Background/aim: Anthracyclines have been proven able to reduce the activity of vinca alkaloids by induction of cell-cycle arrest. The present study aims at identifying the critical initiation steps of signal transduction which transduce the inhibitory effects on the cytotoxicity of vinca alkaloids.
Materials and methods: Several new cytostatic drug classes were evaluated together with vincristine in tumor cell lines and patients' tumor cells. RNA interference was used for molecular analyses.
Results: Inhibition of vincristine was observed by all cytostatic drugs, which induced cell-cycle arrest. Knockdown of proteins of the DNA damage response ascribed the inhibitory effect to a common pathway involving Chk-1, p53 and p21. Upstream of Chk-1 signal transduction depended on both ATM and ATR for all drugs except methotrexate.
Conclusion: We have identified critical signaling steps of the DNA damage response system activated by cytostatic drugs, which reduce the anti-tumor activity of vinca alkaloids. The obtained results encourage the development of novel therapeutic strategies to prevent pathway interactions based on the molecular understanding of drug action and drug-drug interactions.
Keywords: ATM; ATR; Chk1; DNA damage; cell-cycle arrest; p21; p53; vinca alkaloids.