Exploration of isoxazole analogs: Synthesis, COX inhibition, anticancer screening, 3D multicellular tumor spheroids, and molecular modeling

In this study, a new series of Isoxazole-carboxamide derivatives were synthesized and characterized via HRMS, 1H-, 13CAPT-NMR, and MicroED. The findings revealed that nearly all of the synthesized derivatives exhibited potent inhibitory activities against both COX enzymes, with IC50 values ranging f...

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Veröffentlicht in:European journal of medicinal chemistry 2024-05, Vol.271, p.116397-116397, Article 116397
Hauptverfasser: Hawash, Mohammed, Abdallah, Samer, Abudayyak, Mahmoud, Melhem, Yarob, Abu Shamat, Mohammed, Aghbar, Meera, Çapan, Irfan, Abualhasan, Murad, Kumar, Anil, Kamiński, Michał, Góral, Tomasz, Dominiak, Paulina Maria, Sobuh, Shorooq
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Sprache:eng
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Zusammenfassung:In this study, a new series of Isoxazole-carboxamide derivatives were synthesized and characterized via HRMS, 1H-, 13CAPT-NMR, and MicroED. The findings revealed that nearly all of the synthesized derivatives exhibited potent inhibitory activities against both COX enzymes, with IC50 values ranging from 4.1 nM to 3.87 μM. Specifically, MYM1 demonstrated the highest efficacy among the compounds tested against the COX-1, displaying an IC50 value of 4.1 nM. The results showed that 5 compounds possess high COX-2 isozyme inhibitory effects with IC50 value in range 0.24–1.30 μM with COX-2 selectivity indexes (2.51–6.13), among these compounds MYM4 has the lowest IC50 value against COX-2, with selectivity index around 4. Intriguingly, this compound displayed significant antiproliferative effects against CaCo-2, Hep3B, and HeLa cancer cell lines, with IC50 values of 10.22, 4.84, and 1.57 μM, respectively, which was nearly comparable to that of doxorubicin. Compound MYM4 showed low cytotoxic activities on normal cell lines LX-2 and Hek293t with IC50 values 20.01 and 216.97 μM respectively, with safer values than doxorubicin. Furthermore, compound MYM4 was able to induce the apoptosis, suppress the colonization of both HeLa and HepG2 cells. Additionally, the induction of Reactive oxygen species (ROS) production could be the mechanism underlying the apoptotic effect and the cytotoxic activity of the compound. In the 3D multicellular tumor spheroid model, results revealed that MYM4 compound hampered the spheroid formation capacity of Hep3B and HeLa cancer cells. Moreover, the molecular docking of MYM4 compound revealed a high affinity for the COX2 enzyme, with energy scores (S) −7.45 kcal/mol, which were comparable to celecoxib (S) −8.40 kcal/mol. Collectively, these findings position MYM4 as a promising pharmacological candidate as COX inhibitor and anticancer agent. [Display omitted] •A new series of Isoxazole-carboxamide derivatives was synthesized and characterized using advanced techniques such as HRMS, 1H-, 13CAPT-NMR, and MicroED.•Specifically, MYM1 demonstrated remarkable efficacy with an IC50 value of 4.1 nM against COX-1.•MYM4 was the most potent compound against COX-2, with selectivity index around 4.•MYM4 displaying significant antiproliferative effects against CaCo-2, Hep3B, and HeLa cancer cell lines, with low cytotoxicity on normal cell lines, making it a safer option.•Compound MYM4 not only induced apoptosis but also suppressed the colonization of HeLa
ISSN:0223-5234
1768-3254
DOI:10.1016/j.ejmech.2024.116397