A Perspective into "TEL"-Tenofovir, Emtricitabine and Lamivudine Antileprotic Activities by Drug Repurposing and Exploring the Possibility of Combination Chemotherapy with Drug Rescued Molecules for a Leprosy Free Mankind.

Recent advances in anti-infective drug discovery Pub Date : 2023-01-01 DOI:10.2174/2772434418666230220123217

Pugazhenthan Thangaraju, Sree Sudha Tanguturi Yella, Vijayakumar Arumugam Ramamurthy, Irfan Navabshan, Thameemul Ansari Lappathai Habeeb Mohamed

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Abstract

Background: Since leprosy bacilli cannot grow in vitro, testing for antimicrobial resistance against Mycobacterium leprae or assessing the anti-leprosy activity of new drugs remains hard. Furthermore, developing a new leprosy drug through the traditional drug development process is not economically captivating for pharmaceutical companies. As a result, repurposing existing drugs/approved medications or their derivatives to test their anti-leprotic potency is a promising alternative. It is an accelerated method to uncover different medicinal and therapeutic properties in approved drug molecules.

Aims: The study aims to explore the binding potential of anti-viral drugs such as Tenofovir, Emtricitabine, and Lamivudine (TEL) against Mycobacterium leprae using molecular docking.

Methods: The current study evaluated and confirmed the possibility of repurposing antiviral drugs such as TEL (Tenofovir, Emtricitabine, and Lamivudine) by transferring the graphical window of the BIOVIA DS2017 with the Crystal Structure of a phosphoglycerate mutase gpm1 from Mycobacterium leprae (PDB ID: 4EO9). Utilizing the smart minimizer algorithm, the protein's energy was reduced in order to achieve a stable local minima conformation.

Results: The protein and molecule energy minimization protocol generated stable configuration energy molecules. The protein 4EO9 energy was reduced from 14264.5 kcal/mol to -17588.1 kcal/mol.

Conclusion: The CHARMm algorithm-based CDOCKER run docked all three molecules (TEL) inside the 4EO9 protein binding pocket (Mycobacterium leprae). The interaction analysis revealed that tenofovir had a better binding molecule with a score of - 37.7297 kcal/mol than the other molecules.

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“TEL”-替诺福韦、恩曲他滨和拉米夫定药物再利用抗麻风活性及探索药物拯救分子联合化疗的可能性

背景:由于麻风杆菌不能在体外生长，因此检测麻风分枝杆菌的耐药性或评估新药的抗麻风活性仍然很困难。此外，通过传统的药物开发过程开发一种新的麻风病药物对制药公司来说在经济上并不具有吸引力。因此，重新利用现有药物/批准的药物或其衍生物来测试其抗麻风效力是一种很有希望的替代方法。这是一种加速发现经批准的药物分子中不同的药用和治疗特性的方法。目的:本研究旨在通过分子对接探索替诺福韦、恩曲他滨和拉米夫定(TEL)等抗病毒药物对麻风分枝杆菌的结合潜力。方法:本研究通过将BIOVIA DS2017的图形窗口与麻风分枝杆菌(PDB ID: 4EO9)磷酸甘油酸突变酶gpm1的晶体结构转移，评估并证实了抗病毒药物TEL(替诺福韦、恩曲他宾和拉米夫定)重新利用的可能性。利用智能最小化算法，降低蛋白质的能量，以达到稳定的局部最小构象。结果:蛋白质和分子能量最小化方案产生了稳定的构型能量分子。蛋白4EO9能量从14264.5 kcal/mol降至-17588.1 kcal/mol。结论:基于CHARMm算法的CDOCKER运行将所有三个分子(TEL)停靠在4EO9蛋白结合口袋(麻风分枝杆菌)内。相互作用分析表明，替诺福韦具有较好的结合分子，其结合分数为- 37.7297 kcal/mol。

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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Recent advances in anti-infective drug discovery

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1.80

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0.00%

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