Publication | Open Access
Electron-Mediated Aminyl and Iminyl Radicals from C5 Azido-Modified Pyrimidine Nucleosides Augment Radiation Damage to Cancer Cells
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Citations
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References
2018
Year
Radiation EffectRadiation ExposureOrganic ChemistryRadiation BiologyIminyl RadicalsRadiation MedicineChemodynamic TherapyRadiation OncologyRadiation ChemistryHealth SciencesEmt6 Tumor CellsBiochemistryPhotochemistryRadiation TherapyRadionuclide TherapyRadiation ApplicationCancer CellsRadiation EffectsPharmacologyAzido-modified Pyrimidine NucleosidesElectron-mediated AminylBimolecular ReactionMedicine
Two classes of azido-modified pyrimidine nucleosides were synthesized as potential radiosensitizers; one class is 5-azidomethyl-2'-deoxyuridine (AmdU) and cytidine (AmdC), while the second class is 5-(1-azidovinyl)-2'-deoxyuridine (AvdU) and cytidine (AvdC). The addition of radiation-produced electrons to C5-azido nucleosides leads to the formation of π-aminyl radicals followed by facile conversion to σ-iminyl radicals either via a bimolecular reaction involving intermediate α-azidoalkyl radicals in AmdU/AmdC or by tautomerization in AvdU/AvdC. AmdU demonstrates effective radiosensitization in EMT6 tumor cells.
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