Expression defect of the rare variant/Brugada mutation R1512W depends upon the SCN5A splice variant background and can be rescued by mexiletine and the common polymorphism H558R.

Rou-Mu Hu, Evelyn J Song, David J Tester, Isabelle Deschenes, Michael J Ackerman, Jonathan C Makielski, Bi-Hua Tan
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Abstract

Background : Mutations in SCN5A that decrease Na current underlie arrhythmia syndromes such as the Brugada syndrome (BrS). SCN5A in humans has two splice variants, one lacking a glutamine at position 1077 (Q1077del) and one containing Q1077. We investigated the effect of splice variant background on loss-of-function and rescue for R1512W, a mutation reported to cause BrS. Methods and results : We made the mutation in both variants and expressed them in HEK-293 cells for voltage-clamp study. After 24 hours of transfection, the current expression level of R1512W was reduced by ~50% in both Q1077del and Q1077 compared to the wild-type (WT) channel, respectively. The activation and inactivation midpoint were not different between WT and mutant channels in both splice variant backgrounds. However, slower time constants of recovery and enhanced intermediate inactivation were observed for R1512W/Q1077 compared with WT-Q1077, while the recovery and intermediate inactivation parameters of R1512W/Q1077del were similar to WT-Q1077del. Furthermore, both mexiletine and the common polymorphism H558R restored peak sodium current (INa) amplitude of the mutant channel by increasing the cell surface expression of SCN5A. Conclusion : These findings provide further evidence that the splice variant affects the molecular phenotype with implications for the clinical phenotype, and they provide insight into the expression defect mechanisms and potential treatment in BrS.

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罕见变异/布鲁加达突变 R1512W 的表达缺陷取决于 SCN5A 剪接变异背景,并可被 mexiletine 和常见多态性 H558R 挽救。
背景:SCN5A 基因突变会降低 Na 电流,是 Brugada 综合征(BrS)等心律失常综合征的基础。人类的 SCN5A 有两种剪接变体,一种在 1077 位缺少谷氨酰胺(Q1077del),另一种含有 Q1077。我们研究了剪接变体背景对功能缺失的影响以及对R1512W(一种据报道可导致BrS的突变)的挽救。方法与结果:我们对两个变体进行了突变,并将其表达在 HEK-293 细胞中进行电压钳研究。转染 24 小时后,与野生型(WT)通道相比,Q1077del 和 Q1077 中 R1512W 的电流表达水平分别降低了约 50%。在两种剪接变体背景中,WT 和突变通道的激活和失活中点并无不同。然而,与 WT-Q1077 相比,R1512W/Q1077 的恢复时间常数较慢,中间失活增强,而 R1512W/Q1077del 的恢复和中间失活参数与 WT-Q1077del 相似。此外,mexiletine 和常见的多态性 H558R 都能通过增加 SCN5A 的细胞表面表达来恢复突变通道的钠离子电流峰值(INa)振幅。结论:这些发现进一步证明了剪接变异会影响分子表型,并对临床表型产生影响,同时也为 BrS 的表达缺陷机制和潜在治疗方法提供了启示。
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