Pixantrone can be activated by formaldehyde to generate a potent DNA adduct forming agent.
Article Details
- CitationCopy to clipboard
Evison BJ, Mansour OC, Menta E, Phillips DR, Cutts SM
Pixantrone can be activated by formaldehyde to generate a potent DNA adduct forming agent.
Nucleic Acids Res. 2007;35(11):3581-9. Epub 2007 May 5.
- PubMed ID
- 17483512 [ View in PubMed]
- Abstract
Mitoxantrone is an anti-cancer agent used in the treatment of breast and prostate cancers. It is classified as a topoisomerase II poison, however can also be activated by formaldehyde to generate drug-DNA adducts. Despite identification of this novel form of mitoxantrone-DNA interaction, excessively high, biologically irrelevant drug concentrations are necessary to generate adducts. A search for mitoxantrone analogues that could potentially undergo this reaction with DNA more efficiently identified Pixantrone as an ideal candidate. An in vitro crosslinking assay demonstrated that Pixantrone is efficiently activated by formaldehyde to generate covalent drug-DNA adducts capable of stabilizing double-stranded DNA in denaturing conditions. Pixantrone-DNA adduct formation is both concentration and time dependent and the reaction exhibits an absolute requirement for formaldehyde. In a direct comparison with mitoxantrone-DNA adduct formation, Pixantrone exhibited a 10- to 100-fold greater propensity to generate adducts at equimolar formaldehyde and drug concentrations. Pixantrone-DNA adducts are thermally and temporally labile, yet they exhibit a greater thermal midpoint temperature and an extended half-life at 37 degrees C when compared to mitoxantrone-DNA adducts. Unlike mitoxantrone, this enhanced stability, coupled with a greater propensity to form covalent drug-DNA adducts, may endow formaldehyde-activated Pixantrone with the attributes required for Pixantrone-DNA adducts to be biologically active.
DrugBank Data that Cites this Article
- Drugs