Metabolism and cytotoxicity of aflatoxin b1 in cytochrome p-450-expressing human lung cells

The mycotoxin aflatoxin B(1) (AFB(1)) is a hepatocarcinogen in many animal models and probably a human carcinogen. Besides being a dietary carcinogen, AFB(1) has been detected in dusts generated in the processing and transportation of AFB(1)-contaminated products. Inhalation of grain dusts contaminated with AFB(1) may be a risk factor in human lung cancer. Aflatoxin B(1) requires cytochrome P-450 (CYP)-mediated activation to form cytotoxic and DNA-reactive intermediates, and this activation in human liver is mediated by the CYP 1A2 and 3A4 isoforms. Which isoforms are important in AFB(1) activation in human lung is not well understood. To investigate whether these CYPs can activate AFB(1) at low, environmentally relevant concentrations in human lung cells, SV40 immortalized human bronchial epithelial cells (BEAS-2B) that were transfected with cDNA for CYPs 3A4 (B3A4) or 1A2 (B-CMV1A2) were used. B-CMV1A2 cultured in 15 nM AFB(1) produced the AFB(1)-glutathione conjugate (AFB(1)-GSH) and aflatoxin M(1) (AFM(1)), while B3A4 cells produced only aflatoxin Q(1) (AFQ(1)) at 0.15 microM AFB(1). Nontransfected BEAS-2B cells produced no metabolites, even at 1.5 mM AFB(1). Microsomes prepared from B-CMV1A2 and B3A4 cells activated AFB(1) to AFB(1) 8,9-epoxide (AFBO), while those from BEAS-2B cells did not produce AFBO. Cytosol from all three cell types was ineffective at glutathione S-transferase (GST)-mediated trapping of enzymatically generated AFB(1) 8,9-epoxide. B-CMV1A2 cells were 100-fold more sensitive to AFB(1) compared to B3A4 cells, and were 6000-fold more sensitive than control BEAS-2B cells. Western immunoblots confirmed that only B-CMV1A2 cells expressed CYP 1A2 protein, while CYP 3A4 was only in B3A4 cells. B-CMV1A2 cells were the most sensitive to AFB(1), followed by B3A4 cells. CYP 3A4, which has been predicted to activate AFB(1) primarily at higher AFB(1) concentrations, was also responsible for significant AFB(1) toxicity at low concentrations. These data indicate that human lung cells expressing these CYP isoforms are capable of activating AFB(1), even at environmentally relevant concentrations.