In-Silico Design and Evaluation of the Anti-Wolbachia Potential of Boron-Pleuromutilins

F. A. Ugbe, Gideon Adamu Shallangwa, Shallangwa Adamu Uzairu, I. Abdulkadir
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Abstract

Filariasis (Lymphatic filariasis and Onchocerciasis) is a common neglected tropical disease caused by parasitic nematodes called filarial worms, which often host the Wolbachia bacteria. A good treatment approach seeks Wolbachia as a drug target. Here, a computer-aided design of some boron-pleuromutilin analogs was conducted using the ligand-based drug design approach while performing molecular docking investigation and pharmacokinetics analyses to evaluate their drug-likeness properties. The newly designed compounds (49a, 49b, and 49c) showed improved inhibitory activities (pEC50) over those of the template and the clinically relevant pleuromutilins (retapamulin and lefamulin) in the order; 49b (pEC50 = 9.0409) > 49c (8.8175) > 49a (8.5930) > template (49) (8.4222) > retapamulin (6.7403) > lefamulin (6.1369). Standard docking performed with OTU deubiquitinase (6W9O) revealed the order of binding energies; 49c (-88.07 kcal/mol) > 49b (-84.26 kcal/mol) > doxycycline (-83.70 kcal/mol) > template (-82.57 kcal/mol) > 49a (-78.43 kcal/mol) > lefamulin (-76.83 kcal/mol) > retapamulin (-76.78 kcal/mol), with the new compounds all showing good pharmacological interactions with the receptor’s amino acids. The new analogs were also predicted to be orally bioavailable with better pharmacokinetic profiles than the template, retapamulin, lefamulin, and doxycycline having no more than one violation of Lipinski’s ROF. Therefore, the newly designed compounds could be considered potential anti-filarial drug candidates.
硼-胸膜多林抗沃尔巴克氏体潜能的硅设计与评价
丝虫病(淋巴丝虫病和盘尾丝虫病)是一种常见的被忽视的热带病,由被称为丝虫病的寄生线虫引起,丝虫病通常是沃尔巴克氏菌的宿主。一个好的治疗方法是寻找沃尔巴克氏体作为药物靶点。本文采用基于配体的药物设计方法,对一些硼-胸膜残素类似物进行了计算机辅助设计,同时进行了分子对接研究和药代动力学分析,以评估它们的药物相似性。新设计的化合物(49a、49b和49c)的抑制活性(pEC50)依次高于模板和临床相关的胸膜多素(retapamulin和lefamulin);49b (pEC50 = 9.0409) > 49c (8.8175) > 49a (8.5930) > template (49) (8.4222) > retapamulin (6.7403) > lefamulin(6.1369)。与OTU去泛素酶(6w90)的标准对接显示了结合能的顺序;49c (-88.07 kcal/mol) > 49b (-84.26 kcal/mol) >多西环素(-83.70 kcal/mol) >模板(-82.57 kcal/mol) > 49a (-78.43 kcal/mol) > lefamulin (-76.83 kcal/mol) > retapamulin (-76.78 kcal/mol),新化合物与受体氨基酸均表现出良好的药理作用。与模板、retapamulin、lefamulin和强力霉素相比,新设计的类似物具有更好的口服生物动力学特征,且不超过一次违反Lipinski’s ROF。因此,新设计的化合物可以被认为是潜在的抗丝虫候选药物。
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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