Designing of Ligand-107 an Effective Variant of Antimalarial Drug Lumefantrine through Structure-Based Computer-Aided Drug Development Approach

IF 0.4 Q4 PHARMACOLOGY & PHARMACY

Asian Journal of Pharmaceutics Pub Date : 2020-11-28 DOI:10.22377/ajp.v14i4.3819

L. Ravi

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引用次数: 2

Abstract

Background: Lumefantrine is a well-known antimalarial drug that has proven to be effective even against the multidrug-resistant Plasmodium sp. Although it is very effective, the shelf life of the drug is very short and is highly hydrophobic, hence, the drug has to be administered along with fat. Lumefantrine is also known for its undesired side effects that are overlooked in case of untreatable (drug resistant) malarial infections. Methodology: In this study, structure-based computational drug development approach was performed on lumefantrine structure to improve the biological properties using OSIRIS property explorer software. A total of 25 ligand molecules were designed that exhibited better Absorption, Distribution, Metabolism, Excretion, Toxicity (ADMET) properties. Results: A total of 20 drug targets were chosen and docked with lumefantrine to identify its potential target. Lumefantrine demonstrated significant affinity toward falcipain-3 protein with a free binding energy of −10.92 Kcal/mol and inhibition constant of 9.94 nM, suggesting that falcipain-3 is the potential drug target of lumefantrine. Among the 25 designed ligands with improved ADMET properties, ligand-107 demonstrated 100-fold higher affinity toward falcipain-3 with a free binding energy of −14.26 Kcal/mol and inhibition constant of 35.11 pM. Based on this improved affinity to inhibit falcipain-3 and based on improved ADMET properties of ligand-107, it was concluded to be the most effective variant of lumefantrine in this study. Conclusion: The result of the study could be greatly useful to pharmaceutical industries to develop an efficient antimalarial drug.

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基于结构的计算机辅助药物开发方法设计抗疟药物鲁美ntrine的有效变体配体-107

背景：Lumefantrine是一种著名的抗疟药物，已被证明即使对耐多药疟原虫也有效。尽管它非常有效，但该药物的保质期非常短，而且具有高度疏水性，因此，该药物必须与脂肪一起服用。Lumefantrine也因其不良副作用而闻名，在无法治疗（耐药）的疟疾感染病例中，这些副作用被忽视了。方法：在本研究中，使用OSIRIS属性浏览器软件，对流明三烯结构进行了基于结构的计算药物开发方法，以改善其生物特性。共设计了25个配体分子，它们表现出更好的吸收、分布、代谢、排泄、毒性（ADMET）特性。结果：共选择了20个药物靶点，并与卢明三烯对接，以确定其潜在靶点。Lumefantrine对恶性蛋白酶-3蛋白表现出显著的亲和力，自由结合能为−10.92 Kcal/mol，抑制常数为9.94 nM，表明恶性蛋白酶-3是Lumefantrine的潜在药物靶点。在25个设计的具有改进的ADMET性质的配体中，配体-107对恶性蛋白酶-3表现出100倍高的亲和力，自由结合能为−14.26 Kcal/mol，抑制常数为35.11 pM，在本研究中，它被认为是流明三烯最有效的变体。结论：该研究结果可为制药行业开发有效的抗疟药物提供参考。

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

Asian Journal of Pharmaceutics PHARMACOLOGY & PHARMACY-

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期刊介绍： Character of the publications: -Pharmaceutics and Pharmaceutical Technology -Formulation Design and Development -Drug Discovery and Development Interface -Manufacturing Science and Engineering -Pharmacokinetics, Pharmacodynamics, and Drug Metabolism -Clinical Pharmacology, General Medicine and Translational Research -Physical Pharmacy and Biopharmaceutics -Novel Drug delivery system -Biotechnology & Microbiological evaluations -Regulatory Sciences