| Abstract: | Glutathione transferases (GSTs) have been shown to be overexpressed in a number of tumor cell lines selected for resistance to chemotherapeutic drugs and have been implicated in some studies of clinical specimens. In tumor cell lines selected for resistance to chemicals that alkylate DNA, the isoform most frequently overexpressed is GST-Yc, a member of the α class GSTs. To date, two variations of the cDNA designated Yc1 with subtle differences have been described, and Yc2 is shown to be clearly distinct. Transfection of a Yc1 cDNA constitutively expressed in rat liver into rat mammary cancer cells confers resistance to alkylators, however, to a lesser extent than is observed in the cells selected for resistance. It has therefore been widely suggested that the GST that is overexpressed in selected resistant cells represents a distinct and novel isoform. We have previously described a rat mammary carcinoma cell line (MLNr) that is resistant to alkylating agents, and overexpresses a GST with characteristics similar to GST-Yc1 and not Yc2. It has many features common to the several other GST-Yc overexpressing alkylator resistant cell lines. We have cloned the specific Yc cDNA overexpressed in MLNr and analyzed it in detail and found that it is identical to one of the previously reported Yc1 cDNAs, suggesting that there is no additional Yc gene specifically induced by nitrogen mustards. Another hypothesis to explain the difference in the level of resistance in selected versus GST-Yc transfected cells is the lack of concurrent increased glutathione (GSH) in the transfectants, which is a common feature in the selected resistant cells. Experiments in which we modulated GSH levels suggest that this is not likely. These studies add to our speculation that other mechanisms may be involved in alkylator resistance. © 1997 John Wiley & Sons, Inc. J Biochem Toxicol 12: 11–17, 1998 |
