Molecular docking of alpha-enolase to elucidate the promising candidates against Streptococcus pneumoniae infection.

Daru : journal of Faculty of Pharmacy, Tehran University of Medical Sciences Pub Date : 2021-06-01 Epub Date: 2021-02-03 DOI:10.1007/s40199-020-00384-3

Muhammad Hassan, Atif Amin Baig, Syed Awais Attique, Shafqat Abbas, Fizza Khan, Sara Zahid, Qurat Ul Ain, Muhammad Usman, Nordin Bin Simbak, Mohammad Amjad Kamal, Hanani Ahmad Yusof

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Abstract

Purpose: To predict potential inhibitors of alpha-enolase to reduce plasminogen binding of Streptococcus pneumoniae (S. pneumoniae) that may lead as an orally active drug. S. pneumoniae remains dominant in causing invasive diseases. Fibrinolytic pathway is a critical factor of S. pneumoniae to invade and progression of disease in the host body. Besides the low mass on the cell surface, alpha-enolase possesses significant plasminogen binding among all exposed proteins.

Methods: In-silico based drug designing approach was implemented for evaluating potential inhibitors against alpha-enolase based on their binding affinities, energy score and pharmacokinetics. Lipinski's rule of five (LRo5) and Egan's (Brain Or IntestinaL EstimateD) BOILED-Egg methods were executed to predict the best ligand for biological systems.

Results: Molecular docking analysis revealed, Sodium (1,5-dihydroxy-2-oxopyrrolidin-3-yl)-hydroxy-dioxidophosphanium (SF-2312) as a promising inhibitor that fabricates finest attractive charges and conventional hydrogen bonds with S. pneumoniae alpha-enolase. Moreover, the pharmacokinetics of SF-2312 predict it as a therapeutic inhibitor for clinical trials. Like SF-2312, phosphono-acetohydroxamate (PhAH) also constructed adequate interactions at the active site of alpha-enolase, but it predicted less favourable than SF-2312 based on binding affinity.

Conclusion: Briefly, SF-2312 and PhAH ligands could inhibit the role of alpha-enolase to restrain plasminogen binding, invasion and progression of S. pneumoniae. As per our investigation and analysis, SF-2312 is the most potent naturally existing inhibitor of S. pneumoniae alpha-enolase in current time.

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通过α-烯醇酶的分子对接来阐明抗肺炎链球菌感染的候选药物。

目的：预测潜在的α-烯醇化酶抑制剂，以减少肺炎链球菌（S. pneumoniae）的纤溶酶原结合，从而成为一种口服活性药物。肺炎链球菌仍是引起侵袭性疾病的主要病原菌。纤溶途径是肺炎链球菌侵入宿主体内并导致疾病进展的关键因素。在所有暴露的蛋白质中，α-烯醇化酶除了在细胞表面的质量较低外，还具有显著的纤溶酶原结合能力：方法：根据α-烯醇化酶的结合亲和力、能量得分和药代动力学，采用基于硅的药物设计方法评估潜在的抑制剂。结果：分子对接分析表明，α-烯醇化酶抑制剂钠与α-烯醇化酶的结合亲和力和药代动力学都很高，而α-烯醇化酶抑制剂钠与α-烯醇化酶的结合亲和力和药代动力学都很低：分子对接分析表明，(1,5-二羟基-2-氧代吡咯烷-3-基)-羟基-二氧磷酸钠（SF-2312）是一种很有前途的抑制剂，它能与肺炎双球菌α-烯醇化酶形成最吸引人的电荷和常规氢键。此外，SF-2312 的药代动力学预示着它是一种可用于临床试验的治疗抑制剂。与 SF-2312 一样，膦酰基乙酰羟肟酸酯（PhAH）也在α-烯醇化酶的活性位点上构建了充分的相互作用，但根据结合亲和力预测，它的效果不如 SF-2312：简而言之，SF-2312 和 PhAH 配体可抑制α-烯醇化酶的作用，从而抑制纤溶酶原的结合、肺炎双球菌的入侵和发展。根据我们的调查和分析，SF-2312 是目前对肺炎双球菌α-烯醇化酶最有效的天然抑制剂。

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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Daru : journal of Faculty of Pharmacy, Tehran University of Medical Sciences

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