Roston Thomas M, Guo Wenting, Krahn Andrew D, Wang Ruiwu, Van Petegem Filip, Sanatani Shubhayan, Chen S R Wayne, Lehman Anna
BC Inherited Arrhythmia Program, Vancouver, BC, Canada; Department of Medicine, University of British Columbia, Vancouver, BC, Canada; Department of Medicine, University of Alberta, Edmonton, AB, Canada.
Libin Cardiovascular Institute of Alberta, Department of Physiology & Pharmacology and Department Biochemistry & Molecular Biology, University of Calgary, Calgary, AB, Canada.
J Electrocardiol. 2017 Mar-Apr;50(2):227-233. doi: 10.1016/j.jelectrocard.2016.09.006. Epub 2016 Sep 8.
Catecholaminergic polymorphic ventricular tachycardia (CPVT) is an ion channelopathy usually caused by gain-of-function mutations ryanodine receptor type-2 (RyR2). Left ventricular non-compaction (LVNC) is an often genetic cardiomyopathy. A rare LVNC-CPVT overlap syndrome may be caused by exon 3 deletion in RyR2. We sought to characterize the phenotypic spectrum and molecular basis of a novel RyR2 mutation identified in a family with both conditions.
Several members of an affected family underwent clinical and genetic assessments. A homology model of the RyR2 pore-region was generated to predict the location and potential impact of their RyR2 mutation. Ca-release assays were performed to characterize the functional impact of the RyR2 mutant expressed in HEK293 cells.
A multigenerational family presented with a history of sudden death and a phenotype of atypical CPVT and LVNC. Genetic testing revealed a RYR2 mutation (I4855M) in two affected individuals. A homology model of the RyR2 pore-region showed that the I4855M mutant reside is located in the highly conserved 'inner vestibule', a water-filled cavity. I4855M may interfere with Ca permeation and affect interactions between RyR2 pore subunits, and is thus predicted in silico to be damaging. Expression and functional studies in HEK293 cells revealed that I4855M inhibited caffeine-induced Ca release and exerted a dominant-negative impact on wild type RyR2.
This study identifies a potentially lethal overlapping syndrome of LVNC and atypical CPVT related to a novel RYR2 variant. Structural and functional studies suggest that this is a loss-of-function mutation, which exerts a dominant-negative effect on wild type RyR2.
儿茶酚胺能多形性室性心动过速(CPVT)是一种离子通道病,通常由2型兰尼碱受体(RyR2)功能获得性突变引起。左心室心肌致密化不全(LVNC)是一种常见的遗传性心肌病。一种罕见的LVNC-CPVT重叠综合征可能由RyR2外显子3缺失引起。我们试图描述在一个同时患有这两种疾病的家族中鉴定出的一种新型RyR2突变的表型谱和分子基础。
一个受影响家族的几名成员接受了临床和基因评估。构建了RyR2孔区的同源模型,以预测其RyR2突变的位置和潜在影响。进行钙释放试验,以表征在HEK293细胞中表达的RyR2突变体的功能影响。
一个多代家族有猝死病史,表现为非典型CPVT和LVNC的表型。基因检测在两名受影响个体中发现了RYR2突变(I4855M)。RyR2孔区的同源模型显示,I4855M突变体位于高度保守的“内前庭”,即一个充满水的腔中。I4855M可能会干扰钙渗透并影响RyR2孔亚基之间的相互作用,因此在计算机模拟中预测具有破坏性。在HEK293细胞中的表达和功能研究表明,I4855M抑制咖啡因诱导的钙释放,并对野生型RyR2产生显性负性影响。
本研究鉴定出一种与新型RYR2变体相关的潜在致命的LVNC和非典型CPVT重叠综合征。结构和功能研究表明,这是一种功能丧失突变,对野生型RyR2产生显性负性作用。
