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. 2025 Apr 25;15(17):13214-13224.
doi: 10.1039/d5ra01233c. eCollection 2025 Apr 22.

Synthesis, molecular docking, and biological investigations of new pyrazolone chalcones

Ahmed A Noser  1 Maha M Salem  2 Esraa M ElSafty  1 Mohamed H Baren  1 Adel I Selim  1 Hamada S A Mandour  1
Affiliations

Synthesis, molecular docking, and biological investigations of new pyrazolone chalcones

Ahmed A Noser et al. RSC Adv. .

Abstract

Heterocyclic compounds are essential to the drug development and discovery processes. Herein, we synthesized new pyrazolone chalcones (3a-g) through the reaction of azopyrazolone (2) with different aromatic aldehydes in a basic medium. Numerous techniques including elemental analysis, 1H-NMR, 13C-NMR, and FT-IR spectroscopies, were used to characterize pyrazolone chalcone derivatives. Compound 3b exhibited the highest binding energy towards YAP/TEAD protein with a value of -8.45 kcal mol-1 in in silico studies. This observation suggested that compound 3b inhibits the YAP/TEAD Hippo signaling pathway. In addition, compound 3b offered a prospective anticancer effect against various cancer cell lines, such as HepG-2, MCF-7, and HCT-116, among the other synthesized compounds, with IC50 values equal to 5.03 ± 0.4, 3.92 ± 0.2, and 6.34 ± 0.5 μM, respectively. These results validated our findings regarding the in silico suppression of the YAP/TEAD protein. Its pharmacokinetic properties were theoretically observed using ADMET. Additionally, compound 3b demonstrated a potent antioxidant scavenging action (in vitro) against DPPH free radicals. Thus, based on our findings, compound 3b may act as a potential anticancer scaffold owing to its inhibitory impact towards the YAP/TEAD-mediated Hippo signaling pathway with a safe toxic profile on normal cells.

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Conflict of interest statement

The authors have no relevant financial or non-financial interests to disclose.

Figures

Fig. 1
Fig. 1. Marketed pyrazolone- and chalcone-based drugs.
Scheme 1
Scheme 1. Synthesis route for compound 2.
Scheme 2
Scheme 2. Synthesis route for compounds 3a–g.
Scheme 3
Scheme 3. Suggested mechanism for compounds 3a–g.
Fig. 2
Fig. 2. Antioxidant scavenging activity of chalcone derivatives (3a–g). Results are reported as mean ± SE; where n = 3.
Fig. 3
Fig. 3. Inhibitory concentrations (IC50) of chalcones 3a–gvia DPPH. Results are reported as mean ± SE, where n = 3.
Fig. 4
Fig. 4. Two- and three-dimensional molecular interaction networks for all chalcone derivatives (3a–g) with the target YAP/TEAD-mediated Hippo signaling pathway.
Fig. 5
Fig. 5. Bioavailability radar plot for chalcones (3a–g).
Fig. 6
Fig. 6. Antitumor and cytotoxic impacts of chalcones 3a–g. Results are reported as mean ± SE of three independent triplicates.
Fig. 7
Fig. 7. SAR of the most active compound.
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