在CACNA1C编码的L型钙通道中,新型长QT综合征相关错义突变L762F导致失活时间常数减慢,并增加了持续性电流和窗电流。
Novel long QT syndrome-associated missense mutation, L762F, in CACNA1C-encoded L-type calcium channel imparts a slower inactivation tau and increased sustained and window current.
作者信息
Landstrom Andrew P, Boczek Nicole J, Ye Dan, Miyake Christina Y, De la Uz Caridad M, Allen Hugh D, Ackerman Michael J, Kim Jeffrey J
机构信息
Department of Pediatrics, The Lillie Frank Abercrombie Section of Pediatric Cardiology, Baylor College of Medicine, Houston, TX, United States.
Department of Molecular Pharmacology & Experimental Therapeutics, Windland Smith Rice Sudden Death Genomics Laboratory, Mayo Clinic, Rochester, MN, United States; Center for Individualized Medicine, Mayo Clinic, Rochester, MN, United States.
出版信息
Int J Cardiol. 2016 Oct 1;220:290-8. doi: 10.1016/j.ijcard.2016.06.081. Epub 2016 Jun 23.
BACKGROUND
Mutations in the CACNA1C-encoded L-type calcium channel have been associated with Timothy syndrome (TS) with severe QT prolongation, syndactyly, facial dysmorphisms, developmental delay, and sudden death. Recently, patients hosting CACNA1C mutations with only long QT syndrome (LQTS) have been described. We sought to identify novel variants in CACNA1C associated with either TS or LQTS, and to determine the impact of the mutation on channel function.
METHODS/RESULTS: Two probands were identified with mutations in CACNA1C, one with a TS-associated mutation, G406R, and a second with genotype-negative LQTS. Illumina HiSeq 2000 whole exome sequencing on the genotype-negative LQTS proband revealed a novel variant, CACNA1C-L762F, that co-segregated within a multi-generational family. The missense mutation localized to the DII/DIII intracellular interlinker segment of the channel in a highly conserved region in close proximity to the 6th transmembrane segment of domain II (DIIS6). Whole cell patch clamp of heterologously expressed CACNA1C-L762F in TSA201 cells demonstrated slower inactivation tau and increased sustained and window current. Comprehensive review and topological mapping of all described CACNA1C mutations revealed TS-specific hotspots localizing to the cytoplasmic aspect of 6th transmembrane segment of respective domains. Probands hosting TS mutations were associated with elevated QTc, higher prevalence of 2:1 AV block, and a younger age at presentation compared to LQTS.
CONCLUSIONS
The CACNA1C-L762F mutation is associated with development of LQTS through slower channel inactivation and increased sustained and window current. TS-associated mutations localize to specific areas of CACNA1C and are associated with a younger age at presentation, higher QTc, and 2:1 AV block than isolated LQTS-associated mutations.
背景
由CACNA1C编码的L型钙通道发生突变与蒂莫西综合征(TS)相关,TS伴有严重的QT间期延长、并指、面部畸形、发育迟缓及猝死。最近,已报道了携带仅表现为长QT综合征(LQTS)的CACNA1C突变的患者。我们试图鉴定与TS或LQTS相关的CACNA1C新变异,并确定该突变对通道功能的影响。
方法/结果:鉴定出两名携带CACNA1C突变的先证者,一名携带与TS相关的突变G406R,另一名为先证者基因型阴性的LQTS。对基因型阴性的LQTS先证者进行Illumina HiSeq 2000全外显子组测序,发现一个新变异CACNA1C-L762F,该变异在一个多代家族中共同分离。错义突变定位于通道的DII/DIII细胞内连接片段,该区域高度保守,紧邻结构域II的第6跨膜片段(DIIS6)。在TSA201细胞中对异源表达的CACNA1C-L762F进行全细胞膜片钳实验,结果显示失活时间常数减慢,持续性电流和窗电流增加。对所有已报道的CACNA1C突变进行综合回顾和拓扑定位,发现TS特异性热点定位于各结构域第6跨膜片段的胞质侧。与LQTS相比,携带TS突变的先证者QTc升高,2:1房室传导阻滞的发生率更高,且发病年龄更小。
结论
CACNA1C-L762F突变通过减慢通道失活以及增加持续性电流和窗电流与LQTS的发生相关。与TS相关的突变定位于CACNA1C的特定区域,与孤立的LQTS相关突变相比,其发病年龄更小,QTc更高,且有2:1房室传导阻滞。
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