Petersen Christina I, McFarland Toni R, Stepanovic Svetlana Z, Yang Ping, Reiner David J, Hayashi Kenshi, George Alfred L, Roden Dan M, Thomas James H, Balser Jeffrey R
Department of Anesthesiology and Division of Clinical Pharmacology, Vanderbilt University, Nashville, TN 37232, USA.
Proc Natl Acad Sci U S A. 2004 Aug 10;101(32):11773-8. doi: 10.1073/pnas.0306005101. Epub 2004 Jul 27.
Human ether-a-go-go-related gene (HERG) encodes the pore-forming subunit of I(Kr), a cardiac K(+) channel. Although many commonly used drugs block I(Kr), in certain individuals, this action evokes a paradoxical life-threatening cardiac rhythm disturbance, known as the acquired long QT syndrome (aLQTS). Although aLQTS has become the leading cause of drug withdrawal by the U.S. Food and Drug Administration, DNA sequencing in aLQTS patients has revealed HERG mutations only in rare cases, suggesting that unknown HERG modulators are often responsible. By using the worm Caenorhabditis elegans, we have developed in vivo behavioral assays that identify candidate modulators of unc-103, the worm HERG orthologue. By using RNA-interference methods, we have shown that worm homologues of two HERG-interacting proteins, Hyperkinetic and K channel regulator 1 (KCR1), modify unc-103 function. Examination of the human KCR1 sequence in patients with drug-induced cardiac repolarization defects revealed a sequence variation (the substitution of isoleucine 447 by valine, I447V) that occurs at a reduced frequency (1.1%) relative to a matched control population (7.0%), suggesting that I447V may be an allele for reduced aLQTS susceptibility. This clinical result is supported by in vitro studies of HERG dofetilide sensitivity by using coexpression of HERG with wild-type and I447V KCR1 cDNAs. Our studies demonstrate the feasibility of using C. elegans to assay and potentially identify aLQTS candidate genes.
人醚 - 去极化相关基因(HERG)编码心脏钾离子通道I(Kr)的孔形成亚基。尽管许多常用药物会阻断I(Kr),但在某些个体中,这种作用会引发一种矛盾的、危及生命的心律失常,即获得性长QT综合征(aLQTS)。尽管aLQTS已成为美国食品药品监督管理局撤药的主要原因,但对aLQTS患者进行DNA测序仅在极少数情况下发现了HERG突变,这表明未知的HERG调节剂通常是罪魁祸首。通过使用线虫秀丽隐杆线虫,我们开发了体内行为分析方法来鉴定线虫HERG同源物unc-103的候选调节剂。通过RNA干扰方法,我们发现两种与HERG相互作用的蛋白质——多动蛋白和钾通道调节因子1(KCR1)的线虫同源物可改变unc-103的功能。对药物诱导的心脏复极缺陷患者的人类KCR1序列进行检测,发现了一个序列变异(异亮氨酸447被缬氨酸取代,I447V),相对于匹配的对照人群(7.0%),该变异出现的频率较低(1.1%),这表明I447V可能是aLQTS易感性降低的一个等位基因。通过将HERG与野生型和I447V KCR1 cDNA共表达对HERG多非利特敏感性进行的体外研究支持了这一临床结果。我们的研究证明了使用秀丽隐杆线虫来检测并潜在鉴定aLQTS候选基因的可行性。