Design and in silico evaluation of oxadiazole linked chromone derivatives as anti-depressant agents

Q4 Earth and Planetary Sciences Research Journal of Chemistry and Environment Pub Date : 2023-12-05 DOI:10.25303/281rjce73079
D. Gupta, Vidya Murugeshwari, Pankaj Kumar, Abhishek Kumar
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Abstract

Depression is a common CNS disorder due to disturbances in the serotonin and dopamine level within the brain. In this study, different derivatives (C1-C32) of oxadiazole-linked chromone were designed and in silico studies were performed to investigate its anti-depressant activities. Compounds were docked with 5HT1 receptors to do so and MMGBSA and ADMET properties were evaluated. Further, compounds pharmacophore modeling and antidepressant activity were calculated using the phase and PASS tools. Among 32 designed compounds, C15, C29 and C31 showed the highest docking scores of -7.617, -7.269 and -7.325 kcal/mol and exhibited significant interaction with 5HT1 receptors compared to the standard drug imipramine. Compound C15 showed the highest binding efficiency with a binding energy of -77.79; the expected common is having a binding energy of -47.20. ADME properties show that all the designed compounds followed the rule of five. Further ligand-receptor complex potential interactions were evaluated using pharmacophore modeling, indicating that the compound has steric and electronic features to ensure the interaction with the selected receptor. Further, the antidepressant activity was predicted. Compounds C15 and C21 have the highest possibility of being antidepressant molecules with 0.827 and 0.833 pa values.
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设计并在硅学中评估作为抗抑郁剂的噁二唑链铬酮衍生物
抑郁症是一种常见的中枢神经系统疾病,是由于脑内血清素和多巴胺水平紊乱所致。在这项研究中,我们设计了不同的噁二唑链色酮(C1-C32)衍生物,并进行了硅学研究,以探讨其抗抑郁活性。为此,化合物与 5HT1 受体进行了对接,并评估了 MMGBSA 和 ADMET 特性。此外,还利用 phase 和 PASS 工具计算了化合物的药理模型和抗抑郁活性。在设计的 32 个化合物中,C15、C29 和 C31 的对接得分最高,分别为 -7.617、-7.269 和 -7.325 kcal/mol,与标准药物丙咪嗪相比,它们与 5HT1 受体有显著的相互作用。化合物 C15 显示出最高的结合效率,其结合能为 -77.79;预期的共同结合能为 -47.20。ADME 特性表明,所有设计的化合物都遵循了 "五 "法则。利用药理模型对配体-受体复合物的潜在相互作用进行了进一步评估,结果表明化合物具有立体和电子特征,可确保与所选受体发生相互作用。此外,还预测了抗抑郁活性。化合物 C15 和 C21 成为抗抑郁分子的可能性最大,pa 值分别为 0.827 和 0.833。
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来源期刊
CiteScore
0.50
自引率
0.00%
发文量
195
审稿时长
4-8 weeks
期刊介绍: Information not localized
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