一些1,3,4 -恶二唑衍生物抗变形链球菌生物学特性的体外和计算机评价及其与Gbp-C的分子对接作用

B. Omidi, Yasin SarveAhrabi
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摘要

背景:需要更换新的药物结构,以治疗耐药菌株已成为必不可少的。变形链球菌是导致蛀牙的最重要因素之一。葡聚糖结合蛋白- c (Gbp-C)是生物膜形成过程中重要的活动底蛋白,1,3,4 -恶二唑是新型抗菌结构。因此,本研究的重点是评估我们之前合成的1,3,4 -恶二唑对变形链球菌的体外和体内活性。方法:对先前合成的衍生物进行重新合成和制备,并采用抑菌区、最小抑菌浓度(MIC)和最小杀菌浓度(MBC)试验值进行抗菌药敏试验。分子对接法也证实了化合物与变形链球菌Gbp-C相互作用的效果。结果:各化合物对细菌样品均有不同的抑菌效果。其中萘(4d)、氟苯基(4e)和二甲氧基(4h)衍生物对变形链球菌的抑制作用最强。其他化合物也有抗菌性能,但程度较低。在分子部分,化合物4d和4h对gbpc -蛋白的抑制作用最强。化合物4d与氨基酸ASP、GLN分别建立402、391个氢键,化合物4h与氨基酸SER、GLU、THR、TRP分别建立347、360、449、451个氢键。结论:一般情况下,含有高浓度萘和二甲氧基苯基官能团的1,3,4 -恶二唑可作为现有药物的良好替代品,用于消除具有耐药性的致龋牙齿突变体。似乎通过添加不同目的基团和增加恶二唑类化合物的破坏力,可以在临床标本上观察到更多的抑制作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In Vitro and In Silico Evaluation of Biological Properties of Some 1, 3, 4-Oxadiazole Derivatives Against Streptococcus mutans and Their Interaction With Gbp-C by Molecular Docking
Background: The need to replace new drug structures for the treatment of resistant strains has become essential. Streptococcus mutans is one of the most important factors in causing tooth decay. Glucan binding protein-C (Gbp-C) is a crucial mobileular floor protein that is worried in biofilm formation, and 1, 3, 4-oxadiazoles are new antibacterial structures. Accordingly, this study focused on assessing in vitro and in silico activity of our previously synthesized compounds of 1, 3, 4-oxadiazole against S. mutans. Methods: To this end, our previously synthesized derivatives were re-synthesized and prepared, and then antibacterial susceptibility tests were used for inhibition zone, minimum inhibitory concentration (MIC), and minimum bactericidal concentration (MBC) test values. The molecular docking method was also applied to confirm the effect of compounds in interaction with the Gbp-C of S. mutans. Results: All compounds showed different effects against the bacterial sample. Among these, the most effective ones were related to naphthalene (4d), fluorophenyl (4e), and dimethoxyphenyl (4h) derivatives against S. mutans, respectively. Other compounds also had antibacterial properties but to a lesser extent. In the molecular part, compounds 4d and 4h had the highest affinity to inhibit the GbpC-protein. compound 4d with amino acids ASP and GLN established 402 and 391 hydrogen bonds, respectively, and compound 4h with amino acids SER, GLU, THR, and TRP established 347, 360, 449, and 451 hydrogen bonds, respectively. Conclusions: In general, 1, 3, 4-oxadiazoles containing naphthalene and dimethoxy phenyl functional groups in high concentrations can be good alternatives to the existing drugs for eliminating caries-causing tooth mutants that have drug resistance. It seems that more inhibitory effects can be observed on clinical specimens by adding different purposeful groups and increasing the destructive power of oxadiazole-based compounds.
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