Synthesis, Computational Analysis, and Pharmacological Evaluation of Novel Schiff Base Hybrids for Anxiolytic and Skeletal Muscle-Relaxant Activities.

Central nervous system agents in medicinal chemistry Pub Date : 2025-09-11 DOI:10.2174/0118715249355436250806100850

Amit Kumar, Sushil Kumar, Shivam, Archana Gautam, Afreen Usmani, Sneha Rawat

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Abstract

Introduction: Schiff bases are a well-known class of substances with a variety of pharmacological properties, including skeletal muscle relaxant and anxiolytic effects. They are ideal candidates for the development of CNS-active drugs due to their structural adaptability and ability to interact with a range of biological targets. The purpose of this study was to create, synthesize, and describe new Schiff base hybrids and assess their possible skeletal muscle relaxant and anxiolytic effects using pharmacological and computational techniques.

Methods: By using condensation reactions between primary amines and substituted aromatic aldehydes, several new Schiff base hybrids were created. FT-IR, ¹H NMR, ¹³C NMR, and mass spectrometry were used for structural elucidation. To evaluate binding affinity with GABA-A and NMDA receptor sites, computational investigations involving molecular docking and ADME profiling were carried out. Validated rodent models were utilized for pharmacological evaluations, including the rotarod and traction tests to assess skeletal muscle relaxation, as well as the elevated plus maze and open-field tests to evaluate anxiolytic activity.

Results: The synthesized Schiff base derivatives demonstrated high purity and stability. In accordance with the observed in vivo anxiolytic activity, docking studies demonstrated advantageous binding interactions with the GABA-A receptor.

Discussion: Certain compounds exhibited moderate skeletal muscle relaxant activity, without producing noticeable sedation or motor impairment, as well as significant anxiolytic effects comparable to those of diazepam (p < 0.05). Good drug-likeness and CNS permeability were predicted for the lead compounds by ADME analysis.

Conclusion: Both in silico and in vivo tests support the encouraging skeletal muscle relaxant and anxiolytic properties of the synthesized Schiff base hybrids. These results suggest their potential as top contenders for the development of innovative CNS-active medications.

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新型希夫碱杂合体抗焦虑和骨骼肌松弛活性的合成、计算分析和药理学评价。

简介：希夫碱是一类众所周知的物质，具有多种药理特性，包括骨骼肌松弛和抗焦虑作用。由于其结构适应性和与一系列生物靶点相互作用的能力，它们是开发中枢神经系统活性药物的理想候选者。本研究的目的是创建、合成和描述新的希夫碱混合物，并利用药理学和计算技术评估其可能的骨骼肌松弛和抗焦虑作用。方法：利用伯胺与取代芳醛之间的缩合反应，合成了几种新的希夫碱杂化物。采用FT-IR，¹H NMR，¹³C NMR和质谱法进行结构解析。为了评估与GABA-A和NMDA受体位点的结合亲和力，进行了涉及分子对接和ADME分析的计算研究。利用验证的啮齿动物模型进行药理学评估，包括评估骨骼肌松弛的旋转杆和牵引试验，以及评估焦虑活性的升高加迷宫和开放场试验。结果：合成的希夫碱衍生物纯度高，稳定性好。根据在体内观察到的抗焦虑活性，对接研究表明与GABA-A受体有有利的结合相互作用。讨论：某些化合物表现出适度的骨骼肌松弛活性，没有产生明显的镇静或运动损伤，以及与地西泮相当的显著的抗焦虑作用（p < 0.05）。ADME分析预测先导化合物具有良好的药物相似性和中枢神经系统通透性。结论：合成的希夫碱杂合体具有令人鼓舞的骨骼肌松弛和抗焦虑的特性。这些结果表明它们有潜力成为开发创新中枢神经系统活性药物的主要竞争者。

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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