Induction of alkaline-labile sites in DNA by benzo[ a]pyrene and their repair of the lesions in cultured Chinese hamster cells

Abstract

Formation of alkaline-labile sites in DNA by S9-activated benzo[ a]pyrene (B[a]P) and the repair of those lesions were investigated using the technique of alkaline elution in cultured Chinese hamster V79 cells. When the cells were treated with B[a]P (1–5 μg/ml) there was negligible increase in DNA elution at pH 12.1 as compared to untreated controls. However, the elution of DNA increased at pH 12.6 with a concentration dependency, thereby indicating formation of alkaline-labile sites in DNA by B[a]P. After 4 h of repair incubation the elution of DNA at pH 12.6 of B[a]P (5 μg/ml) treated cells returned to the control lavels. The half-life of alkaline-labile sties formed by B[a]P was approximately 1.5 h. Inhibitors of DNA-repair synthesis, hydroxyrea (HU) and 1-β-arabinofuranosly cytosine (ara-C) when added simultaneously with S9-activated B[a]P for 3 h showed an increase in elution of DNA at pH 12.1 indicating that a population of B[a]P-induced DNA lesions could be removed by a rapid DNA-repair process. These results indicate that at least two kinds of DNA lesions, repairable alkaline-labile sites rapidly repairable DNA single-strand breaks, are detected after B[a]P treatment by the use of the alkaline elution procedure, by changing elution pH.