Design, Synthesis, Pharmacological Evaluation of Quinazolin-4(3H)-Ones Bearing Urea Functionality as Potential VEGFR-2 Inhibitors.

IF 4.7 2区 医学 Q1 CHEMISTRY, MEDICINAL Drug Design, Development and Therapy Pub Date : 2024-11-12 eCollection Date: 2024-01-01 DOI:10.2147/DDDT.S490930
Mohammad M Al-Sanea, Hani M Hafez, Ahmed A B Mohamed, Hamed W El-Shafey, Abdullah A Elgazar, Samar S Tawfik, Wafaa A Ewes, Shaimaa Hussein, Tariq G Alsahli, Abdelrahman Hamdi
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引用次数: 0

Abstract

Background: In response to the urgent need for continuous discovery of new anti-proliferative agents, a new series of quinazoline compounds 5a-r was prepared.

Methods: As a reference, four cancer cell lines-HCT116, HePG2, Hela, and MCF-7-and sorafenib (SOR) were used to assess the novel motifs' in vitro anticancer efficacy. The most cytotoxic compounds were tested in a VEGFR-2 suppressive test and flow cytometric test. Docking analysis was done to the three novel motifs.

Results: Compound 5d showed the best anti-tumor activity of the tested compounds with IC50 6.09, 2.39, 8.94 and 4.81 μM in succession. In addition, compound 5h revealed a potent anticancer effect against HCT116 and HePG2 with IC50 5.89 and 6.74 μM, respectively. Also, compound 5p exhibited very strong activity against HCT116, HePG2 & MCF7 with IC50 8.32, 9.72 and 7.99, respectively. Compound 5p had the highest inhibition against VEGFR-2 with an IC50 of 0.117 μM, in contrast to 0.069 μM for SOR. According to flow cytometric testing, the most effective VEGFR-2 inhibitory agent, 5p, was shown to suppress the G1/S cell population in MCF-7 cells. Docking analysis confirmed that the three novel motifs could bind to the VEGFR-2 enzyme's binding region like the co-crystallized ligand SOR did.

Conclusion: The enzyme inhibitory test of compound 5p showed that it is the most potent hybrid that caused MCF-7 cells to undergo apoptosis and generated a G1/S cell cycle arrest. Confirmation of the obtained results was done with the aid of the docking study, which showed that the three motifs might adhere to the enzyme's major active sites, and the results were in good accordance with the experimental VEGFR-2 inhibitory results. We can conclude that the new quinazoline compounds 5a-r could be used as candidates for development of more efficient anticancer inhibitors.

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具有尿素功能的喹唑啉-4(3H)-酮作为潜在 VEGFR-2 抑制剂的设计、合成和药理评估。
研究背景为了满足不断发现新的抗增殖药物的迫切需要,我们制备了一系列新的喹唑啉化合物 5a-r:方法:以四种癌细胞系(HCT116、HePG2、Hela 和 MCF-7)和索拉非尼(SOR)为参照物,评估新型基团的体外抗癌功效。对细胞毒性最强的化合物进行了 VEGFR-2 抑制测试和流式细胞仪测试。结果显示,化合物 5d 的抗癌效果最好:结果:化合物 5d 的 IC50 分别为 6.09、2.39、8.94 和 4.81 μM,是测试化合物中抗肿瘤活性最好的。此外,化合物 5h 对 HCT116 和 HePG2 具有很强的抗癌作用,IC50 分别为 5.89 和 6.74 μM。此外,化合物 5p 对 HCT116、HePG2 和 MCF7 具有很强的活性,IC50 分别为 8.32、9.72 和 7.99。化合物 5p 对 VEGFR-2 的抑制作用最强,IC50 为 0.117 μM,而对 SOR 的抑制作用为 0.069 μM。根据流式细胞仪测试,最有效的 VEGFR-2 抑制剂 5p 能抑制 MCF-7 细胞中的 G1/S 细胞群。Docking 分析证实,这三种新型基团能像共晶体配体 SOR 一样结合到 VEGFR-2 酶的结合区:化合物 5p 的酶抑制试验表明,它是导致 MCF-7 细胞凋亡和产生 G1/S 细胞周期停滞的最有效的混合物。借助对接研究对所获得的结果进行了确认,结果表明这三个基团可能附着在酶的主要活性位点上,其结果与 VEGFR-2 抑制实验结果非常吻合。我们可以得出结论,新的喹唑啉化合物 5a-r 可以作为候选化合物,用于开发更有效的抗癌抑制剂。
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来源期刊
Drug Design, Development and Therapy
Drug Design, Development and Therapy CHEMISTRY, MEDICINAL-PHARMACOLOGY & PHARMACY
CiteScore
9.00
自引率
0.00%
发文量
382
审稿时长
>12 weeks
期刊介绍: Drug Design, Development and Therapy is an international, peer-reviewed, open access journal that spans the spectrum of drug design, discovery and development through to clinical applications. The journal is characterized by the rapid reporting of high-quality original research, reviews, expert opinions, commentary and clinical studies in all therapeutic areas. Specific topics covered by the journal include: Drug target identification and validation Phenotypic screening and target deconvolution Biochemical analyses of drug targets and their pathways New methods or relevant applications in molecular/drug design and computer-aided drug discovery* Design, synthesis, and biological evaluation of novel biologically active compounds (including diagnostics or chemical probes) Structural or molecular biological studies elucidating molecular recognition processes Fragment-based drug discovery Pharmaceutical/red biotechnology Isolation, structural characterization, (bio)synthesis, bioengineering and pharmacological evaluation of natural products** Distribution, pharmacokinetics and metabolic transformations of drugs or biologically active compounds in drug development Drug delivery and formulation (design and characterization of dosage forms, release mechanisms and in vivo testing) Preclinical development studies Translational animal models Mechanisms of action and signalling pathways Toxicology Gene therapy, cell therapy and immunotherapy Personalized medicine and pharmacogenomics Clinical drug evaluation Patient safety and sustained use of medicines.
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