The present work is aimed at gaining conclusive mechanistic insights into the radiation-induced formation of the 5'R and 5'S diastereomers of both adenine and guanine 5',8-cyclo-2'-deoxyribonucleosides, with emphasis on the delineation of the inhibitory effect of O(2) in isolated and cellular DNA. The levels of purine 5',8-cyclo-2'-deoxyribonucleosides as assessed by HPLC-MS/MS were found to decrease steadily with the increase of O(2) concentration, the 5',8-cyclo-2'-deoxyguanosine being produced more efficiently than the 5',8-cyclo-2'-deoxyadenosine for low O(2) concentrations. A high stereoselectivity was observed in the intramolecular addition of the C5' radical to the C8 of the purine leading, after the creation of the C5'-C8 bond and a subsequent oxidation step, to the predominant formation of the 5'R diastereomer for both purine 5',8-cyclonucleosides. The reduced formation yield of the 4 tandem lesions in the presence of O(2) explains, at least partly, the low efficiency of radiation-induced yields of the purine 5',8-cyclo-2'-deoxyribonucleosides in cellular DNA, which are about two orders of magnitude lower than the previously reported data obtained from HPLC-MS analysis.
The factors that influence the reactivity of C5' radicals in purine moieties under aerobic conditions are unknown not only in DNA, but also in simple nucleosides. 5',8-Cyclopurine lesions are the result of a rapid C5' radical attack to the purine moieties before the reaction with oxygen. These well-known lesions among the DNA modifications were suppressed by the presence of molecular oxygen in solution. Here we elucidate the chemistry of three purine-substituted C5' radicals (i.e., 2'-deoxyadenosin-5'-yl, 2'-deoxyinosin-5'-yl, and 2'-deoxyguanosin-5'-yl) under oxidative conditions using gamma-radiolysis coupled with product studies. 2'-Deoxyadenosin-5'-yl and 2'-deoxyinosin-5'-yl radicals were selectively generated by the reaction of hydrated electrons (e(aq)(-)) with 8-bromo-2'-deoxyadenosine and 8-bromo-2'-deoxyinosine followed by a rapid radical translocation from the C8 to the C5' position. Trapping these two C5' radicals with Fe(CN)6(3-) gave corresponding hydrated 5'-aldehydes in good yields that were isolated and fully characterized. When an oxygen concentration in the range of 13-266 microM (typical oxygenated tissues) is used, the hydrated 5'-aldehyde is accompanied by the 5',8-cyclopurine nucleoside. The formation of 5',8-cyclopurines is relevant in all experiments, and the yields increased with decreasing O2 concentration. The reaction of HO(*) radicals with 2'-deoxyadenosine and 2'-deoxyguanosine under normoxic conditions was also investigated. The minor path of C5' radicals formation was found to be ca. 10% by quantifying the hydrated 5'-aldehyde in both experiments. Rate constants for the reactions of the 2'-deoxyadenosin-5'-yl with cysteine and glutathione in water were determined by pulse radiolysis to be (2.1 +/- 0.5) x 10(7) and (4.9 +/- 0.6) x 10(7) M(-1) s(-1) at 22 degrees C, respectively.
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