In Silico ADMET Studies, Molecular Docking and Molecular Dynamics Simulation of Thiadiazole Derivatives for the Identification of Putative HsaA Monooxygenase Inhibitors.

IF 3.5 4区医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Current medicinal chemistry Pub Date : 2025-04-03 DOI:10.2174/0109298673346116250227101530

Min Zheng, Ankush Kumar, Vishakha, Tapan Behl, Ravi Rawat, Pranay Wal, Ketki Rani, Mohit Agarwal, Raghwendra R Waghmode, Monica Gulati, Azmat Ali Khan, Amer M Alanazi, Seema Ramniwas, Bairong Shen, Rajeev Kumar Singla

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引用次数: 0

Abstract

Introduction: The rise of drug-resistant strains of Mycobacterium tuberculosis (Mtb) represents a substantial public health challenge. Current TB treatments involve the combination of several antibiotics and other agents. However, the development of drug resistance, reduced bioavailability, and elevated toxicity have rendered most of the drugs less effective.

Method: To resolve this problem, the identification of novel anti-tuberculosis agents with novel mechanisms of action is the need of the hour. HsaA monooxygenase is an enzyme involved in cholesterol metabolism, particularly in certain strains of Mycobacterium bacteria. This research focuses on discovering new inhibitors for HsaA from a pool of 40 compounds using computational techniques like molecular docking and Molecular Dynamics (MD) simulations along with comparing it with GSK2556286.

Results: Docking studies revealed that AK05 and AK13 showed good binding affinity as compared to GSK2556286. The docking scores of AK05, AK13, and GSK2556286 are -9.4, -9.0, and -8.9 kcal/mol, respectively. ADMET studies showed that these thiadiazole derivatives can be investigated as lead molecules for the development of novel antituberculosis drugs. MD simulation studies showed that both of the compounds AK05 and AK13 were stable at the binding site with RMSD below 0.25 nm.

Conclusion: All these findings demonstrated that AK05 and AK13 could be used as potent compounds for the development of HsaA monooxygenase inhibitors.

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在硅ADMET研究，分子对接和分子动力学模拟噻二唑衍生物鉴定推定HsaA单加氧酶抑制剂。

导言：耐药结核分枝杆菌（Mtb）菌株的增加是一项重大的公共卫生挑战。目前的结核病治疗包括几种抗生素和其他药物的联合治疗。然而，耐药性的发展、生物利用度的降低和毒性的升高使大多数药物的效果降低。方法：寻找具有新作用机制的新型抗结核药物是解决这一问题的迫切需要。HsaA单加氧酶是一种参与胆固醇代谢的酶，特别是在某些分枝杆菌菌株中。本研究的重点是利用分子对接和分子动力学（MD）模拟等计算技术，从40种化合物中发现新的HsaA抑制剂，并将其与GSK2556286进行比较。结果：对接研究显示，AK05和AK13与GSK2556286相比具有良好的结合亲和力。AK05、AK13和GSK2556286的对接分数分别为-9.4、-9.0和-8.9 kcal/mol。ADMET研究表明，这些噻二唑衍生物可以作为开发新型抗结核药物的先导分子。MD模拟研究表明，化合物AK05和AK13在结合位点稳定，RMSD均小于0.25 nm。结论：AK05和AK13可作为开发HsaA单加氧酶抑制剂的有效化合物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Current medicinal chemistry 医学-生化与分子生物学

CiteScore

8.60

自引率

2.40%

发文量

468

审稿时长

3 months

期刊介绍： Aims & Scope Current Medicinal Chemistry covers all the latest and outstanding developments in medicinal chemistry and rational drug design. Each issue contains a series of timely in-depth reviews and guest edited thematic issues written by leaders in the field covering a range of the current topics in medicinal chemistry. The journal also publishes reviews on recent patents. Current Medicinal Chemistry is an essential journal for every medicinal chemist who wishes to be kept informed and up-to-date with the latest and most important developments.