Kupershmidt Sabina, Yang Iris C-H, Hayashi Kenshi, Wei Jian, Chanthaphaychith Siprachanh, Petersen Christina I, Johns Daivid C, George Alfred L, Roden Dan M, Balser Jeffrey R
Department of Anesthesiology, Vanderbilt University School of Medicine, Nashville, TN 37232-6602, USA.
FASEB J. 2003 Dec;17(15):2263-5. doi: 10.1096/fj.02-1057fje. Epub 2003 Oct 2.
The cardiac potassium channel encoded by the human ether-à-go-go related gene (HERG) is blocked by a diverse array of common therapeutic compounds. Even transient exposure to such agents may provoke the life-threatening cardiac arrhythmia torsades de pointes in some, but not all, individuals. Although the molecular and genetic factors predicting such wide variability in drug response remain unclear, known sequence variations within the coding region of HERG do not explain the adverse drug response in many cases. Although other proteins can modulate HERG function, no studies have identified protein partners capable of limiting the pharmacological sensitivity of HERG. Here we show that KCR1, a protein identified previously in rat cerebellum, is a plasma membrane-associated protein expressed at the RNA level in the human heart and can be immunoprecipitated with HERG. Functionally, KCR1 reduces the sensitivity of HERG to classic proarrhythmic HERG blockers (sotalol, quinidine, dofetilide) in both cardiac and noncardiac cell lines. We propose that KCR1, when coupled to HERG, may limit the sensitivity of HERG to proarrhythmic drug blockade and may be a rational target for modifying the proarrhythmic effects of otherwise clinically useful compounds.
人类醚 - 去极化相关基因(HERG)编码的心脏钾通道会被多种常见治疗性化合物所阻断。即使短暂接触此类药物,在部分(而非全部)个体中也可能引发危及生命的心律失常——尖端扭转型室速。尽管预测药物反应如此广泛变异性的分子和遗传因素仍不清楚,但HERG编码区内已知的序列变异在许多情况下并不能解释药物不良反应。虽然其他蛋白质可调节HERG功能,但尚无研究鉴定出能够限制HERG药理学敏感性的蛋白质伴侣。在此我们表明,KCR1是先前在大鼠小脑中鉴定出的一种蛋白质,是一种在人心脏中以RNA水平表达的质膜相关蛋白,并且可与HERG进行免疫共沉淀。在功能上,KCR1可降低心脏和非心脏细胞系中HERG对经典致心律失常HERG阻滞剂(索他洛尔、奎尼丁、多非利特)的敏感性。我们提出,当与HERG偶联时,KCR1可能会限制HERG对致心律失常药物阻断的敏感性,并且可能是改变其他临床上有用化合物的致心律失常作用的合理靶点。
