Genetic Effects of Oxidative DNA Damages: Comparative Mutagenesis of the Imidazole Ring-Opened Formamidopyrimidines (Fapy Lesions) and 8-Oxo-Purines in Simian Kidney Cells
Date
2006-05-05
Authors
Kalam, M. Abul
Haraguchi, Kazuhiro
Chandani, Sushil
Loechler, Edward L.
Moriya, Maasaki
Greenberg, Marc M.
Basu, Ashis K.
Version
OA Version
Citation
Kalam, M. Abul, Kazuhiro Haraguchi, Sushil Chandani, Edward L. Loechler, Maasaki Moriya, Marc M. Greenberg, Ashis K. Basu. "Genetic effects of oxidative DNA damages: comparative mutagenesis of the imidazole ring-opened formamidopyrimidines (Fapy lesions) and 8-oxo-purines in simian kidney cells" Nucleic Acids Research 34(8): 2305-2315. (2006)
Abstract
Fapy·dG and 8-oxo-7,8-dihydro-2′-deoxyguanosine (8-oxo-dG) are formed in DNA by hydroxyl radical damage. In order to study replication past these lesions in cells, we constructed a single-stranded shuttle vector containing the lesion in 5′-TGT and 5′-TGA sequence contexts. Replication of the modified vector in simian kidney (COS-7) cells showed that Fapy·dG is mutagenic inducing primarily targeted Fapy·G→T transversions. In the 5′-TGT sequence mutational frequency of Fapy·dG was ^∼30%, whereas in the 5′-TGA sequence it was ^∼8%. In parallel studies 8-oxo-dG was found to be slightly less mutagenic than Fapy·dG, though it also exhibited a similar context effect: 4-fold G→T transversions (24% versus 6%) occurred in the 5′-TGT sequence relative to 5′-TGA. To investigate a possible structural basis for the higher G→T mutations induced by both lesions when their 3′ neighbor was T, we carried out a molecular modeling investigation in the active site of DNA polymerase β, which is known to incorporate both dCTP (no mutation) and dATP (G→T substitution) opposite 8-oxo-G. In pol β, the syn-8-oxo-G:dATP pair showed greater stacking with the 3′-T:A base pair in the 5′-TGT sequence compared with the 3′-A:T in the 5′-TGA sequence, whereas stacking for the anti-8-oxo-G:dCTP pair was similar in both 5′-TGT and 5′-TGA sequences. Similarly, syn-Fapy·G:dATP pairing showed greater stacking in the 5′-TGT sequence compared with the 5′-TGA sequence, while stacking for anti-Fapy·G:dCTP pairs was similar in the two sequences. Thus, for both lesions less efficient base stacking between the lesion:dATP pair and the 3′-A:T base pair in the 5′-TGA sequence might cause lower G→T mutational frequencies in the 5′-TGA sequence compared to 5′-TGT. The corresponding lesions derived from 2′-deoxyadenosine, Fapy·dA and 8-oxo-dA, were not detectably mutagenic in the 5′-TAT sequence, and were only weakly mutagenic (<1%) in the 5′-TAA sequence context, where both lesions induced targeted A→C transversions. To our knowledge this is the first investigation using extrachromosomal probes containing a Fapy·dG or Fapy·dA site-specifically incorporated, which showed unequivocally that in simian kidney cells Fapy·G→T substitutions occur at a higher frequency than 8-oxo-G→T and that Fapy·dA is very weakly mutagenic, as is 8-oxo-dA.