Abstract
The ability of three highly homologous mouse liver CYP2A enzymes to activate aflatoxin B 1 was studied by expressing them in recombinant AH22 Saccharomyces cerevisiae yeast cells. The reconstituted monooxygenase complex with CYP2A5 purified from yeast cell microsomes produced epoxide at a rate of 17.2 nmol/min per nmol P450 in the presence of 50 μM aflatoxin B 1 while CYP2A4 had about 10% and P4507 α only 1.5% of this activity. However, K m values were 530 and 10 μM and V max values 12.5 and 14.3 nmol/min per nmol P450 for CYP2A4 and CYP2A5, respectively. When recombinant yeast cells were exposed to aflatoxin B 1 LC 50 concentrations were 7.5 ± 5.5 μM for CYP2A4, 0.45 ± 0.10 μM for CYP2A5 and > 320 μM for P4507 α expressing yeast cells. Aflatoxin B 1-DNA adduct levels in the same yeast cells were 50, 890 pmol/mg DNA and below detection limit when 3.0 μM aflatoxin B 1 was used in the incubation mixture. Coumarin an inhibitor for CYP2A4 and a substrate for CYP2A5 diminished the toxicity of aflatoxin B 1 in a dose-dependent manner for these recombinant yeast cells. These data demonstrate that (1) highly homologous mouse CYP2A enzymes activate aflatoxin B 1 in a different manner and (2) that recombinant yeast cells expressing mammalian CYP enzymes are a useful and inexpensive system to test the role of different enzymes in aflatoxin B 1 toxicity. The data also indicate that mouse CYP2A5 and its counterpart in other species could have a significant role in aflatoxin B 1 toxicity in organs where it is expressed at high levels.
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More From: European Journal of Pharmacology: Environmental Toxicology and Pharmacology
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