In previous studies, we have described several classes of methotrexate-resistant Chinese hamster ovary cell lines. Although the RI class is resistant because of an altered target enzyme, dihydrofolate reductase, the RIII class derived from RI cells is somewhat more resistant because of a moderate amplification of the altered dhfr structural gene (Flintoffet al., Mol. Cell. Biol. 2:275-285, 1982). In one RIII line, a translocation between the short arm (p) of chromosome 2 and the long arm (q) of chromosome 5 was observed, and the amplified RIII gene complex was mapped to the p arm of the 2p-marker chromosome derived from the translocation (Worton et al., Mol. Cell. Biol. 1:330-335, 1981). We tested the hypothesis that chromosomal translocation is a general feature of RIII cells and that such translocation involves a site at or near the dhfr structural gene. Thus, we examined four independently derived RIII-type mutants and found that each had a moderate amplification of the dhifr gene sequences, and karyotype analysis revealed that each carried a translocation involving the 2p arm at or near band 2p25. That this chromosomal rearrangement involves a site near the dhfr locus was demonstrated by mapping the altered but unamplified structural gene coding for the RI phenotype to the short arm of an unaltered chromosome 2. This suggests that a highly specific rearrangement involving an exchange at or near the site of the unamplified gene is a necessary prerequisite for the amplification process. A model for gene amplification involving chromosomal rearrangements and sister chromatid exchange is described.
The amino acid analog albizziin was used to isolate Chinese hamster ovary cell lines which overproduce asparagine synthetase. Mutants selected in a single step after ethyl methane sulfonate mutagenesis were approximately 10-fold more resistant to the drug than the parental lines and expressed 8- to 17-fold elevations in enzyme activity. The karyotypes of these lines show alterations such as breaks and translocations affecting the long arm of chromosome 1. Cell lines isolated in several steps by growth in progressively increasing concentrations of albizziin were more resistant to the drug and exhibited up to 300-fold enhancement of asparagine synthetase activity. The multistep albizziin-resistant cell lines usually had expanded chromosomal regions which stained somewhat homogeneously, often on the long arm of chromosome 1. These results suggest that resistance to albizziin in the multistep lines may be due to gene amplification.
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