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Exploiting spirooxindoles for dual DNA targeting/CDK2 inhibition and simultaneous mitigation of oxidative stress towards selective NSCLC therapy : synthesis, evaluation, and molecular modelling studies (2024)


Islam, M. S., Al-Jassas, R. M., Al-Majid, A. M., Haukka, M., Nafie, M. S., Abu-Serie, M. M., Teleb, M., El-Yazbi, A., Alayyaf, A. M. A., Barakat, A., & Shaaban, M. M. (2024). Exploiting spirooxindoles for dual DNA targeting/CDK2 inhibition and simultaneous mitigation of oxidative stress towards selective NSCLC therapy : synthesis, evaluation, and molecular modelling studies. RSC Medicinal Chemistry, 15(8), 2937-2958. https://doi.org/10.1039/d4md00337c


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Julkaisun tiedot

Julkaisun kaikki tekijät tai toimittajatIslam, Mohammad Shahidul; Al-Jassas, Refaah M.; Al-Majid, Abdullah Mohammed; Haukka, Matti; Nafie, Mohamed S.; Abu-Serie, Marwa M.; Teleb, Mohamed; El-Yazbi, Amira; Alayyaf, Abdul Majeed Abdullah; Barakat, Assem; et al.

Lehti tai sarjaRSC Medicinal Chemistry

eISSN2632-8682

Julkaisuvuosi2024

Ilmestymispäivä11.07.2024

Volyymi15

Lehden numero8

Artikkelin sivunumerot2937-2958

KustantajaRoyal Society of Chemistry

JulkaisumaaBritannia

Julkaisun kielienglanti

DOIhttps://doi.org/10.1039/d4md00337c

Julkaisun avoin saatavuusEi avoin

Julkaisukanavan avoin saatavuus


Tiivistelmä

The unique structure of spirooxindoles and their ability to feature various pharmacophoric motifs render them privileged scaffolds for tailoring new multitarget anticancer agents. Herein, a stereoselective multicomponent reaction was utilized to generate a small combinatorial library of pyrazole-tethered spirooxindoles targeting DNA and CDK2 with free radical scavenging potential as an extra bonus. The designed spirooxindoles were directed to combat NSCLC via inducing apoptosis and alleviating oxidative stress. The series' absolute configuration was assigned by X-ray diffraction analysis. Cytotoxicity screening of the developed spirooxindoles against NSCLC A549 and H460 cells compared to normal lung fibroblasts Wi-38 revealed the sensitivity of A549 cells to the compounds and raised 6e and 6h as the study hits (IC50 similar to 0.09 mu M and SI > 3). They damaged DNA at 24.6 and 35.3 nM, and surpassed roscovitine as CDK2 inhibitors (IC50 = 75.6 and 80.2 nM). Docking and MDs simulations postulated their receptors binding modes. The most potent derivative, 6e, induced A549 apoptosis by 40.85% arresting cell cycle at G2/M phase, and exhibited antioxidant activity in a dose-dependent manner compared to Trolox as indicated by DPPH scavenging assay. Finally, in silico ADMET analysis predicted the drug-likeness properties of 6e.


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OKM-raportointiKyllä

VIRTA-lähetysvuosi2024

Alustava JUFO-taso1


Viimeisin päivitys 2024-14-10 klo 15:12