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雷诺嗪对河豚毒素敏感的Na(V)1.7通道以及河豚毒素耐受的Na(V)1.8钠通道的阻滞作用

Block of tetrodotoxin-sensitive, Na(V)1.7 and tetrodotoxin-resistant, Na(V)1.8, Na+ channels by ranolazine.

作者信息

Rajamani Sridharan, Shryock John C, Belardinelli Luiz

机构信息

Department of Pharmacological Sciences, CV Therapeutics, Inc., Palo Alto, California 94304, USA.

出版信息

Channels (Austin). 2008 Nov-Dec;2(6):449-60. doi: 10.4161/chan.2.6.7362. Epub 2008 Nov 7.

Abstract

Evidence supports a role for the tetrodotoxin-sensitive Na(V)1.7 and the tetrodotoxin-resistant Na(V)1.8 in the pathogenesis of pain. Ranolazine, an anti-ischemic drug, has been shown to block cardiac (Na(V)1.5) late sodium current (I(Na)). In this study, whole-cell patch-clamp techniques were used to determine the effects of ranolazine on human Na(V)1.7 (hNa(V)1.7 + beta(1) subunits) and rat Na(V)1.8 (rNa(V)1.8) channels expressed in HEK293 and ND7-23 cells, respectively. Ranolazine reduced hNa(V)1.7 and rNa(V)1.8 I(Na) with IC50 values of 10.3 and 21.5 microM (holding potential = -120 or -100 mV, respectively). The potency of I(Na) block by ranolazine increased to 3.2 and 4.3 microM when 5-sec depolarizing prepulses to -70 (hNa(V)1.7) and -40 (rNa(V)1.8) mV were applied. Ranolazine caused a preferential hyperpolarizing shift of the steady-state fast, intermediate and slow inactivation of hNa(V)1.7 and intermediate and slow inactivation of rNa(V)1.8, suggesting preferential interaction of the drug with the inactivated states of both channels. Ranolazine (30 microM) caused a use-dependent block (10-msec pulses at 1, 2 and 5 Hz) of hNa(V)1.7 and rNa(V)1.8 I(Na) and significantly accelerated the onset of, and slowed the recovery from inactivation, of both channels. An increase of depolarizing pulse duration from 3 to 200 msec did not affect the use-dependent block of I(Na) by 100 microM ranolazine. Taken together, the data suggest that ranolazine blocks the open state and may interact with the inactivated states of Na(V)1.7 and Na(V)1.8 channels. The state-and use-dependent modulation of hNa(V)1.7 and rNa(V)1.8 Na+ channels by ranolazine could lead to an increased effect of the drug at high firing frequencies, as in injured neurons.

摘要

有证据支持河豚毒素敏感的Na(V)1.7和河豚毒素耐受的Na(V)1.8在疼痛发病机制中起作用。雷诺嗪是一种抗缺血药物,已被证明可阻断心脏(Na(V)1.5)晚期钠电流(I(Na))。在本研究中,采用全细胞膜片钳技术分别测定雷诺嗪对在HEK293和ND7 - 23细胞中表达的人Na(V)1.7(hNa(V)1.7 + β(1)亚基)和大鼠Na(V)1.8(rNa(V)1.8)通道的影响。雷诺嗪降低hNa(V)1.7和rNa(V)1.8的I(Na),IC50值分别为10.3和21.5 microM(钳制电位分别为 - 120或 - 100 mV)。当施加5秒去极化预脉冲至 - 70(hNa(V)1.7)和 - 40(rNa(V)1.8)mV时,雷诺嗪对I(Na)的阻断效力增加至3.2和4.3 microM。雷诺嗪导致hNa(V)1.7的稳态快速、中间和慢速失活以及rNa(V)1.8的中间和慢速失活出现优先超极化偏移,表明该药物与两个通道的失活状态优先相互作用。雷诺嗪(30 microM)导致hNa(V)1.7和rNa(V)1.8的I(Na)出现使用依赖性阻断(1、2和5 Hz下10毫秒脉冲),并显著加速两个通道失活的起始并减缓失活恢复。去极化脉冲持续时间从3毫秒增加到200毫秒不影响100 microM雷诺嗪对I(Na)的使用依赖性阻断。综上所述,数据表明雷诺嗪阻断开放状态,并可能与Na(V)1.7和Na(V)1.8通道的失活状态相互作用。雷诺嗪对hNa(V)1.7和rNa(V)1.8 Na +通道的状态和使用依赖性调节可能导致该药物在高放电频率下(如在受损神经元中)产生增强的作用。

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