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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)
 
 
 
 
 

Role of ring oxidation in the metabolic activation of 1-nitropyrene.

Nitrated polycyclic aromatic hydrocarbons are wide-spread environmental pollutants that have been detected in photocopier toners, airborne particulates, coal fly ash, and diesel engine exhaust emissions. 1-Nitropyrene, a representative nitropolycyclic aromatic hydrocarbon present in diesel particulates, is a mutagen in Salmonella typhimurium and a tumorigen in laboratory animals. The activation of 1-nitropyrene to a bacterial mutagen has been attributed to nitroreduction; however, the metabolic pathways involved in its metabolism to a tumorigen are not known, but may involve nitroreduction, ring oxidation, or a combination of the two. In these experiments, we examined the importance of ring oxidation in the activation of 1-nitropyrene (99.85 to 99.98 percent 1-nitropyrene, 0.15 to 0.02 percent 1,3-, 1,6-, and 1,8-dinitropyrene by mass spectral analyses) to a mammalian-cell mutagen and carcinogen. Chinese hamster ovary cells were used to assess the mutagenicity of ring-oxidized 1-nitropyrene metabolites. In the absence of a rat liver 9,000 x g supernatant, 6-hydroxy-1-nitropyrene, 1-nitropyrene-9,10-oxide, and pyrene-4,5-oxide were the most mutagenic compounds tested. 3-Hydroxy-1-nitropyrene, 8-hydroxy-1-nitropyrene, and 1-nitropyrene-4,5-oxide were weaker mutagens, whereas pyrene and 1-nitropyrene were essentially nonmutagenic. The order of mutagenic potency with S9 was: 1-nitropyrene-4,5-oxide greater than 6-hydroxy-1-nitropyrene approximately 1-nitropyrene-9,10-oxide greater than 1-nitropyrene approximately 3-hydroxy-1-nitropyrene approximately 8-hydroxy-1-nitropyrene greater than pyrene approximately pyrene-4,5-oxide, with the last two compounds being nearly nonmutagenic. The epoxide hydrase inhibitor 1,2-epoxy-3,3,3-trichloropropane increased the mutation frequency fivefold. In addition, guinea pig liver microsomes and Aroclor-induced rat liver microsomes, which increased the formation of 1-nitropyrene-4,5-oxide and 1-nitropyrene-9,10-oxide, increased the mutagenic response. Incubation of 1-nitropyrene-4,5-oxide with calf thymus DNA resulted in the formation of three DNA adducts. A similar adduct pattern was observed when Chinese hamster ovary cells were incubated with the oxide. Inclusion of a nitroreductase, xanthine oxidase, in the in vitro incubations resulted in the formation of an additional adduct identified as N-(deoxyguanosin-8-yl)-1-aminopyrene. This adduct was not observed in Chinese hamster ovary cells treated with 1-nitropyrene-4,5-oxide. 1-Nitropyrene-9,10-oxide reacted with calf thymus DNA to give an adduct pattern similar to that observed with 1-nitropyrene-4,5-oxide. The distribution of adducts was not affected by conducting the reactions in the presence of xanthine oxidase.(ABSTRACT TRUNCATED AT 400 WORDS)[1]

References

  1. Role of ring oxidation in the metabolic activation of 1-nitropyrene. Beland, F.A. Research report (Health Effects Institute) (1991) [Pubmed]
 
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