1. Synthesis, potential antitumor activity, cell cycle analysis, and multitarget mechanisms of novel hydrazones incorporating a 4-methylsulfonylbenzene scaffold: a molecular docking study.
- Author
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Abdel-Aziz, Alaa A.-M., El-Azab, Adel S., AlSaif, Nawaf A., Obaidullah, Ahmad J., Al-Obaid, Abdulrahman M., and Al-Suwaidan, Ibrahim A.
- Subjects
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ANTINEOPLASTIC agents , *MOLECULAR docking , *CELL analysis , *CELL cycle , *HYDRAZONES , *ERLOTINIB - Abstract
Hydrazone is a bioactive pharmacophore that can be used to design antitumor agents. We synthesised a series of hydrazones (compounds 4–24) incorporating a 4-methylsulfonylbenzene scaffold and analysed their potential antitumor activity. Compounds 6, 9, 16, and 20 had the most antitumor activity with a positive cytotoxic effect (PCE) of 52/59, 27/59, 59/59, and 59/59, respectively, while compounds 5, 10, 14, 15, 18, and 19 had a moderate antitumor activity with a PCE of 11/59–14/59. Compound 20 was the most active and had a mean 50% cell growth inhibition (GI50) of 0.26 µM. Compounds 9 and 20 showed the highest inhibitory activity against COX-2, with a half-maximal inhibitory concentration (IC50) of 2.97 and 6.94 μM, respectively. Compounds 16 and 20 significantly inhibited EGFR (IC50 = 0.2 and 0.19 μM, respectively) and HER2 (IC50 = 0.13 and 0.07 μM, respectively). Molecular docking studies of derivatives 9, 16, and 20 into the binding sites of COX-2, EGFR, and HER2 were carried out to explore the interaction mode and the structural requirements for antitumor activity. Compound 20 (MG_MID = 0.26 µM) is nearly 65-fold more potent than celecoxib (MG_MID = 17.5 µM), 3-fold more potent than 5-Fu (MG_MID = 0.90 µM), 30-fold more potent than erlotinib (MG_MID = 7.68 µM), and 9-fold more potent than gefitinib (MG_MID = 2.1 µM) and sorafenib (MG_MID = 2.33 µM). [ABSTRACT FROM AUTHOR]
- Published
- 2021
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