ANK2膜结合域的新变体与长QT综合征高发病率的原住民人群中的锚蛋白-B综合征和结构性心脏病有关

Q Medicine
L. A. Swayne, Nathaniel P. Murphy, Sirisha Asuri, Lena Chen, Xiaoxue Xu, Sarah McIntosh, Chao Wang, P. Lancione, Jason D. Roberts, Charles R. Kerr, S. Sanatani, E. Sherwin, C. F. Kline, Mingjie Zhang, P. Mohler, L. Arbour
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Biochemical and myocyte-based assays were performed to evaluate the identified gene variant for loss-of-function activity. Index cases in these 2 families harbored a novel ANK2 c.1937C>T variant (p.S646F). An additional 16 carriers were identified, including 2 with structural heart disease: one with cardiomyopathy resulting in sudden death and the other with congenital heart disease. For all carriers of this variant, the average QTc was 475 ms (±40). Although ankyrin-B p.S646F is appropriately folded and expressed in bacteria, the mutant polypeptide displays reduced expression in cultured H9c2 cells and aberrant localization in primary cardiomyocytes. Furthermore, myocytes expressing ankyrin-B p.S646F lack normal membrane targeting of the ankyrin-binding partner, the Na/Ca exchanger. Thus, ankyrin-B p.S646F is a loss-of-function variant. 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引用次数: 39

摘要

背景-长QT综合征易发生室性心律失常,易发生晕厥、癫痫发作和猝死。虽然全球罕见,但长QT综合征在北不列颠哥伦比亚省第一民族的发病率约为15倍,这主要是因为已知的KCNQ1突变。然而,2个大的多代家庭受到影响,但对已知突变呈阴性。方法与结果-对各家庭指标病例进行长QT综合征面板试验,收集临床资料。进行级联基因分型。进行生化和肌细胞为基础的测定来评估鉴定的功能活性丧失的基因变异。这两个家族的指示病例携带一种新的ANK2 c.1937C>T变体(p.S646F)。另外16名携带者被确定,其中2名患有结构性心脏病:一名患有心肌病导致猝死,另一名患有先天性心脏病。对于该变异的所有携带者,平均QTc为475 ms(±40)。虽然锚蛋白b p.S646F在细菌中适当折叠和表达,但突变多肽在培养的H9c2细胞中表达减少,在原代心肌细胞中定位异常。此外,表达锚蛋白b p.S646F的肌细胞缺乏锚蛋白结合伙伴Na/Ca交换器的正常膜靶向性。因此,锚蛋白b p.S646F是一个功能缺失的变体。结论:我们发现了第一个定位于膜结合结构域的致病ANK2变异,导致锚蛋白b表达减少和异常定位。考虑到ANK2在心脏细胞中关键结构和信号分子的靶向和稳定中的作用,需要进一步研究这种变异与结构性心脏病的潜在关联。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Novel Variant in the ANK2 Membrane-Binding Domain Is Associated With Ankyrin-B Syndrome and Structural Heart Disease in a First Nations Population With a High Rate of Long QT Syndrome
Background— Long QT syndrome confers susceptibility to ventricular arrhythmia, predisposing to syncope, seizures, and sudden death. While rare globally, long QT syndrome is ≈15× more common in First Nations of Northern British Columbia largely because of a known mutation in KCNQ1. However, 2 large multigenerational families were affected, but negative for the known mutation. Methods and Results— Long QT syndrome panel testing was carried out in the index case of each family, and clinical information was collected. Cascade genotyping was performed. Biochemical and myocyte-based assays were performed to evaluate the identified gene variant for loss-of-function activity. Index cases in these 2 families harbored a novel ANK2 c.1937C>T variant (p.S646F). An additional 16 carriers were identified, including 2 with structural heart disease: one with cardiomyopathy resulting in sudden death and the other with congenital heart disease. For all carriers of this variant, the average QTc was 475 ms (±40). Although ankyrin-B p.S646F is appropriately folded and expressed in bacteria, the mutant polypeptide displays reduced expression in cultured H9c2 cells and aberrant localization in primary cardiomyocytes. Furthermore, myocytes expressing ankyrin-B p.S646F lack normal membrane targeting of the ankyrin-binding partner, the Na/Ca exchanger. Thus, ankyrin-B p.S646F is a loss-of-function variant. Conclusions— We identify the first disease-causing ANK2 variant localized to the membrane-binding domain resulting in reduced ankyrin-B expression and abnormal localization. Further study is warranted on the potential association of this variant with structural heart disease given the role of ANK2 in targeting and stabilization of key structural and signaling molecules in cardiac cells.
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来源期刊
Circulation-Cardiovascular Genetics
Circulation-Cardiovascular Genetics CARDIAC & CARDIOVASCULAR SYSTEMS-GENETICS & HEREDITY
CiteScore
3.95
自引率
0.00%
发文量
0
期刊介绍: Circulation: Genomic and Precision Medicine considers all types of original research articles, including studies conducted in human subjects, laboratory animals, in vitro, and in silico. Articles may include investigations of: clinical genetics as applied to the diagnosis and management of monogenic or oligogenic cardiovascular disorders; the molecular basis of complex cardiovascular disorders, including genome-wide association studies, exome and genome sequencing-based association studies, coding variant association studies, genetic linkage studies, epigenomics, transcriptomics, proteomics, metabolomics, and metagenomics; integration of electronic health record data or patient-generated data with any of the aforementioned approaches, including phenome-wide association studies, or with environmental or lifestyle factors; pharmacogenomics; regulation of gene expression; gene therapy and therapeutic genomic editing; systems biology approaches to the diagnosis and management of cardiovascular disorders; novel methods to perform any of the aforementioned studies; and novel applications of precision medicine. Above all, we seek studies with relevance to human cardiovascular biology and disease. Manuscripts are examined by the editorial staff and usually evaluated by expert reviewers assigned by the editors. Both clinical and basic articles will also be subject to statistical review, when appropriate. Provisional or final acceptance is based on originality, scientific content, and topical balance of the journal. Decisions are communicated by email, generally within six weeks. The editors will not discuss a decision about a manuscript over the phone. All rebuttals must be submitted in writing to the editorial office.
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