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Design, synthesis, and biological evaluation of novel 1,2-diaryl-4-substituted-benzylidene-5(4H)-imidazolone derivatives as cytotoxic agents and COX-2/LOX inhibitors
- 1.0488993 - ÚEB 2019 RIV DE eng J - Journal Article
Lamie, P.F. - Philoppes, J.N. - Rárová, Lucie
Design, synthesis, and biological evaluation of novel 1,2-diaryl-4-substituted-benzylidene-5(4H)-imidazolone derivatives as cytotoxic agents and COX-2/LOX inhibitors.
Archiv der Pharmazie. Roč. 351, 3-4 (2018), č. článku e1700311. ISSN 0365-6233. E-ISSN 1521-4184
R&D Projects: GA MŠMT(CZ) LO1204
Institutional support: RVO:61389030
Keywords : anti-inflammatory * cytotoxicity * diaryl imidazolone derivatives * molecular docking study
OECD category: Biochemical research methods
Impact factor: 2.145, year: 2018
A new series of 1,2-diaryl-4-substituted-benzylidene-5(4H)-imidazolone derivatives 4a–l was synthesized. Their structures were confirmed by different spectroscopic techniques (IR, 1 H NMR, DEPT-Q NMR, and mass spectroscopy) and elemental analyses. Their cytotoxic activities in vitro were evaluated against breast, ovarian, and liver cancer cell lines and also normal human skin fibroblasts. Cyclooxygenase (COX)-1, COX-2 and lipoxygenase (LOX) inhibitory activities were measured. The synthesized compounds showed selectivity toward COX-2 rather than COX-1, and the IC 50 values (0.25–1.7 µM) were lower than that of indomethacin (IC 50 = 9.47 µM) and somewhat higher than that of celecoxib (IC 50 = 0.071 µM). The selectivity index for COX-2 of the oxazole derivative 4e (SI = 3.67) was nearly equal to that of celecoxib (SI = 3.66). For the LOX inhibitory activity, the new compounds showed IC 50 values of 0.02–74.03 µM, while the IC 50 of the reference zileuton was 0.83 µM. The most active compound 4c (4-chlorobenzoxazole derivative) was found to have dual COX-2/LOX activity. All the synthesized compounds were docked inside the active site of the COX-2 and LOX enzymes. They linked to COX-2 through the N atom of the azole scaffold, while CO of the oxazolone moiety was responsible for the binding to amino acids inside the LOX active site.
Permanent Link: http://hdl.handle.net/11104/0283488
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