Novel pyrimidine based semicarbazones: Confirmation of four binding site pharmacophoric model hypothesis for antiepileptic activity.

Central nervous system agents in medicinal chemistry Pub Date : 2016-03-30

Harish Rajak, Deepak K Jain, Swati Singh, Avineesh Singh, Vijay K Patel, Ravichandran Veerasamy, Rajesh S Pawar

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Abstract

Background: Epilepsy is a neurological disorder, characterized by seizures accompanied by loss or disturbance of consciousness affecting various physical and mental functions. Current anticonvulsant drugs are effective in controlling seizures in about 70% of cases, but their use is often limited by side effects like ataxia, megaloblastic anemia, hepatic failure. In search for a novel anticovulsant drug with better efficacy and lower toxicity, a series of novel pyrimidine based semicarbazone were designed and evaluated for antiepileptic activity.

Methods: The test compounds were designed on the basis of four site binding hypothesis proposed for anticonvulsant activity. The chemical structures of the test compounds were elucidated using spectral (IR, 1H NMR, 13C NMR and MS) and elemental analysis. The minimal motor impairment activity was determined in mice using rotorod test. The maximal electroshock seizure (MES) and subcutaneous pentylenetrtrazole (scPTZ) models were employed for anticonvulsant evaluation.

Results: The results reveal that 76% of the compounds were active in the MES screening as compared to 53% of the compounds in the scPTZ test. Test compounds showed some MES selectivity displaying their effectiveness in generalized seizures of the tonic-clonic type. The molecular docking analysis of semicarbazone derivatives showed good ligand-receptor interactions with specially hydrogen bond interactions with ARG192, GLU270 and THR353 amino acid of receptor.

Conclusion: The present report confirms that pharmacophore model with four binding sites is crucial for anticonvulsant activity in the semicarbazones.

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新型嘧啶类半咔唑酮：确认抗癫痫活性的四个结合部位药效模型假设。

背景：癫痫是一种神经系统疾病，其特点是癫痫发作时伴有意识丧失或意识障碍，影响各种身体和精神功能。目前的抗惊厥药物在约 70% 的病例中能有效控制癫痫发作，但由于共济失调、巨幼红细胞性贫血、肝功能衰竭等副作用，这些药物的使用往往受到限制。为了寻找疗效更好、毒性更低的新型抗惊厥药物，我们设计了一系列新型嘧啶类半咔唑酮，并对其抗癫痫活性进行了评估：方法：试验化合物是根据抗惊厥活性的四个结合位点假说设计的。利用光谱（红外光谱、1H NMR、13C NMR 和 MS）和元素分析阐明了测试化合物的化学结构。利用转子试验测定了小鼠的最小运动损伤活性。采用最大电击癫痫（MES）和皮下注射戊四唑（scPTZ）模型进行抗惊厥评价：结果表明，76% 的化合物在 MES 筛选中具有活性，而 53% 的化合物在 scPTZ 试验中具有活性。测试化合物显示出一定的 MES 选择性，显示出它们对强直阵挛型全身性癫痫发作的有效性。半咔唑酮衍生物的分子对接分析表明，配体与受体之间存在良好的相互作用，特别是与受体的 ARG192、GLU270 和 THR353 氨基酸之间存在氢键相互作用：本报告证实，具有四个结合位点的药理模型对半咔唑类药物的抗惊厥活性至关重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Central nervous system agents in medicinal chemistry

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