Fan C, Mao N, Lehmann-Horn F, Bürmann J, Jurkat-Rott K
Division of Neurophysiology, Ulm University, Ulm, Germany.
Human Oncology & Pathogenesis Program, Memorial Sloan Kettering Cancer Center, New York, NY, USA.
Clin Genet. 2017 Jun;91(6):859-867. doi: 10.1111/cge.12880. Epub 2016 Nov 24.
Hyperkalemic periodic paralysis (HyperPP) is a dominantly inherited muscle disease caused by mutations in SCN4A gene encoding skeletal muscle voltage gated Na 1.4 channels. We identified a novel Na 1.4 mutation I692M in 14 families out of the 104 genetically identified HyperPP families in the Neuromuscular Centre Ulm and is therefore as frequent as I693T (13 families out of 14 HyperPP families) in Germany. Surprisingly, in 13 families, a known polymorphism S906T was also present. It was on the affected allele in at least 10 families compatible with a possible founder effect in central Europe. All affected members suffered from episodic weakness; myotonia was also common. Compared with I692M patients, I692M-S906T patients had longer weakness episodes, more affected muscles, CK elevation and presence of permanent weakness. Electrophysiological investigation showed that both mutants had incomplete slow inactivation and a hyperpolarizing shift of activation which contribute to membrane depolarization and weakness. Additionally, I692M-S906T significantly enhanced close-state fast inactivation compared with I692M alone, suggesting a higher proportion of inactivated I692M-S906T channels upon membrane depolarization which may facilitate the initiation of weakness episodes and therefore clinical manifestation. Our results suggest that polymorphism S906T has effects on the clinical phenotypic and electrophysiological severity of a novel borderline Na 1.4 mutation I692M, making the borderline mutation fully penetrant.
高钾性周期性麻痹(HyperPP)是一种常染色体显性遗传的肌肉疾病,由编码骨骼肌电压门控钠通道1.4(Na 1.4)的SCN4A基因突变引起。在乌尔姆神经肌肉中心的104个经基因鉴定的HyperPP家族中,我们在14个家族中发现了一种新的Na 1.4突变I692M,因此在德国,其出现频率与I693T(在14个HyperPP家族中有13个家族出现)相同。令人惊讶的是,在13个家族中,还存在一种已知的多态性S906T。在至少10个家族中,它存在于受影响的等位基因上,这与中欧可能存在的奠基者效应相符。所有受影响的成员都患有发作性肌无力;肌强直也很常见。与I692M患者相比,I⁶⁹²M-S⁹⁰⁶T患者的肌无力发作持续时间更长、受累肌肉更多、肌酸激酶(CK)升高且存在永久性肌无力。电生理研究表明,这两种突变体都具有不完全的缓慢失活和激活的超极化偏移,这会导致膜去极化和肌无力。此外,与单独的I692M相比,I692M-S906T显著增强了关闭状态的快速失活,这表明在膜去极化时,I692M-S906T通道失活的比例更高,这可能会促进肌无力发作的起始,进而导致临床表现。我们的结果表明,多态性S906T对一种新的临界Na 1.4突变I692M的临床表型和电生理严重程度有影响,使这种临界突变完全外显。
