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  • Title: Expression of an E.coli O6-alkylguanine DNA alkyltransferase gene in Chinese hamster cells protects against N-methyl and N-ethylnitrosourea induced reverse mutation at the hypoxanthine phosphoribosyl transferase locus.
    Author: Fox M, Margison GP.
    Journal: Mutagenesis; 1988 Sep; 3(5):409-13. PubMed ID: 3070275.
    Abstract:
    The spontaneous hypoxanthine phosphoribosyl transferase deficient (HPRT-) mutants of V79 cells (TG11 and TG15) were transfected with a retrovirus-based plasmid containing a truncated form of the Escherichia coli gene which codes for O6-alkylguanine (O6-AG) DNA alkyltransferase (ATase). The resultant cell lines TG11SB5 and TG15SB7 were G418 resistant and expressed high levels of O6-AG ATase activity. The frequency of revertants induced by equitoxic doses of N-methyl-N-nitrosourea (MNU) and N-ethyl-N-nitrosourea (ENU) was 10- to 50-fold higher in TG11 than in TG15. In TG11SB5 and TG15SB7 induced revertant frequencies were reduced relative to TG11 and TG15 by factors of 6-8 and 1.5-3.0, respectively, immediately after treatment. On delayed plating the frequency of MNU-induced revertant colonies decreased at a rate inversely proportional to dose in both TG11 and TG11SB5. In contrast, after exposure of TG11SB5 to ENU (50 or 75 micrograms/ml) initial reversion frequencies were low compared with TG11, but then rose to a plateau frequency by 24 h, which was maintained for up to 72 h. The frequency of reversion observed, the degree of protection afforded by the E.coli O6-AG ATase and the kinetics of expression of revertants were thus cell line specific suggesting that DNA sequence specific alkylation and/or preferential repair may be responsible. The initial protection against mutagenesis is consistent with the hypothesis that MNU- and ENU-induced reversion is the result of miscoding opposite O6-AG or O4-alkylthymine residues. Expression of O6-AG ATase activity was variable when cells were continually cultured over long periods despite the presence of the selective antibiotic G418.
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