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遗传性心房颤动一家系中以婴儿猝死为最严重表型

Sudden infant death as the most severe phenotype caused by genetic modulation in a family with atrial fibrillation.

机构信息

Xenética Cardiovascular, Instituto de Investigación Sanitaria de Santiago de Compostela, Spain; Grupo de Medicina Xenómica, Universidade de Santiago de Compostela, Spain.

Xenética Cardiovascular, Instituto de Investigación Sanitaria de Santiago de Compostela, Spain; Grupo de Medicina Xenómica, Universidade de Santiago de Compostela, Spain.

出版信息

Forensic Sci Int Genet. 2019 Nov;43:102159. doi: 10.1016/j.fsigen.2019.102159. Epub 2019 Aug 31.

DOI:10.1016/j.fsigen.2019.102159
PMID:31522018
Abstract

AIMS

To assess the functional impact of two combined KCNH2 variants involved in atrial fibrillation, syncope and sudden infant death syndrome.

METHODS AND RESULTS

Genetic testing of a 4-month old SIDS victim identified a rare missense heterozygous in KCNH2 variant (V483I) and a missense homozygous polymorphism (K897T) which is often described as a genetic modifier. Electrophysiological characterisation of heterologous HERG channels representing two different KCNH2 genotypes within the family, showed significant differences in both voltage and time dependence of activation and inactivation with a global gain-of-function effect of mutant versus wild type channels and, also, differences between both types of recombinant channels.

CONCLUSIONS

The rare variant V483I in combination with K897T produces a gain-of-function effect that represents a pathological substrate for atrial fibrillation, syncope and sudden infant death syndrome events in this family. Ascertaining the genotype-phenotype correlation of genetic variants is imperative for the correct assessment of genetic testing and counselling.

TRANSLATIONAL PERSPECTIVE

According to the current guidelines for clinical interpretation of sequence variants, functional studies are an essential tool for the ascertainment of variant pathogenicity. They are especially relevant in the context of sudden infant death syndrome and sudden cardiac death, where individuals cannot be clinically evaluated. The patch-clamp technique is a gold-standard for analysis of the biophysical mechanisms of ion channels.

摘要

目的

评估两种与心房颤动、晕厥和婴儿猝死综合征相关的 KCNH2 复合变异对功能的影响。

方法和结果

对一名 4 个月大猝死婴儿进行基因检测,发现 KCNH2 变异(V483I)存在罕见的杂合错义突变,以及常被描述为遗传修饰因子的错义纯合多态性(K897T)。对家族内两种不同 KCNH2 基因型的异源 HERG 通道进行电生理特征分析,发现两种重组通道的激活和失活的电压和时间依赖性均存在显著差异,具有突变体相对于野生型通道的整体功能获得效应,而且两种重组通道之间也存在差异。

结论

该家族中罕见的 V483I 变异与 K897T 相结合,产生功能获得效应,这代表了心房颤动、晕厥和婴儿猝死综合征事件的病理基础。确定遗传变异的基因型-表型相关性对于正确评估遗传检测和咨询至关重要。

翻译视角

根据目前序列变异临床解释指南,功能研究是确定变异致病性的重要工具。它们在婴儿猝死综合征和心脏性猝死的情况下特别相关,因为这些情况下无法对个体进行临床评估。膜片钳技术是分析离子通道生物物理机制的金标准。

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