型PAS结构域HERG突变(M124R)的临床、遗传和电生理特征
Clinical, genetic, and electrophysiologic characteristics of a new PAS-domain HERG mutation (M124R) causing Long QT syndrome.
作者信息
Shushi Liat, Kerem Batsheva, Goldmit Maya, Peretz Asher, Attali Bernard, Medina Aron, Towbin Jeffrey A, Kurokawa Junko, Kass Robert S, Benhorin Jesaia
机构信息
Department of Genetics, The Life Sciences Institute, The Hebrew University, Jerusalem, Israel.
出版信息
Ann Noninvasive Electrocardiol. 2005 Jul;10(3):334-41. doi: 10.1111/j.1542-474X.2005.00643.x.
OBJECTIVES
To describe the clinical, genetic, and electrophysiologic characteristics of a new PAS-domain HERG mutation (M124R) that has been identified in a single large Jewish family with Long QT syndrome (LQTS).
BACKGROUND
Many previously reported HERG mutations causing LQTS are located either in the C-terminus, or in the pore region. Relatively fewer clinical data are available on N-terminus (PAS-domain) mutation carriers.
METHODS
Clinical data were available in 76 family members (aged 1-93 years, 69 alive) over 18 years of follow-up, while electrocardiographic data were available in 57, and genetic data in 45 family members. Cellular electrophysiology was assessed in transfected Chinese Hamster Ovary (CHO) cells using the whole-cell patch-clamp technique.
RESULTS
Thirty-six family members were phenotypically categorized as nonaffected, 3 as equivocal, and 20 as affected. Mean QTc was 410+/-23, 440+/-10, and 498+/-41 ms, respectively, in these three subgroups. Eight out of 20 affected family members were symptomatic: five had only syncope, two had aborted cardiac arrest, and one sudden death. Genetic analyses identified the M124R point mutation in all affected members tested (n=16), while all those tested with nonaffected (n=26) and equivocal (n=3) phenotype did not carry the mutation. The M124R mutation reduced the HERG tail-current density by 65%, significantly accelerated the deactivation kinetics, and caused a negative shift in the voltage dependence of activation.
CONCLUSIONS
A new PAS-domain HERG mutation (M124R) was identified as causing LQTS in a large Jewish family, with high penetrance and frequent disease-related symptoms. This mutation markedly decreased the tail-current density and accelerated the deactivation kinetics of the HERG channel in transfected CHO cells.
目的
描述在一个患长QT综合征(LQTS)的大型犹太家族中鉴定出的一种新的PAS结构域HERG突变(M124R)的临床、遗传和电生理特征。
背景
许多先前报道的导致LQTS的HERG突变位于C末端或孔区。关于N末端(PAS结构域)突变携带者的临床数据相对较少。
方法
在18年的随访中,获得了76名家族成员(年龄1至93岁,69人存活)的临床数据,57人的心电图数据,以及45人的遗传数据。使用全细胞膜片钳技术在转染的中国仓鼠卵巢(CHO)细胞中评估细胞电生理学。
结果
36名家族成员表型分类为未受影响,3名为可疑,20名为受影响。这三个亚组的平均QTc分别为410±23、440±10和498±41毫秒。20名受影响的家族成员中有8人出现症状:5人仅发生晕厥,2人发生心脏骤停未遂,1人猝死。遗传分析在所有检测的受影响成员(n = 16)中鉴定出M124R点突变,而所有检测的表型为未受影响(n = 26)和可疑(n = 3)的成员均未携带该突变。M124R突变使HERG尾电流密度降低了65%,显著加速了失活动力学,并导致激活电压依赖性负向移位。
结论
在一个大型犹太家族中鉴定出一种新的PAS结构域HERG突变(M124R)导致LQTS,具有高外显率和频繁的疾病相关症状。该突变显著降低了转染CHO细胞中HERG通道的尾电流密度并加速了失活动力学。
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