Time course of glutathione S-transferase elevation in Walker mammary carcinoma cells following chlorambucil exposure.

Resistance of Walker 256 rat mammary carcinoma cells to chlorambucil has been shown to be accompanied by a specific increase in the A2-2 subunit of glutathione S-transferase (GST) (Buller et al., Mol Pharmacol 31: 575-578, 1987). Analysis of the time course of GST activity following chlorambucil exposure revealed a 7.5- and 3-fold elevation on day 7 post-treatment in Walker-sensitive (WS) and Walker-resistant (WR) cells, respectively. Flow activated cell sorting (FACS) analyses using antibodies specific for rat liver cytosolic GST supported these results and demonstrated the heterogeneous response of WS cells to chlorambucil exposure. The range of GST levels in drug-treated cells was very broad as compared to that of untreated cells. Transcripts for each class of GST (alpha, mu and pi) were quantified for days 1-9 post-treatment from densitometric scans of RNA slot blots. Elevations in GST alpha RNA preceded increases in GST activity (day 7) in both WS and WR cells. Because fluctuations in GSTA1-1 transcripts were not observed, it was concluded that the increased expression of the alpha class must be attributed to increases in GSTA2-2 transcripts. Amplification of the GST genes in drug-treated cells was not present. These results support the role of GSTA2-2 in the detoxification of chlorambucil. The time course of the cellular response to chlorambucil suggests that the elevation of GSTA2-2 transcripts following alkylating agent exposure may represent only one component of a series of events which collectively confer protection and lead to the establishment of drug resistance.

Contribution of patient history to the glutathione S-transferase activity of human lung, breast and colon tissue.

Overexpression of the glutathione S-transferases (GSTs) and their involvement in the detoxification of anticancer agents has prompted numerous investigations of the enzyme activity of human tumor tissue. This study represents an in-depth evaluation of the contribution of patient history and pathological status to the GST activity of various human tissues. GST activity was elevated significantly in tumors of the lung, breast and colon as compared to unmatched and matched normal tissue from the same organ. The GST activity of primary breast tumors varied significantly with the stage of the tumor. Breast tumors previously treated with both radiation and chemotherapy had significantly lower levels of GST activity than untreated tumors. Neither progesterone nor estrogen receptor content was associated with the GST activity in primary breast tumors. Colon metastases possessed higher levels of GST activity than primary colon tumors but enzyme activity was independent of the Duke's classification of the tumor. Only tumors of the left colon had levels of GST activity that were higher than those of adjacent normal mucosa. No relationship was evident between either age or sex and the GST activity of any of the tissues examined. GST activity levels may reflect the site-specific ability of tissues to provide cellular protection against xenobiotics.