In-silico based Designing of benzo[d]thiazol-2-amine Derivatives as Analgesic and Anti-inflammatory Agents.

Arun K Mishra, Kamal Y Thajudeen, Mhaveer Singh, Gulam Rasool, Arvind Kumar, Harpreet Singh, Kalicharan Sharma, Amrita Mishra
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Abstract

Background: Benzo[d]thiazoles represent a significant class of heterocyclic compounds renowned for their diverse pharmacological activities, including analgesic and antiinflammatory properties. This molecular scaffold holds substantial interest among medicinal chemists owing to its structural versatility and therapeutic potential. Incorporating the benzo[d]thiazole moiety into drug molecules has been extensively investigated as a strategy to craft novel therapeutics with heightened efficacy and minimized adverse effects.

Aims: The aim of the present research work was to design, synthesize and characterize the new benzo[d]thiazol-2-amine derivatives as potent analgesic and anti-inflammatory agents.

Materials and methods: The synthesis of the presented benzo[d]thiazol-2-amine derivatives was performed by condensing-(4-chlorobenzylidene) benzo[d]thiazol-2-amine with a number of substituted phenols in the presence of potassium iodide and anhydrous potassium carbonate in dry acetone. IR spectroscopy, 1HNMR spectroscopy, 13CNMR spectroscopy and Mass spectroscopy methods were used to characterize the structural properties of all 13 newly synthesized derivatives. The molecular properties of these newly synthesized derivatives were estimated to study the attributes of drug-like candidates. Benzo[d]thiazol-2-amine derivatives were molecularly docked with selective enzymes COX-1 and COX-2. Analgesic and anti-inflammatory activities of synthesized compounds were evaluated by using albino rats.

Results: Findings of the research suggested that compounds G3, G4, G6, G8 and G11 possess higher binding affinity than diclofenac sodium, when docking was performed with enzyme COX-1. Compounds G1, G3, G6, G8 and G10 showed lower binding affinity than Indomethacin when docking was performed with enzyme COX-2. In vitro evaluation of the COX-1 and COX-2 enzyme inhibitory activities was performed for synthesized compounds.

Discussion: Compounds G10 and G11 exhibited significant COX-1 and COX-2 enzyme inhibitory action with an IC50 value of 5.0 and 10 μM, respectively. Using the hot plate method and the carrageenan-induced rat paw edema model, the synthesized compounds were screened for their biological activities, including analgesic and anti-inflammatory activities. Highest analgesic action was exhibited by derivative G11 and the compound G10 showed the highest anti-inflammatory response. Inhibition of COX may be considered as a mechanism of action of these compounds.

Conclusion: It was concluded that synthesized derivatives G10 and G11 exhibited significant analgesic and anti-inflammatory effect; therefore, the said compounds may be subjected to further clinical investigation for establishing these as future compounds for the treatment of pain and inflammation.

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基于芯片设计的苯并[d]噻唑-2-胺衍生物作为肛门镇痛和消炎药。
背景:苯并[d]噻唑是一类重要的杂环化合物,以其多种药理活性(包括镇痛和抗炎特性)而闻名。由于其结构的多样性和治疗潜力,这种分子支架引起了药物化学家的极大兴趣。将苯并[d]噻唑分子加入药物分子中,作为一种提高疗效、减少不良反应的新型疗法的策略,已经得到了广泛的研究。研究目的:本研究工作旨在设计、合成和表征新型苯并[d]噻唑-2-胺衍生物,使其成为有效的镇痛和抗炎药物:所提出的苯并[d]噻唑-2-胺衍生物是在干燥丙酮中,在碘化钾和无水碳酸钾存在下,通过缩合-(4-氯亚苄基)苯并[d]噻唑-2-胺与一些取代的苯酚而合成的。红外光谱、1HNMR 光谱、13CNMR 光谱和质谱方法用于表征所有 13 种新合成衍生物的结构特性。对这些新合成衍生物的分子性质进行了估算,以研究其药物候选物的属性。苯并[d]噻唑-2-胺衍生物与选择性酶 COX-1 和 COX-2 进行了分子对接。用白化大鼠评估了合成化合物的镇痛和抗炎活性:研究结果表明,当与 COX-1 酶对接时,化合物 G3、G4、G6、G8 和 G11 比双氯芬酸钠具有更高的结合亲和力。对合成的化合物进行了 COX-1 和 COX-2 酶抑制活性的体外评估:化合物 G10 和 G11 具有显著的 COX-1 和 COX-2 酶抑制作用,IC50 值分别为 5.0 和 10 μM。利用热板法和卡拉胶诱导的大鼠爪水肿模型,对合成的化合物进行了生物活性筛选,包括镇痛和抗炎活性。衍生物 G11 的镇痛作用最强,化合物 G10 的抗炎反应最强。这些化合物的作用机制可能是抑制 COX:结论:合成的衍生物 G10 和 G11 具有显著的镇痛和抗炎作用;因此,可以对上述化合物进行进一步的临床研究,将其作为未来治疗疼痛和炎症的化合物。
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