Triggering Breast Cancer Apoptosis via Cyclin-Dependent Kinase Inhibition and DNA Damage by Novel Pyrimidinone and 1,2,4-Triazolo[4,3- a ]pyrimidinone Derivatives.
Mohamed Nabil Abd Al MoatyYeldez El KilanyLaila Fathy AwadSaied M SolimanAssem BarakatNihal A IbrahimMarwa M Abu-SerieMatti HaukkaAmira F El-YazbiMohamed TelebPublished in: ACS omega (2024)
Combinations of apoptotic inducers are common clinical practice in breast cancer. However, their efficacy is limited by the heterogeneous pharmacokinetic profiles. An advantageous alternative is merging their molecular entities in hybrid multitargeted scaffolds exhibiting synergistic activities and uniform distribution. Herein, we report apoptotic inducers simultaneously targeting DNA and CDK-2 (cyclin-dependent kinase-2) inspired by studies revealing that CDK-2 inhibition sensitizes breast cancer to DNA-damaging agents. Accordingly, rationally substituted pyrimidines and triazolopyrimidines were synthesized and assayed by MTT against MCF-7, MDA-MB231, and Wi-38 cells compared to doxorubicin. The N -(4-amino-2-((2-hydrazinyl-2-oxoethyl)thio)-6-oxo-1,6-dihydropyrimidin-5-yl)acetamide 5 and its p-nitrophenylhydrazone 8 were the study hits against MCF-7 (IC 50 = 0.050 and 0.146 μM) and MDA-MB231 (IC 50 = 0.826 and 0.583 μM), induced DNA damage at 10.64 and 30.03 nM, and inhibited CDK-2 (IC 50 = 0.172 and 0.189 μM). 5 induced MCF-7 apoptosis by 46.75% and disrupted cell cycle during S phase. Docking and MD simulations postulated their stable key interactions.
Keyphrases
- cell cycle
- cell cycle arrest
- cell death
- breast cancer cells
- dna damage
- oxidative stress
- cell proliferation
- induced apoptosis
- diabetic rats
- pi k akt
- endoplasmic reticulum stress
- molecular dynamics
- high glucose
- single molecule
- cancer therapy
- clinical practice
- circulating tumor
- dna repair
- protein kinase
- cell free
- tyrosine kinase
- molecular dynamics simulations
- molecular docking
- photodynamic therapy
- anti inflammatory
- breast cancer risk
- protein protein