An in Silico Study of the Cathepsin L Inhibitory Activity of Bioactive Compounds in Stachytarpheta jamaicensis as a Covid-19 Drug Therapy

IF 0.8 Q3 MULTIDISCIPLINARY SCIENCES Makara Journal of Science Pub Date : 2022-01-01 DOI:10.7454/mss.v26i1.1269
J. P. Utami, Nia Kurnianingsih, M. Faisal
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引用次数: 2

Abstract

Inhibition of cathepsin L (Cat L) can be considered a target for COVID -19 treatment. Starchytapheta jamaicensis is a plant from the Verbenaceae family that is commonly used for medicinal purposes. This study aims to analyze the inhibitory activities of compounds of Stachytarpheta jamaicensis toward Cat L by computational docking analysis. Ten compounds contained in the extracts (i.e., alpha-spinasterol, apigenin, luteolo1-7-glucuronide, friedelin, hispidulin, chlorogenic acid, ipolamiide, geraniol, hentriacontane, and gamma-aminobutyric acid) were selected as ligands;decanoyl-arg-val-lys-argchloromethylketone and oxocarbazate were used as the reference. Computational docking analysis was performed using Autodock Vina integrated into PyRx 8.0 and visualized using the Discovery Studio Visualizer v19.1.0.18287 (2019 version) based on the scoring functions. Seven bioactive compounds were bound more strongly than decanoyl-arg-val-lys-argchloromethylketone: alpha-spinasterol, apigenin, luteolol-7-glucuronide, friedelin, hispidulin, chlorogenic acid, and ipolamiide. However, all bioactive compounds were bound with less strength than oxocarbazate. Apigenin showed the best affinity, with much hydrogen bonding, and had the same ASN18 residue as Cat L inhibitor 1. Pre ADMET showed that all compounds of S. jamaicensis did not have hepatotoxicity, mutagenic, and carcinogenic criteria. The current research indicates that S. jamaicensis compounds can be used as an inhibitor for Cat L and as a COVID-19 drug candidate.
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牙买加葡萄树生物活性化合物抑制新冠肺炎药物治疗组织蛋白酶L活性的计算机模拟研究
组织蛋白酶L (Cat L)的抑制可以被认为是COVID -19治疗的靶标。牙买加Starchytapheta jamaicensis是马鞭草科的一种植物,通常用于药用。本研究旨在通过计算对接分析,分析牙买加水毛藻(Stachytarpheta jamaicensis)化合物对Cat L的抑制活性。选择提取物中含有的10个化合物(α -spinasterol、芹菜素、木犀草素1-7-葡糖苷、木犀草素、hispidulin、绿原酸、ipolamide、香叶醇、hentriacontane、γ -氨基丁酸)作为配体,以癸烷-arg- valy - argchlormethyl酮和oxocarbazate作为参比。基于评分函数,使用集成在PyRx 8.0中的Autodock Vina进行计算对接分析,并使用Discovery Studio Visualizer v19.1.0.18287(2019版)进行可视化。7种生物活性化合物的结合强度高于癸烷醇-精谷-精氯甲基酮:α -spinasterol、芹菜素、木犀草醇-7-葡糖苷、毛豆素、hispidulin、绿原酸和ipolamide。然而,所有生物活性化合物的结合强度都低于氧氨基甲酸酯。Apigenin与Cat L抑制剂1的亲和力最好,具有较多的氢键,且ASN18残基与Cat L抑制剂1相同。Pre - ADMET结果表明,牙买加葡萄树的所有化合物均不具有肝毒性、致突变性和致癌性标准。目前的研究表明,牙买加芽孢杆菌化合物可作为Cat L抑制剂和COVID-19候选药物。
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来源期刊
Makara Journal of Science
Makara Journal of Science MULTIDISCIPLINARY SCIENCES-
CiteScore
1.30
自引率
20.00%
发文量
24
审稿时长
24 weeks
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