新型双-1,2,4-三唑系列作为胸苷磷酸化酶抑制剂的合成、生物学评价及分子对接研究
Synthesis, Biological Evaluation and Molecular Docking Studies of Novel Series of Bis-1,2,4-Triazoles as Thymidine Phosphorylase Inhibitor.
作者信息
Korol Nataliya, Holovko-Kamoshenkova Oksana M, Slivka Mikhailo, Pallah Oleksandra, Onysko Mykhailo Yu, Kryvovyaz Andriy, Boyko Nadiya V, Yaremko Olha V, Mariychuk Ruslan
机构信息
Organic Chemistry Department, Educational and Research Institute of Chemistry and Ecology, Uzhhorod National University, Uzhhorod, Ukraine.
Department of Clinical and Laboratory Diagnostics and Pharmacology, Faculty of Dentistry, Uzhhorod National University, Uzhhorod, Ukraine.
出版信息
Adv Appl Bioinform Chem. 2023 Aug 4;16:93-102. doi: 10.2147/AABC.S415961. eCollection 2023.
INTRODUCTION
Heterocyclic compounds have diverse biological activities and potential in drug development. This study aims to synthesize novel compounds with two 1,2,4-triazole cores and evaluate their biological properties, particularly their inhibitory activity against thymidine phosphorylase (TP), an enzyme involved in various physiological processes.
METHODS
The compounds were synthesized by reacting 5,5'-butane-bis-1,2,4-triazole derivatives with prenyl bromide. Characterization involved various techniques, including spectroscopy and elemental analysis. Antimicrobial potential was evaluated against bacteria and fungi, with comparative antibiotics as references. Inhibitory activity against TP was assessed, and molecular docking studies were conducted.
RESULTS
Six compounds were successfully synthesized and their structures confirmed. The synthesized triazole derivatives exhibited high biological activity, with compounds 2 and 6 showing the most promising TP inhibition. Molecular docking studies revealed interactions between compound 2 and TP, involving nine amino acids.
DISCUSSION
The synthesis of novel compounds with two 1,2,4-triazole cores contributes significantly to bis-triazole research. These compounds have potential as anti-tumor agents due to their inhibitory activity against TP, a crucial enzyme in tumor growth and metastasis. Comparative evaluation against antibiotics highlights their potency. Docking results provide insights into their interactions with TP, supporting their potential as potent TP inhibitors. Further research should focus on evaluating their efficacy in biological models, understanding their mechanisms of action, and optimizing their activities.
CONCLUSION
The synthesized compounds with two 1,2,4-triazole cores exhibit significant biological activity, including strong TP inhibition and broad-spectrum antimicrobial effects. These findings emphasize their potential as anti-tumor agents and the need for further exploration and optimization. Future research should focus on evaluating their efficacy in biological models, understanding their mechanisms of action, and developing more potent bis-triazole derivatives for drug discovery efforts. The combined results from assays and docking studies support the therapeutic potential of these compounds as anti-tumor agents.
引言
杂环化合物具有多种生物活性以及在药物开发中的潜力。本研究旨在合成具有两个1,2,4 - 三唑核心的新型化合物,并评估其生物学特性,特别是它们对胸苷磷酸化酶(TP)的抑制活性,TP是一种参与多种生理过程的酶。
方法
通过使5,5'-丁烷 - 双 - 1,2,4 - 三唑衍生物与异戊烯基溴反应来合成这些化合物。表征涉及多种技术,包括光谱学和元素分析。以对照抗生素为参考,评估对细菌和真菌的抗菌潜力。评估对TP的抑制活性,并进行分子对接研究。
结果
成功合成了六种化合物并确认了其结构。合成的三唑衍生物表现出高生物活性,化合物2和6显示出最有前景的TP抑制作用。分子对接研究揭示了化合物2与TP之间的相互作用,涉及九个氨基酸。
讨论
具有两个1,2,4 - 三唑核心的新型化合物的合成对双三唑研究有显著贡献。由于它们对TP的抑制活性,这些化合物具有作为抗肿瘤剂的潜力,TP是肿瘤生长和转移中的关键酶。与抗生素的比较评估突出了它们的效力。对接结果提供了它们与TP相互作用的见解,支持它们作为有效TP抑制剂的潜力。进一步的研究应集中在评估它们在生物学模型中的功效、理解其作用机制以及优化其活性。
结论
合成的具有两个1,2,4 - 三唑核心的化合物表现出显著的生物活性,包括强烈的TP抑制和广谱抗菌作用。这些发现强调了它们作为抗肿瘤剂的潜力以及进一步探索和优化的必要性。未来的研究应集中在评估它们在生物学模型中的功效、理解其作用机制以及开发更有效的双三唑衍生物用于药物发现工作。测定和对接研究的综合结果支持了这些化合物作为抗肿瘤剂的治疗潜力。
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