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  • Detection of the major DNA adducts of benzo[j]fluoranthene in mouse skin: nonclassical dihydrodiol epoxides.

Detection of the major DNA adducts of benzo[j]fluoranthene in mouse skin: nonclassical dihydrodiol epoxides.

Chemical research in toxicology (1993-01-01)
E H Weyand, P Bryla, Y Wu, Z M He, E J LaVoie
ZUSAMMENFASSUNG

Studies have demonstrated that the metabolic activation of benzo[j]fluoranthene (B[j]F) to a genotoxic agent proceeds through the formation of either the trans-4,5-dihydrodiol (B[j]F-4,5-diol) or the trans-9,10-dihydrodiol (B[j]F-9,10-diol) metabolite of B[j]F. Using 32P-postlabeling analysis, the profiles of DNA adducts formed in vivo in mouse skin from B[j]F-4,5-diol and B[j]F-9,10-diol were obtained to establish the contribution of each of these dihydrodiols to the formation of B[j]F-DNA adducts in vivo. B[j]F, B[j]F-4,5-diol and B[j]F-9,10-diol were applied to the shaved backs of mice (100 micrograms/mouse), and DNA adducts were isolated and separated using multidimensional TLC and reverse-phase HPLC. The greatest level of adducts was observed with B[j]F-4,5-diol, which resulted in the formation of 383 pmol of DNA adducts/mg of DNA. This level of DNA modification was more than 2 orders of magnitude greater than that observed with B[j]F or B[j]F-9,10-diol. The major adducts detected from the application of B[j]F-4,5-diol to mouse skin in vivo had chromatographic properties similar to those of the major adducts detected with B[j]F. In contrast, the major DNA adducts detected with B[j]F-9,10-diol had chromatographic properties distinctly different than the adducts formed from either B[j]F or B[j]F-4,5-diol. DNA adducts formed from the syn and anti isomers of the 4,5-dihydrodiol 6,6a-epoxide and the 9,10-dihydrodiol 11,12-epoxide of B[j]F were also evaluated. Each dihydrodiol epoxide derivative was reacted with calf thymus DNA in vitro and applied to mouse skin in vivo.(ABSTRACT TRUNCATED AT 250 WORDS)

MATERIALIEN
Produktnummer
Marke
Produktbeschreibung

Supelco
Benzo[j]fluoranthen -Lösung, certified reference material, 2000 μg/mL in dichloromethane