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新型香豆素杂化物的合成及其抗SARS-CoV-2潜力:一种针对M、Nsp15和刺突蛋白的湿/干实验室联合方法

Synthesis and anti-SARS-CoV-2 potential of novel coumarin hybrids: a combined wet/dry lab approach targeting M, Nsp15 and spike protein.

作者信息

Kausar Rukhsana, Mansha Asim, Zahoor Ameer Fawad, Haroon Muhammad

机构信息

Department of Chemistry, Government College University Faisalabad Faisalabad-38000 Pakistan

出版信息

RSC Adv. 2025 Jun 3;15(23):18577-18592. doi: 10.1039/d5ra02615f. eCollection 2025 May 29.

DOI:10.1039/d5ra02615f
PMID:40463350
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12131968/
Abstract

This study focuses on the synthesis of novel hybrids with a coumarin scaffold as potential SARS-CoV-2 inhibitors. All the novel coumarin-1,2,4-triazole hybrids 14(a-h) and phenylacetamide linked coumarin derivatives 17(a-h) were synthesized by following a standard procedure in good to excellent yields , 51-75% for 14(a-h) and 62-82% for 17(a-h). The synthesized derivatives were subjected to modelling to evaluate their anti-SARS-CoV-2 potential, targeting M (main protease), Nsp15 (nonstructural protein) and spike protein. Among all, compounds 14b and 14c expressed excellent potency against their respective targets with corresponding binding affinities of -9.5 kcal mol (6VWW), -9.2 kcal mol (6Y84), and -8.6 (6WPT) kcal mol, even better than all standards , chloroquine, lopinavir, remdesivir, favipiravir, and nirmatrelvir. The stability of the potent compounds (14b and 14c) was further supported by a 100 ns MD simulation, emphasizing their potent and stable interactions with the main protease, endoribonuclease, and spike protein. The current study highlights the coumarin-based conjugates 14(a-h) and 17(a-h) as attractive and promising candidates for future pharmacological interventions against SARS-CoV-2.

摘要

本研究聚焦于合成以香豆素为骨架的新型杂合物,作为潜在的新型冠状病毒2抑制剂。所有新型香豆素-1,2,4-三唑杂合物14(a - h)和苯乙酰胺连接的香豆素衍生物17(a - h)均按照标准程序合成,产率良好至优异,14(a - h)为51 - 75%,17(a - h)为62 - 82%。对合成的衍生物进行建模,以评估它们针对M(主要蛋白酶)、Nsp15(非结构蛋白)和刺突蛋白的抗新型冠状病毒2潜力。其中,化合物14b和14c对各自靶点表现出优异的活性,相应的结合亲和力分别为-9.5 kcal/mol(6VWW)、-9.2 kcal/mol(6Y84)和-8.6(6WPT)kcal/mol,甚至优于所有标准药物,如氯喹、洛匹那韦、瑞德西韦、法匹拉韦和奈玛特韦。通过100 ns的分子动力学模拟进一步证实了强效化合物(14b和14c)的稳定性,强调了它们与主要蛋白酶、核糖核酸内切酶和刺突蛋白的强效且稳定的相互作用。当前研究突出了基于香豆素的共轭物14(a - h)和17(a - h)作为未来抗新型冠状病毒2药物干预的有吸引力且有前景的候选物。

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