Comparison of rates of enzymatic oxidation of aflatoxin B1, aflatoxin G1, and sterigmatocystin and activities of the epoxides in forming guanyl-N7 adducts and inducing different genetic responses.

Baertschi SW, Raney KD, Shimada T, Harris TM, Guengerich FP
Chem Res Toxicol. 1989 2 (2): 114-2

PMID: 2519710 · DOI:10.1021/tx00008a008

The genotoxicity of the dihydrofurans aflatoxin B1 (AFB1), aflatoxin G1 (AFG1), and sterigmatocystin (STG) was examined in a bacterial system in which the induction of SOS repair is monitored with the umuC gene linked to a lacZ reporter gene in plasmid pSK1002. Human liver microsomal cytochrome P-450NF oxidized the dihydrofurans (in the presence of calf thymus DNA) to give guanyl-N7 adducts in the order AFB1 greater than STG greater than AFG1. The order of the umu response seen was STG greater than AFB1 greater than AFG1, when either the dihydrofurans were activated enzymatically or the synthetic epoxides of the dihydrofurans were added directly to the bacteria. Thus, the umu response per molecule of guanyl-N7 DNA adduct follows the order STG greater than AFB1 greater than AFG1. A similar pattern has been reported in the literature for Salmonella typhimurium base substitution dependent his reversions, but the pattern AFB1 greater than STG greater than AFG1 has been found for bacterial frame-shift-dependent mutagenesis and hepatocarcinogenesis. The guanyl-N7 adduct derived from AFG1 has considerably less of all of these biological activities per molecule. Neither guanine imidazole ring opening nor apurinic site formation appears to be a factor involved in the differential biological responses seen with the three guanyl-N7 adducts. These findings indicate that these structurally related guanyl-N7 DNA adducts have intrinsic differences which give rise to divergent biological responses.

MeSH Terms (17)

Aflatoxin B1 Aflatoxins DNA Enzyme Activation Epoxy Compounds Furans Guanine Humans In Vitro Techniques Liver Magnetic Resonance Spectroscopy Microsomes, Liver Mutagenicity Tests Mutagens Oxidation-Reduction Salmonella typhimurium Sterigmatocystin

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