Litcius/Paper detail

Insights on cyclophosphamide metabolism and anticancer mechanism of action: A computational study

Eslam Dabbish, Stefano Scoditti, Mohammed N. I. Shehata, Ida Ritacco, Mahmoud A. A. Ibrahim, Tamer Shoeib, Emilia Sicilia

2023Journal of Computational Chemistry26 citationsDOIOpen Access PDF

Abstract

The oxazaphosphorine cyclophosphamide (CP) is a DNA-alkylating agent commonly used in cancer chemotherapy. This anticancer agent is administered as a prodrug activated by a liver cytochrome P450-catalyzed 4-hydroxylation reaction that yields the active, cytotoxic metabolite. The primary metabolite, 4-hydroxycyclophosphamide, equilibrates with the ring-open aldophosphamide that undergoes β-elimination to yield the therapeutically active DNA cross-linking phosphoramide mustard and the byproduct acrolein. The present paper presents a DFT investigation of the different metabolic phases and an insight into the mechanism by which CP exerts its cytotoxic action. A detailed computational analysis of the energy profiles describing all the involved transformations and the mechanism of DNA alkylation is given with the aim to contribute to an increase of knowledge that, after more than 60 years of unsuccessful attempts, can lead to the design and development of a new generation of oxazaphosphorines.

Topics & Concepts

ProdrugChemistryMetaboliteActive metaboliteMechanism of actionCyclophosphamideHydroxylationMetabolismNitrogen mustardAcroleinPharmacologyAlkylationDNAStereochemistryCytotoxicityMechanism (biology)DNA damageBiochemistryCombinatorial chemistryBiologyEnzymeChemotherapyIn vitroCatalysisGeneticsPhilosophyEpistemologyChemical Reactions and IsotopesChemical Reaction MechanismsPharmacogenetics and Drug Metabolism