KCNQ1基因中的一种新型突变与强效显性负性效应相关,作为长QT综合征LQT1型的基础。
A novel mutation in KCNQ1 associated with a potent dominant negative effect as the basis for the LQT1 form of the long QT syndrome.
作者信息
Aizawa Yoshiyasu, Ueda Kazuo, Scornik Fabiana, Cordeiro Jonathan M, Wu Yuesheng, Desai Mayurika, Guerchicoff Alejandra, Nagata Yasutoshi, Iesaka Yoshito, Kimura Akinori, Hiraoka Masayasu, Antzelevitch Charles
机构信息
Masonic Medical Research Laboratory, Utica, New York 13501-1787, USA.
出版信息
J Cardiovasc Electrophysiol. 2007 Sep;18(9):972-7. doi: 10.1111/j.1540-8167.2007.00889.x. Epub 2007 Jul 26.
INTRODUCTION
Long QT Syndrome (LQTS) is an inherited disorder characterized by prolonged QT intervals and life-threatening polymorphic ventricular tachyarrhythmias. LQT1 caused by KCNQ1 mutations is the most common form of LQTS.
METHODS AND RESULTS
Patients diagnosed with LQTS were screened for disease-associated mutations in KCNQ1, KCNH2, KCNE1, KCNE2, KCNJ2, and SCN5A. A novel mutation was identified in KCNQ1 caused by a three-base deletion at the position 824-826, predicting a deletion of phenylalanine at codon 275 in segment 5 of KCNQ1 (DeltaF275). Wild-type (WT) and DeltaF275-KCNQ1 constructs were generated and transiently transfected together with a KCNE1 construct in CHO-K1 cells to characterize the properties of the slowly activating delayed rectifier current (IKs) using conventional whole-cell patch-clamp techniques. Cells transfected with WT-KCNQ1 and KCNE1 (1:1.3 molar ratio) produced slowly activating outward current with the characteristics of IKs. Tail current density measured at -40 mV following a two-second step to +60 mV was 381.3 +/- 62.6 pA/pF (n = 11). Cells transfected with DeltaF275-KCNQ1 and KCNE1 exhibited essentially no current. (Tail current density: 0.8 +/- 2.1 pA/pF, n = 11, P = 0.00001 vs WT). Cotransfection of WT- and DeltaF275- KCNQ1 (50/50), along with KCNE1, produced little to no current (tail current density: 10.3 +/- 3.5 pA/pF, n = 11, P = 0.00001 vs WT alone), suggesting a potent dominant negative effect. Immunohistochemistry showed normal membrane trafficking of DeltaF275-KCNQ1.
CONCLUSION
Our data suggest that a DeltaF275 mutation in KCNQ1 is associated with a very potent dominant negative effect leading to an almost complete loss of function of IKs and that this defect underlies a LQT1 form of LQTS.
引言
长QT综合征(LQTS)是一种遗传性疾病,其特征为QT间期延长和危及生命的多形性室性快速心律失常。由KCNQ1突变引起的LQT1是LQTS最常见的形式。
方法与结果
对诊断为LQTS的患者进行KCNQ1、KCNH2、KCNE1、KCNE2、KCNJ2和SCN5A中与疾病相关突变的筛查。在KCNQ1中鉴定出一种新的突变,该突变由824 - 826位的三碱基缺失引起,预测KCNQ1第5节段密码子275处的苯丙氨酸缺失(ΔF275)。构建野生型(WT)和ΔF275 - KCNQ1构建体,并使用传统的全细胞膜片钳技术将其与KCNE1构建体一起瞬时转染到CHO - K1细胞中,以表征缓慢激活的延迟整流电流(IKs)的特性。用WT - KCNQ1和KCNE1(摩尔比1:1.3)转染的细胞产生具有IKs特征的缓慢激活外向电流。在+60 mV进行两秒的阶跃后,在 - 40 mV处测量的尾电流密度为381.3±62.6 pA/pF(n = 11)。用ΔF275 - KCNQ1和KCNE1转染的细胞基本无电流(尾电流密度:0.8±2.1 pA/pF,n = 11,与WT相比P = 0.00001)。将WT - 和ΔF275 - KCNQ1(50/50)与KCNE1共转染,产生的电流很小或无电流(尾电流密度:10.3±3.5 pA/pF,n = 11,与单独的WT相比P = 0.00001),表明存在强大的显性负效应。免疫组织化学显示ΔF275 - KCNQ1的膜转运正常。
结论
我们的数据表明,KCNQ1中的ΔF275突变与非常强大的显性负效应相关,导致IKs功能几乎完全丧失,并且这种缺陷是LQTS的LQT1形式的基础。
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