Department of Emergency Medicine, Shengjing Hospital of China Medical University, Shenyang, China.
Departments of Medicine and Molecular Pharmacology, Albert Einstein College of Medicine, Bronx, New York, USA.
Can J Cardiol. 2018 Sep;34(9):1174-1184. doi: 10.1016/j.cjca.2018.06.015. Epub 2018 Jun 30.
Deleterious mutations in KCNQ1 may lead to an autosomal dominant form of long QT syndrome (LQTS) (Romano-Ward) or autosomal recessive form (Jervell and Lange-Nielsen). Both are associated with severe ventricular tachyarrhythmias due to the reduction of the slowly activating delayed rectifier K current (I). Our objective was to investigate the functional consequences of KCNQ1-R562S mutation in an atypical form of KCNQ1-linked LQTS.
Mutant KCNQ1-R562S was analyzed via confocal imaging, surface biotinylation assays, co-immunoprecipitation, phosphatidylinositol-4,5-bisphosphate pulldown test, whole-cell patch clamp, and computational intrinsic disorder analyses.
Protein expression, assembly with KCNE1, and trafficking to the surface membrane of KCNQ1-R562S were comparable with wild-type channels. The most significant functional effect of the R562S mutation was a depolarizing shift in the voltage dependence of activation that was dependent on association with KCNE1. The biophysical abnormality was only partially dominant over coexpressed wild-type channels. R562S mutation impaired C-terminal association with membrane phosphatidylinositol-4,5-bisphosphate. These changes led to compromised rate-related accumulation of repolarizing current that is an important property of normal I.
KCNQ1-R562S mutation reduces effective I due to channel gating alteration with a mild clinical expression in the heterozygous state due to minimal dominant phenotype. In the homozygous state, it is exhibited with a moderately severe LQTS phenotype due to the incomplete absence of I.
KCNQ1 中的有害突变可能导致常染色体显性形式的长 QT 综合征(LQTS)(Romano-Ward 型)或常染色体隐性形式(Jervell 和 Lange-Nielsen 型)。这两种形式都与缓慢激活延迟整流钾电流(I)减少导致的严重室性心律失常有关。我们的目的是研究 KCNQ1-R562S 突变在一种非典型 KCNQ1 相关 LQTS 中的功能后果。
通过共聚焦成像、表面生物素化测定、共免疫沉淀、磷脂酰肌醇-4,5-二磷酸下拉试验、全细胞膜片钳和计算固有无序分析来分析突变体 KCNQ1-R562S。
KCNQ1-R562S 的蛋白表达、与 KCNE1 的组装和向细胞膜表面的转运与野生型通道相当。R562S 突变的最显著功能影响是激活的电压依赖性的去极化偏移,这依赖于与 KCNE1 的关联。这种生物物理异常仅部分超过共表达的野生型通道的显性。R562S 突变损害了 C 端与膜磷脂酰肌醇-4,5-二磷酸的关联。这些变化导致复极化电流的积累速度相关的能力受损,这是正常 I 的一个重要特性。
KCNQ1-R562S 突变由于通道门控改变而减少有效的 I,在杂合状态下表现出轻度的临床表型,因为显性表型极小。在纯合状态下,由于 I 的完全缺失,表现为中度严重的 LQTS 表型。
