氟伏沙明对HERG钾电流的阻断作用:F656或Y652位点的S6突变不能完全减弱该作用
Blockade of HERG potassium currents by fluvoxamine: incomplete attenuation by S6 mutations at F656 or Y652.
作者信息
Milnes James T, Crociani Olivia, Arcangeli Annarosa, Hancox Jules C, Witchel Harry J
机构信息
Department of Physiology and Cardiovascular Research Laboratories, School of Medical Sciences, University Walk, Bristol BS8 1TD, UK.
出版信息
Br J Pharmacol. 2003 Jul;139(5):887-98. doi: 10.1038/sj.bjp.0705335.
Abstract
- Pharmacological blockade of the Human ether-a-go-go related gene (HERG) potassium channel is commonly linked with acquired long QT syndrome and associated proarrhythmia. The objectives of this study were (i) to identify and characterise any inhibitory action on HERG of the selective-serotonin re-uptake inhibitor fluvoxamine, (ii) to then determine whether fluvoxamine shared the consensus molecular determinants of HERG blockade of those drugs so far tested. 2. Heterologous HERG potassium current (I(HERG)) was measured at 37 degrees C, using the whole-cell patch-clamp technique, from a mammalian cell line (Human embryonic kidney 293) expressing HERG channels. I(HERG) tails, following repolarisation from +20 to -40 mV, were blocked by fluvoxamine with an IC(50) of 3.8 micro M. 3. Blockade of wild-type HERG was of extremely rapid onset (within 10 ms) and showed voltage dependence, with fluvoxamine also inducing a leftward shift in voltage-dependent activation of I(HERG). Characteristics of block were consistent with a component of closed channel (or extremely rapidly developing open channel) blockade and dependence on open and inactivated channel states. The attenuated-inactivation mutation S631A partially reduced the blocking effect of fluvoxamine. 4. The S6 mutations, Y652A and F656A, and the pore helix mutant S631A only partially attenuated blockade by fluvoxamine at concentrations causing profound blockade of wild-type HERG. 5. All HERG-blocking pharmaceuticals studied to date have been shown to block F656 mutant channels with over 100-fold reduced potency compared to their blockade of the wild-type channel. Fluvoxamine is therefore quite distinct in this regard from previously studied agents.
摘要
- 人醚 - 去极化相关基因(HERG)钾通道的药理学阻断通常与获得性长QT综合征及相关的心律失常有关。本研究的目的是:(i)确定并表征选择性5-羟色胺再摄取抑制剂氟伏沙明对HERG的任何抑制作用;(ii)然后确定氟伏沙明是否与迄今测试的那些药物对HERG阻断的共有分子决定因素相同。2. 在37℃下,使用全细胞膜片钳技术,从表达HERG通道的哺乳动物细胞系(人胚肾293)中测量异源HERG钾电流(I(HERG))。从+20mV复极化到 - 40mV后的I(HERG)尾电流被氟伏沙明阻断,其半数抑制浓度(IC(50))为3.8μM。3. 野生型HERG的阻断起效极快(在10毫秒内),并表现出电压依赖性,氟伏沙明还导致I(HERG)的电压依赖性激活向左移位。阻断特征与封闭通道(或极快速发展的开放通道)阻断的成分以及对开放和失活通道状态的依赖性一致。衰减失活突变S631A部分降低了氟伏沙明的阻断作用。4. S6突变Y652A和F656A以及孔螺旋突变体S631A在导致野生型HERG深度阻断的浓度下,仅部分减弱了氟伏沙明的阻断作用。5. 迄今为止研究的所有HERG阻断药物,与它们对野生型通道的阻断相比,对F656突变通道的阻断效力降低了100倍以上。因此,氟伏沙明在这方面与先前研究的药物有很大不同。
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