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异噻唑衍生物的人工神经网络定量构效关系、分子对接、药物代谢动力学/药物毒性预测及分子动力学研究,以设计新型选择性丙型肝炎病毒聚合酶NS5B抑制剂

ANN-QSAR, Molecular Docking, ADMET Predictions, and Molecular Dynamics Studies of Isothiazole Derivatives to Design New and Selective Inhibitors of HCV Polymerase NS5B.

作者信息

Fattouche Maroua, Belaidi Salah, Abchir Oussama, Al-Shaar Walid, Younes Khaled, Al-Mogren Muneerah Mogren, Chtita Samir, Soualmia Fatima, Hochlaf Majdi

机构信息

Group of Computational and Medicinal Chemistry, Molecular Chemistry and Environment Laboratory, University of Biskra, BP 145, Biskra 07000, Algeria.

Laboratory of Analytical and Molecular Chemistry, Hassan II University of Casablanca, B.P, 7955 Casablanca, Morocco.

出版信息

Pharmaceuticals (Basel). 2024 Dec 18;17(12):1712. doi: 10.3390/ph17121712.

DOI:10.3390/ph17121712
PMID:39770554
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11678770/
Abstract

RNA polymerase (NS5B), serves as a crucial target for pharmaceutical interventions aimed at combating the hepatitis C virus (HCV), which poses significant health challenges worldwide. The present research endeavors to explore and implement a variety of advanced molecular modeling techniques that aim to create and identify innovative and highly effective inhibitors that specifically target the RNA polymerase enzyme. In this study, a QSAR investigation was carried out on a set of thirty-eight isothiazole derivatives targeting NS5B inhibition and thus hepatitis C virus (HCV) treatment. The research methodology made use of various statistical techniques including multiple linear regression (MLR) and artificial neural networks (ANNs) to develop satisfactory models in terms of internal and external validation parameters, indicating their reliability in predicting the activity of new inhibitors. Accordingly, a series of potent NS5B inhibitors is designed, and their inhibitory potential is confirmed through molecular docking simulations. These simulations showed that the interactions between these inhibitors and the active site 221 binding pocket of the NS5B protein are hydrophobic and hydrogen bond interactions, as well as carbon-hydrogen bonds and electrostatic interactions. Additionally, these newly formulated compounds displayed favorable ADMET characteristics, with molecular dynamics investigations revealing a stable energetic state and dynamic equilibrium. Our work highlights the importance of NS5B inhibition for the treatment of HCV.

摘要

RNA聚合酶(NS5B)是对抗丙型肝炎病毒(HCV)的药物干预的关键靶点,丙型肝炎病毒在全球范围内对健康构成重大挑战。本研究致力于探索和应用各种先进的分子建模技术,旨在创建和识别专门针对RNA聚合酶的创新且高效的抑制剂。在本研究中,针对一组38种异噻唑衍生物进行了定量构效关系(QSAR)研究,这些衍生物旨在抑制NS5B从而治疗丙型肝炎病毒(HCV)。研究方法利用了多种统计技术,包括多元线性回归(MLR)和人工神经网络(ANNs),以根据内部和外部验证参数开发出令人满意的模型,表明它们在预测新抑制剂活性方面的可靠性。因此,设计了一系列有效的NS5B抑制剂,并通过分子对接模拟证实了它们的抑制潜力。这些模拟表明,这些抑制剂与NS5B蛋白的活性位点221结合口袋之间的相互作用是疏水相互作用、氢键相互作用,以及碳氢键和静电相互作用。此外,这些新配制的化合物表现出良好的药物代谢动力学(ADMET)特性,分子动力学研究揭示了稳定的能量状态和动态平衡。我们的工作突出了NS5B抑制对丙型肝炎病毒治疗的重要性。

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