新型吡啶基-糖基杂交化合物和无环类似物的合成、抗癌活性、对接和计算研究。

IF 3.2 4区医学 Q3 CHEMISTRY, MEDICINAL Future medicinal chemistry Pub Date : 2024-09-12 DOI:10.1080/17568919.2024.2389768

Mohamed N El-Bayaa,Eman R Kotb,Sabri Messaoudi,Hanem M Awad,Mahmoud G Saleh,Hanan A Soliman

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引用次数: 0

摘要

通过杂环化和糖基化制备了新的吡啶-O-糖苷及其无环核苷类似物。对 HCT-116、HepG2、MCF-7 人癌细胞和 BJ-1 细胞的抗癌活性研究表明，具有 4-溴苯基的半乳糖苷和吡喃木糖苷对 HepG2 细胞具有较强的细胞毒活性，而苷 7-9 则对 MCF-7 乳腺癌细胞具有较强的细胞毒活性。在 HCT-116 大肠癌细胞方面，两种产品及其衍生的苷类和无环类似物显示出了强大的活性。除了计算研究之外，还通过硅学分子对接模拟研究了最有效化合物与 CDK2 酶活性位点的可能结合亲和力。研究结果支持了3a和8的抗增殖作用，并阐明了它们与催化位点的相互作用。

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Synthesis, anticancer activity, docking and computational studies of new pyridyl-glycosyl hybrids and acyclic analogs.

New pyridine-O-glycosides and their acyclic nucleoside analogues were prepared by heterocyclization and glycosylation. The anticancer activity against HCT-116, HepG2 and MCF-7 human cancer cells and BJ-1 cell revealed that the galacto- and xylopyranosyl glycosides possessing 4-bromophenyl have superior cytotoxic activities against HepG2 cell while glycosides 7-9 resulted in superior cytotoxic activities regarding MCF-7 breast cell. In case of HCT-116 colorectal carcinoma cells, two products and the derived glycosides and acyclic analogues showed potent activities. The most potent compounds were investigated for their possible binding affinities to the active site of CDK2 enzyme via in silico molecular docking simulation in addition to computational studies. The results support the antiproliferative effect and elucidate the interactions of 3a and 8 with catalytic sites.

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来源期刊

Future medicinal chemistry CHEMISTRY, MEDICINAL-

CiteScore

5.80

自引率

2.40%

发文量

118

审稿时长

4-8 weeks

期刊介绍： Future Medicinal Chemistry offers a forum for the rapid publication of original research and critical reviews of the latest milestones in the field. Strong emphasis is placed on ensuring that the journal stimulates awareness of issues that are anticipated to play an increasingly central role in influencing the future direction of pharmaceutical chemistry. Where relevant, contributions are also actively encouraged on areas as diverse as biotechnology, enzymology, green chemistry, genomics, immunology, materials science, neglected diseases and orphan drugs, pharmacogenomics, proteomics and toxicology.