Identification of a new retigabine derivative with improved photostability for selective activation of neuronal Kv7 channels and antiseizure activity

IF 6.6 1区 医学 Q1 CLINICAL NEUROLOGY Epilepsia Pub Date : 2024-08-14 DOI:10.1111/epi.18092
Hongbin Wang, Zhen Qiao, Kun Luan, Wei Xiang, Xiuying Chang, Yanru Zhang, Ningning Wei, KeWei Wang
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Abstract

Objective

Pharmacological activation of neuronal Kv7 channels by the antiepileptic drug retigabine (RTG; ezogabine) has been proven effective in treating partial epilepsy. However, RTG was withdrawn from the market due to the toxicity caused by its phenazinium dimer metabolites, leading to peripheral skin discoloration and retinal abnormalities. To address the undesirable metabolic properties of RTG and prevent the formation of phenazinium dimers, we made chemical modifications to RTG, resulting in a new RTG derivative, 1025c, N,N′-{4-[(4-fluorobenzyl) (prop-2-yn-1-yl)amino]-1,2-phenylene}bis(3,3-dimethylbutanamide).

Methods

Whole-cell recordings were used to evaluate Kv7 channel openers. Site-directed mutagenesis and molecular docking were adopted to investigate the molecular mechanism underlying 1025c and Kv7.2 interactions. Mouse seizure models of maximal electroshock (MES), subcutaneous pentylenetetrazol (scPTZ), and PTZ-induced kindling were utilized to test compound antiepileptic activity.

Results

The novel compound 1025c selectively activates whole-cell Kv7.2/7.3 currents in a concentration-dependent manner, with half-maximal effective concentration of .91 ± .17 μmol·L−1. The 1025c compound also causes a leftward shift in Kv7.2/7.3 current activation toward a more hyperpolarized membrane potential, with a shift of the half voltage of maximal activation (ΔV1/2) of −18.6 ± 3.0 mV. Intraperitoneal administration of 1025c demonstrates dose-dependent antiseizure activities in assays of MES, scPTZ, and PTZ-induced kindling models. Moreover, through site-directed mutagenesis combined with molecular docking, a key residue Trp236 has been identified as critical for 1025c-mediated activation of Kv7.2 channels. Photostability experiments further reveal that 1025c is more photostable than RTG and is unable to dimerize.

Significance

Our findings demonstrate that 1025c exhibits potent and selective activation of neuronal Kv7 channels without being metabolized to phenazinium dimers, suggesting its developmental potential as an antiseizure agent for therapy.

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鉴定一种新的瑞替加滨衍生物,它具有更好的光稳定性,可选择性激活神经元 Kv7 通道并具有抗癫痫活性。
目的:抗癫痫药物雷替加滨(Retigabine,RTG;ezogabine)对神经元 Kv7 通道的药理激活已被证实对治疗部分性癫痫有效。然而,RTG 因其吩嗪二聚体代谢物导致外周皮肤变色和视网膜异常的毒性而退出市场。为了解决RTG的不良代谢特性并防止吩嗪二聚体的形成,我们对RTG进行了化学修饰,得到了一种新的RTG衍生物1025c,即N,N'-{4-[(4-氟苄基)(丙-2-炔-1-基)氨基]-1,2-亚苯基}双(3,3-二甲基丁酰胺):全细胞记录用于评估 Kv7 通道开放剂。采用定点突变和分子对接研究 1025c 与 Kv7.2 相互作用的分子机制。利用最大电击(MES)、皮下注射戊四唑(scPTZ)和PTZ诱发的小鼠癫痫发作模型来测试化合物的抗癫痫活性:结果:新型化合物 1025c 以浓度依赖性方式选择性激活全细胞 Kv7.2/7.3 电流,半最大有效浓度为 .91 ± .17 μmol-L-1。1025c 化合物还能使 Kv7.2/7.3 电流活化向更高超极化膜电位左移,最大活化半电压(ΔV1/2)为 -18.6 ± 3.0 mV。在MES、scPTZ和PTZ诱导的激怒模型试验中,腹腔注射1025c显示出剂量依赖性抗癫痫活性。此外,通过定点突变和分子对接,确定了 Trp236 这一关键残基对 1025c 介导的 Kv7.2 通道激活至关重要。光稳定性实验进一步揭示,1025c 比 RTG 具有更高的光稳定性,并且不能二聚:我们的研究结果表明,1025c对神经元Kv7通道具有强效的选择性激活作用,且不会被代谢为酚嗪二聚体,这表明它具有作为抗癫痫治疗药物的发展潜力。
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来源期刊
Epilepsia
Epilepsia 医学-临床神经学
CiteScore
10.90
自引率
10.70%
发文量
319
审稿时长
2-4 weeks
期刊介绍: Epilepsia is the leading, authoritative source for innovative clinical and basic science research for all aspects of epilepsy and seizures. In addition, Epilepsia publishes critical reviews, opinion pieces, and guidelines that foster understanding and aim to improve the diagnosis and treatment of people with seizures and epilepsy.
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