6533b82bfe1ef96bd128d7c0
RESEARCH PRODUCT
Synthesis and preliminary biological evaluation of a new pyridocarbazole derivative covalently linked to a thymidine nucleoside as a potential targeted antitumoral agent. I.
Jean-charles LancelotOrnella MoltedoMariafrancesca BuonerbaPaolo De CaprariisMaria PascaleCarmela SaturninoLorenzo De NapoliDaniela MontesarchioGiampiero Boattosubject
PyridonesCarbazolesDrug Evaluation PreclinicalAntineoplastic Agentschemistry.chemical_compoundDrug Delivery SystemsCell Line TumorDrug DiscoveryHumansCytotoxicitynucleoside analogueDNA synthesisBiological activityGeneral ChemistryGeneral MedicineProdrugorganic synthesisPyrimidine NucleosidesBiochemistrychemistryNucleic acidantitumour activityThymidineNucleosideDNAThymidinedescription
The therapy of human cancer is one of the more pursued goals by medicinal chemistry research. Most of the compounds clinically used as a treatment owe their efficacy to their cytotoxic interaction (direct or indirect) with nuclear DNA. This interaction results in the inhibition of DNA synthesis and the degradation of nucleic strands. Ellipticine is a naturally occurring 6H-pyrido[4,3-b]carbazole alkaloid endowed with antitumor activity, and several ellipticine derivatives have been used in clinical trials. We previously reported some 1,4-dimethyl-9H-carbazole derivatives structurally related to ellipticine. The purpose of our research was to transform the pyridocarbazole in a prodrug so that it would have more penetration in the tumor cells and block their replication. Our prodrug is slowly hydrolyzed in human plasma in the corresponding acid. From these preliminary results, we deduce that our compound can block cellular replication. Our hypothesis is that the antitumoral activity is probably related to the induction of damage to DNA, without cellular lysis in the short term.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2003-08-13 | Chemicalpharmaceutical bulletin |