Benzo(e)pyrene-induced alterations in the binding of benzo(a)pyrene and 7,12-dimethylbenz(a)anthracene to DNA in Sencar mouse epidermis.

ABSTRACT

Benzo(e)pyrene [B(e)P] cotreatment slightly increases the tumor-initiating activity of benzo(a)pyrene [B(a)P] and greatly decreases the tumor-initiating activity of 7,12-dimethylbenz(a)anthracene (DMBA) in Sencar mice (DiGiovanni et al., Carcinogenesis 3 371-375, 1982). The effects of B(e)P on the binding of B(a)P and DMBA to Sencar mouse epidermis were investigated using a protocol similar to the mouse skin tumorigenicity studies. After 12 h of exposure to 50 nmol [3H]B(a)P and low or high doses of B(e)P, the level of [3H]B(a)P bound to mouse epidermal DNA increased by 30%. However, after 24 h exposure to 50 nmol [3H]B(a)P and after 12 or 24 h of exposure to 200 nmol [3H]B(a)P, B(e)P had no effect on the amount of [3H]B(a)P bound to DNA. The ration of anti-(the isomer with the epoxide and benzylic hydroxyl on opposite faces of the molecule) B(a)P-7,8-diol-9,10-epoxide [B(a)PDE]-deoxyribonucleoside adducts to syn- (the isomer with the epoxide and benzylic hydroxyl on the same face of the molecule) B(a)PDE-deoxyribonucleoside adducts did not change at either initiating dose of B(a)P or at any time regardless of the dose of B(e)P. After 12 h of exposure to high doses of B(e)P and a 50-nmol initiating dose of B(a)P the level of [3H]B(a)P bound to DNA increased but there was no change in the proportion of particular B(a)PDE-deoxyribonucleoside adducts present. In contrast, B(e)P inhibited the binding of initiating doses of DMBA (5 and 20 nmol) to DNA after 12 and 48 h of exposure to all dose ratios of B(e)PDMBA tested. The three major adducts, tentatively identified as anti-DMBA-3,4-diol-1,2-epoxide (DMBADE)deoxyguanosine, syn-DMBADEdeoxyadenosine and anti-DMBADEdeoxyadenosine, decreased to the same relative extent as the dose of B(e)P increased. Thus, the effects of B(e)P on the total binding of these hydrocarbons to DNA in epidermis correlate with the cocarcinogenic and anticarcinogenic effects of B(e)P on B(a)P and DMBA, respectively, in a mouse skin initiation-promotion assay. These results indicate that the mechanism of the co- or anticarcinogenic action of hydrocarbons such as B(e)P involves alteration of the binding of carcinogenic hydrocarbons to DNA. They also suggest that measurement of carcinogenic hydrocarbon-DNA adducts formed during cotreatment with other hydrocarbons will provide a rapid method for predicting the co- or anticarcinogenic effect of the other hydrocarbons.