MOLECULAR DOCKING DYNAMICS OF SELECTED BENZYLIDENE AMINO PHENYL ACETAMIDES AS TMK INHIBITORS USING HIGH THROUGHPUT VIRTUAL SCREENING (HTVS)

Q2 Pharmacology, Toxicology and Pharmaceutics International Journal of Applied Pharmaceutics Pub Date : 2024-05-07 DOI:10.22159/ijap.2024v16i3.50023

Koppula Jayanthi, Syed Suhaib Ahmed, Mohd Abdul Baqi, Mohammed AFZAL AZAM

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Abstract

Objective: Thymidylate kinase (TMK) plays a crucial role in bacterial DNA synthesis by catalyzing the phosphorylation of deoxythymidine monophosphate (dTMP) to form deoxythymidine diphosphate (dTDP). Consequently, this enzyme emerges as a promising target for developing novel antibacterial drugs. However, no antibiotics were reported for this target, especially active against Staphylococcus aureus thymidylate kinase. Methods: Benzylidene acetamide-based ligands were examined for their potency using the in silico method. These novel ligand structures were built using ChemDraw software. The protein was retrieved from the Research Collaboratory for Structural Bioinformatics Protein Data Bank (RCSB PDB) website. The molecular docking and binding free energy calculation by prime Molecular Mechanics in Generalized Bond Surface Area (MM-GBSA) was performed for selected ligands. A 100 ns molecular dynamic simulation was also performed to assess the stability of the potential ligand as TMK inhibitors. Results: All ten molecules have shown good glide scores and hydrophobic and hydrogen hydrophobic hydrogen bonding interactions with Arg48, Arg36, and π-π stacking Phe66 in the TMK enzyme (PDB: 4HLC). Among them, N-(2-ethylphenyl)-2-(4-((4-nitrobenzylidene) amino) phenoxy) acetamide molecule had high XP-docking scores of-3.27 kcal/mol based on extra-precision data. Prime Molecular Mechanics in Generalized Bond Surface Area study (MM-GBSA) studies also showed promising binding affinities that are ΔBind (-65.80), ΔLipo (-28.55), and ΔVdW (-55.10). Phe66 amino acid residue maintained continuous connections with the ligand during MD simulation. This ligand showed promising binding affinity with the SaTMK target. Conclusion: The N-(2-ethylphenyl)-2-(4-((4-nitrobenzylidene) amino) phenoxy) acetamide ligand at the position of the benzene ring displayed nitrogen and oxygen group, thus indicating good potential activity as the inhibitor of TMK to treat antibacterial agents.

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利用高通量虚拟筛选（HTVS）对作为 TMK 抑制剂的精选苯亚氨基苯基乙酰胺进行分子对接动力学研究

目的：胸苷酸激酶（TMK）通过催化单磷酸脱氧胸苷（dTMP）的磷酸化形成二磷酸脱氧胸苷（dTDP），在细菌的 DNA 合成过程中发挥着至关重要的作用。因此，这种酶成为开发新型抗菌药物的一个很有前景的靶点。然而，目前还没有报道针对这一靶点的抗生素，尤其是对金黄色葡萄球菌胸苷酸激酶有活性的抗生素：方法：采用硅学方法研究了苯亚乙酰胺配体的效力。这些新型配体结构是用 ChemDraw 软件构建的。蛋白质是从结构生物信息学研究合作组织蛋白质数据库（RCSB PDB）网站上获取的。通过广义键面面积分子力学（MM-GBSA）对选定配体进行了分子对接和结合自由能计算。此外，还进行了 100 ns 的分子动力学模拟，以评估潜在配体作为 TMK 抑制剂的稳定性：结果：所有十种分子都显示出良好的滑行得分以及与 TMK 酶（PDB：4HLC）中 Arg48、Arg36 和 π-π 堆积 Phe66 的疏水和氢疏水氢键相互作用。其中，N-(2-乙基苯基)-2-(4-((4-硝基亚苄基)氨基)苯氧基)乙酰胺分子的XP-对接得分较高，根据额外精度数据为3.27 kcal/mol。广义键表面积分子力学研究（MM-GBSA）也显示出良好的结合亲和力，分别为ΔBind（-65.80）、ΔLipo（-28.55）和ΔVdW（-55.10）。在 MD 模拟过程中，Phe66 氨基酸残基与配体保持连续连接。该配体与 SaTMK 靶点的结合亲和力良好：N-(2-乙基苯基)-2-(4-((4-硝基亚苄基)氨基)苯氧基)乙酰胺配体在苯环的位置上显示出氮基和氧基，因此表明其作为 TMK 抑制剂治疗抗菌剂具有良好的潜在活性。

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来源期刊

International Journal of Applied Pharmaceutics Pharmacology, Toxicology and Pharmaceutics-Pharmacology, Toxicology and Pharmaceutics (miscellaneous)

CiteScore

1.40

自引率

0.00%

发文量

219

期刊介绍： International Journal of Applied Pharmaceutics (Int J App Pharm) is a peer-reviewed, bimonthly (onward March 2017) open access journal devoted to the excellence and research in the pure pharmaceutics. This Journal publishes original research work that contributes significantly to further the scientific knowledge in conventional dosage forms, formulation development and characterization, controlled and novel drug delivery, biopharmaceutics, pharmacokinetics, molecular drug design, polymer-based drug delivery, nanotechnology, nanocarrier based drug delivery, novel routes and modes of delivery; responsive delivery systems, prodrug design, development and characterization of the targeted drug delivery systems, ligand carrier interactions etc. However, the other areas which are related to the pharmaceutics are also entertained includes physical pharmacy and API (active pharmaceutical ingredients) analysis. The Journal publishes original research work either as a Original Article or as a Short Communication. Review Articles on a current topic in the said fields are also considered for publication in the Journal.