Metabolic activation to a mutagen of 3-hydroxy-trans-7,8-dihydroxy-7,8-dihydrobenzo[a]pyrene, a secondary metabolite of benzo[a]pyrene

3-Hydroxy-trans-7,8-dihydroxy-7,8-dihydrobenzoa]pyrene (3-OH-BP-7,8-diol)wag isolated from arylsulfatase/ß-glucuronidase-treatedbile of rats to which 3-hydroxybenzoa]pyrene (3-OH-BP) hasbeen administered. This triol was investigated for mutagenicityin Salmonella typhimurium (reversion to histidine prototrophyof strains TA 97, TA 98, TA 100 and TA 1537) and in V79 Chinesehamster cells (acquisition of resistance to 6-thioguanine).When no exogenous metabolizing system was added the triol wasinactive, while 3-OH-BP showed weak mutagenic effects with allfour bacterial strains. In the presence of NADPH-fortified postmitochondrialsupernatant fraction (S9 mix) of liver homogenate from Aroclor1254-treated rats, the mutagenicity of 3-OH-BP was potentiated,and the triol was activated to a mutagen(s). In the presenceof S9 mix, the triol was 5—18 times more mutagenic than3-OH-BP in strains TA 97, TA 100 and TA 1537, but both compoundsshowed similar mutagenic potencies with strain TA 98. Thesestrain differences strongly suggest that the mutagenicity of3-OH-BP in the S9 mix-mediated test was not exclusively dueto metabolites of 3-OH-BP-7, 8-diol. Trans-7,8-dihydroxy-7,8-dihydrobenzoa]pyrene(BP-7,8-diol), like the triol, showed mutagenic effects onlyin the presence of S9 mix. Strain TA 1537 was reverted by thetriol but not by the diol. In the other bacterial strains thediol was more mutagenic than the triol, the difference in potencybeing largest in strain TA 100 (2.5-to 10-fold, depending onthe experimental conditions). In V79 cells, the diol was a potentmutagen, while the triol showed only very weak mutagenic effects.However the triol was more cytotoxic than the diol. High cytotoxicityof the triol was observed even in the absence of S9 mix. Theresults of the present study demonstrate that metabolites of3-OH-BP-7, 8-diol) are biologically-active derivatives of benzoa]pyrene.Comparison of the mutagenic effectiveness in different bacterialstrains also reveals that metabolites of 3-OH-BP-7, 8-diol andof BP-7, 8-diol substantially differ in the kind of geneticalterations they evoke.