Multistaged In Silico Discovery of the Best SARS-CoV-2 Main Protease Inhibitors amongst 3009 Clinical and FDA-Approved Compounds

IF 2.8 4区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

Journal of Chemistry Pub Date : 2024-03-06 DOI:10.1155/2024/5084553

Ibrahim H. Eissa, Abdulrahman M. Saleh, Sara T. Al-Rashood, Abdul-Aziz M. M. El-Attar, Ahmed M. Metwaly

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Abstract

As a follow-up to our teamwork’s former work against SARS-CoV-2, eight compounds (ramelteon (68), prilocaine (224), nefiracetam (339), cyclandelate (911), mepivacaine (2325), ropivacaine (2351), tasimelteon (2384), and levobupivacaine (2840)) were revealed as the best potentially active SARS-CoV-2 inhibitors targeting the main protease (PDB ID: 5R84), M^pro. The compounds were named in the midst of 3009 FDA and clinically approved compounds employing a multistaged in silico method. A molecular fingerprints study with GWS, the cocrystallized ligand of the M^pro, indicated the resemblance of 150 candidates. Consequently, a structure similarity experiment disclosed the best twenty-nine analogous. Then, molecular docking studies were done against the M^pro active site and showed the binding of the best compounds. Next, a 3D-pharmacophore study confirmed the obtained results for the eight compounds by exhibiting relative fit values of more than 90% (except for 68, 74%, and 2384, 83%). Levobupivacaine (2840) showed the most accurate docking and pharmacophore scores and was picked for further MD simulations experiments (RMSD, RMSF, R_g, SASA, and H-H bonding) over 100 ns. The MD simulations results revealed the accurate binding as well as the optimum dynamics of the M^pro-levobupivacaine complex. Finally, MM-PBSA studies were conducted and indicated the favorable bonding of the M^pro-levobupivacaine complex with a free energy value of −235 kJ/mol. The fulfilled outcomes hold out hope of beating COVID-19 through more in vitro and in vivo research for the named compounds.

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从 3009 种临床和 FDA 批准的化合物中分阶段发现 SARS-CoV-2 主要蛋白酶的最佳抑制剂

作为我们团队之前针对 SARS-CoV-2 所做工作的后续，8 个化合物（ramelteon (68)、prilocaine (224)、nefiracetam (339)、cyclandelate (911)、mepivacaine (2325)、ropivacaine (2351)、tasimelteon (2384) 和 levobupivacaine (2840)）被揭示为针对主要蛋白酶（PDB ID：5R84），即 Mpro。这些化合物是采用多阶段硅学方法，从 3009 种美国食品药物管理局和临床批准的化合物中挑选出来的。与 Mpro 的共晶配体 GWS 的分子指纹研究表明，150 个候选化合物具有相似性。因此，结构相似性实验揭示了最佳的 29 个类似物。然后，针对 Mpro 的活性位点进行了分子对接研究，结果显示了最佳化合物的结合情况。接着，三维药效研究证实了所获得的结果，八个化合物的相对拟合值超过了 90%（68（74%）和 2384（83%）除外）。左旋布比卡因（2840）的对接和药效学得分最为准确，因此被选中进行进一步的 MD 模拟实验（RMSD、RMSF、Rg、SASA 和 H-H 键合），实验时间超过 100 ns。MD 模拟结果表明，Mpro-levobupivacaine 复合物具有精确的结合力和最佳的动力学特性。最后，还进行了 MM-PBSA 研究，结果表明 Mpro-levobupivacaine 复合物的自由能值为 -235 kJ/mol，具有良好的结合性能。所取得的成果使我们看到了通过对所命名的化合物进行更多的体外和体内研究来战胜 COVID-19 的希望。

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来源期刊

Journal of Chemistry CHEMISTRY, MULTIDISCIPLINARY-

CiteScore

5.90

自引率

3.30%

发文量

345

审稿时长

16 weeks

期刊介绍： Journal of Chemistry is a peer-reviewed, Open Access journal that publishes original research articles as well as review articles in all areas of chemistry.