手指根(Boesenbergia rotunda L.)作为动脉粥样硬化相关蛋白(CETP, ACAT1, OSC, sPLA2)抑制剂的潜在生物活性化合物的探索:一项硅研究

Q3 Pharmacology, Toxicology and Pharmaceutics Jordan Journal of Pharmaceutical Sciences Pub Date : 2023-09-23 DOI:10.35516/jjps.v16i3.1609
Muhammad Hermawan Widyananda, Coni Anggie Kurniasari, Fajar Mustika Alam, Wahyu Choirur Rizky, Tim Godefridus Antonius Dings, Arif Nur Muhammad Ansori, Yulanda Antonius
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引用次数: 0

摘要

Boesenbergia rotunda L.,俗称指根,被认为是印度尼西亚的药用植物之一,具有治疗多种疾病的重要潜力,包括动脉粥样硬化。本研究旨在通过评估指根生物活性化合物对四种动脉粥样硬化相关蛋白(CETP、ACAT1、OSC和sPLA2)的抑制作用,分析其抗动脉粥样硬化潜力。从backpack数据库中检索到圆形圆孢杆菌的活性化合物。使用SwissADME web服务器预测药物相似性,使用PASSOnline服务器评估化合物的生物活性。利用SCFBio web服务器和Autodock Vina进行蛋白活性位点的鉴定和蛋白结构的验证。使用AutoDock Vina进行指根化合物与靶蛋白之间的特异性对接模拟。分析表明,指根中含有20种具有良好药理作用的生物活性化合物。其中,二氢菊素、樱素、异海松酸、2s -松皮素、5,7-二羟基-8- c -香叶黄酮、7,4'-二羟基-5-甲氧基黄酮和5,7-二羟基-8,7-甲氧基-5-羟基-8-香叶黄酮被预测具有抗动脉粥样硬化活性。在与CETP的相互作用中,rubranine和(-)-4-hydroxypanduratin A的结合亲和力评分最低。同时,在与ACAT1、OSC和sPLA2的相互作用中,rubranine和5,7-二羟基-8- c -香叶黄酮的结合亲和力最低。总之,手指根通过抑制与动脉粥样硬化相关的四种蛋白质,显示出很高的抗动脉粥样硬化药物的潜力,正如通过硅分析预测的那样。
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Exploration of Potentially Bioactive Compounds from Fingerroot (Boesenbergia rotunda L.) as Inhibitor of Atherosclerosis-Related Proteins (CETP, ACAT1, OSC, sPLA2): An in silico Study
Boesenbergia rotunda L., commonly known as fingerroot, is recognized as one of Indonesia's medicinal plants with significant potential for treating various diseases, including atherosclerosis. This study aims to analyze the anti-atherosclerosis potential of bioactive compounds found in fingerroot by assessing their inhibitory effects on four proteins associated with atherosclerosis (CETP, ACAT1, OSC, and sPLA2). Bioactive compounds from B. rotunda were retrieved from the KnapSack database. The drug-likeness properties were predicted using the SwissADME web server, and the bioactivity of the compounds was assessed using the PASSOnline server. The identification of active sites on proteins and the validation of protein structures were performed using the SCFBio web server and Autodock Vina. Specific docking simulations between fingerroot compounds and the target proteins were carried out using AutoDock Vina. The analysis revealed that fingerroot contains 20 bioactive compounds with favorable drug-like properties. Among these, dihydrochrysin, sakuranetin, isopimaric acid, 2S-pinocembrin, 5,7-dihydroxy-8-C-geranylflavanone, 7,4'-dihydroxy-5-methoxyflavanone, and 5,7-dihydroxy-8,7-methoxy-5-hydroxy-8-geranylflavanone were predicted to exhibit anti-atherosclerosis activities. In the interactions with CETP, rubranine and (-)-4-hydroxypanduratin A showed the lowest binding affinity scores. Meanwhile, in interactions with ACAT1, OSC, and sPLA2, rubranine and 5,7-dihydroxy-8-C-geranylflavanone displayed the lowest binding affinities. In conclusion, fingerroot exhibits high potential as an anti-atherosclerosis agent through the inhibition of four proteins associated with atherosclerosis, as predicted through in silico analysis.
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来源期刊
Jordan Journal of Pharmaceutical Sciences
Jordan Journal of Pharmaceutical Sciences Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
1.70
自引率
0.00%
发文量
33
期刊介绍: The Jordan Journal of Pharmaceutical Sciences (JJPS) is a scientific, bi-annual, peer-reviewed publication that will focus on current topics of interest to the pharmaceutical community at large. Although the JJPS is intended to be of interest to pharmaceutical scientists, other healthy workers, and manufacturing processors will also find it most interesting and informative. Papers will cover basic pharmaceutical and applied research, scientific commentaries, as well as views, reviews. Topics on products will include manufacturing process, quality control, pharmaceutical engineering, pharmaceutical technology, and philosophies on all aspects of pharmaceutical sciences. The editorial advisory board would like to place an emphasis on new and innovative methods, technologies, and techniques for the pharmaceutical industry. The reader will find a broad range of important topics in this first issue.
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