Mutational specificity in a shuttle vector replicating in chromium(VI)-treated mammalian cells.

An SV40-based shuttle vector, pZ189, was used to characterize the mutation specificity and to explore the mechanism of chromium mutagenesis in mammalian cells. We showed previously that mutagenic DNA damage is induced by the treatment of plasmid with chromium(VI) plus glutathione in vitro. The induced mutation pattern suggested that chromium mutagenesis can be induced by the generation of reactive oxygen intermediates. To further investigate the mechanism of chromium mutagenesis, we treated cultured mammalian cells containing normal pZ189 vector with chromium(VI). Mutations were induced by Cr(VI) in a dose-dependent manner. The majority of base substitution mutations were widely distributed across the supF mutation target gene and occurred mainly at GC basepairs. Overall, the mutation spectra were not significantly different from each other except for a mutation hot spot at position 43, observed only in plasmids from Cr(VI)-treated cells. The characteristics of Cr(VI)-induced mutations were similar to those observed in the mutation spectra induced by H2O2 treatment of the pZ189 plasmid or plasmid-containing cells. These results are consistent with the hypothesis that induction of mutations by chromium in cultured cells occurs through the generation of oxidative DNA damage. Copyright 1999 Wiley-Liss, Inc.