6-Nitrochrysene-Derived C8-2'-Deoxyadenosine Adduct: Synthesis of Site-Specific Oligodeoxynucleotides and Mutagenicity in Escherichia coli.

6-Nitrochrysene (6-NC), the most potent carcinogen evaluated by the newborn mouse assay, is metabolically activated by nitroreduction and a combination of ring oxidation and nitroreduction pathways. The nitroreduction pathway yields three major DNA adducts: at the C8 and N2 positions of 2'-deoxyguanosine (dG), N-(dG-8-yl)-6-AC and 5-(dG-N2-yl)-6-AC, and at the C8 position of 2'-deoxyadenosine (dA), N-(dA-8-yl)-6-AC. A nucleotide excision repair assay demonstrated that N-(dA-8-yl)-6-AC is repaired much more slowly than many other bulky DNA adducts, including the other DNA adducts formed by 6-NC. But neither the total synthesis nor evaluation of other biological activities of this dA adduct has ever been reported. Herein, we report a convenient synthesis of the 6-NC-derived dA adduct by employing the Buchwald-Hartwig coupling strategy, which provided a high yield of the protected N-(dA-8-yl)-6-AC. The deprotected nucleoside showed syn conformational preference by NMR spectroscopy. Following DMT protection of the 5'-hydroxyl, N-(dA-8-yl)-6-AC was converted to its 3'-phosphoramidite, which was used to prepare oligonucleotides containing a single N-(dA-8-yl)-6-AC adduct. Circular dichroism spectra of the adducted duplex showed only a slight departure from the B-DNA helix profile of the control duplex. The 15-mer N-(dA-8-yl)-6-AC oligonucleotide was used to construct a single-stranded plasmid vector containing a single adduct, which was replicated in Escherichia coli. Viability of the adducted construct was ∼60% of the control, indicating slower translesion synthesis of the adduct, which increased to nearly 90% upon induction of the SOS functions. Without SOS, the mutation frequency (MF) of the adduct was 5.2%, including 2.9% targeted and 2.3% semi-targeted mutations. With SOS, the targeted MF increased 3-fold to 9.0%, whereas semi-targeted mutation increased only marginally to 3.2%. The major type of targeted mutation was A*→G in both uninduced and SOS-induced cells.