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新型 1,2,3-三唑-(硫)巴比妥酸杂合体作为脲酶抑制剂的设计、合成、体外脲酶抑制、对接研究和分子动力学模拟。

New 1,2,3-triazole-(thio)barbituric acid hybrids as urease inhibitors: Design, synthesis, in vitro urease inhibition, docking study, and molecular dynamic simulation.

机构信息

School of Chemistry, College of Science, University of Tehran, Tehran, Iran.

Department of Medicinal Chemistry, School of Pharmacy-International Campus, Iran University of Medical Sciences, Tehran, Iran.

出版信息

Arch Pharm (Weinheim). 2020 Sep;353(9):e2000023. doi: 10.1002/ardp.202000023. Epub 2020 Jun 28.

DOI:10.1002/ardp.202000023
PMID:32596826
Abstract

A new series of 1,2,3-triazole-(thio)barbituric acid hybrids 8a-n was designed and synthesized on the basis of potent pharmacophores with urease inhibitory activity. Therefore, these compounds were evaluated against Helicobacter pylori urease. The obtained result demonstrated that all the synthesized compounds, 8a-n, were more potent than the standard urease inhibitor, hydroxyurea. Moreover, among them, compounds 8a, 8c-e, 8g,h, and 8k,l exhibited higher urease inhibitory activities than the other standard inhibitor used: thiourea. Docking studies were performed with the synthesized compounds. Furthermore, molecular dynamic simulation of the most potent compounds, 8e and 8l, showed that these compounds interacted with the conserved residues Cys592 and His593, which belong to the active site flap and are essential for enzymatic activity. These interactions have two consequences: (a) blocking the movement of a flap at the entrance of the active site channel and (b) stabilizing the closed active site flap conformation, which significantly reduces the catalytic activity of urease. Calculation of the physicochemical and topological properties of the synthesized compounds 8a-n predicted that all these compounds can be orally active. The ADME prediction of compounds 8a-n was also performed.

摘要

基于具有尿素酶抑制活性的有效药效团,设计并合成了一系列新的 1,2,3-三唑-(硫)巴比妥酸杂合体 8a-n。因此,这些化合物针对幽门螺杆菌尿素酶进行了评估。所得结果表明,所有合成的化合物 8a-n 均比标准尿素酶抑制剂羟基脲具有更强的活性。此外,其中化合物 8a、8c-e、8g、h 和 8k、l 表现出比使用的其他标准抑制剂(硫脲)更高的尿素酶抑制活性。对合成的化合物进行了对接研究。此外,最有效的化合物 8e 和 8l 的分子动力学模拟表明,这些化合物与保守残基 Cys592 和 His593 相互作用,这些残基属于活性位点瓣,对于酶活性至关重要。这些相互作用有两个后果:(a)阻止活性位点通道入口处瓣的运动;(b)稳定封闭的活性位点瓣构象,这显著降低了尿素酶的催化活性。对合成的化合物 8a-n 的物理化学和拓扑性质的计算表明,所有这些化合物都可以口服。还对化合物 8a-n 的 ADME 进行了预测。

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