Stable overproduction of intact glucocorticoid receptors in mammalian cells using a selectable glucocorticoid responsive dihydrofolate reductase gene

We have generated several mammalian cell lines that stably express high levels of intact glucocorticoid receptor. These cells were created by cotransfecting a glucocorticoid-dependent dihydrofolate reductase (DHFR) gene into DHFR-deficient Chinese hamster ovary (CHO) cells together with a plasmid directing the expression of human glucocorticoid receptor. Using this approach, transfection frequencies indicate that the inclusion of glucocorticoid receptor cDNA increased the efficiency of DHFR transformation greater than 10-fold over nonreceptor control DNA. When a stably cotransfected line (designated MG/hGR) was subjected to short term growth in cytotoxic concentrations of the antifolate methotrexate, these cells strongly resisted growth inhibition when dexamethasone was present in the medium. This effect was steroid specific and was inhibited by the glucocorticoid antagonist RU38486. In an effort to exploit the methotrexate-induced coamplification properties of the DHFR gene as a means of creating cell lines having increased levels of glucocorticoid receptor, MG/hGR cells were chronically exposed to a relatively low concentration of methotrexate (50 nM). After this treatment a resistant line was isolated (MG/hGR/MTX50) that displayed complete dependence on exogenous glucocorticoid for growth. To investigate the molecular basis for the enhanced ability of MG/hGR/MTX50 cells to resist the cytotoxic effects of methotrexate in the presence of dexamethasone, glucocorticoid receptor protein in these cells was characterized and compared to parental CHO cells and methotrexate sensitive MG/hGR cells. Affinity labeling with 3H]dexamethasone mesylate and Western blot analysis with antiglucocorticoid receptor antiserum revealed that nontransfected CHO cells have virtually undetectable levels of glucocorticoid receptor protein whereas cotransfected MG/hGR cells contain at least 3 times more intact monomeric receptor protein of Mr 94,000. Correspondingly, analysis of receptor protein in MG/hGR/MTX50 cells indicated that these cells contain 8 to 10 times more glucocorticoid receptor than nontransfected CHO cells. Scatchard analysis of steroid binding curves revealed that these increases correspond to 6,600, 22,000 and 63,000 dexamethasone binding sites per cell for nontransfected CHO cells, cotransfected MG/hGR cells, and MG/hGR/MTX50 cells, respectively. Sedimentation profiles of native receptor in transfected and methotrexate-resistant cells further support the progressive increase in receptor content and demonstrate that glucocorticoid receptor exists in cotransfected cels as an oligomeric complex under hypotonic conditions (9S complex in the presence of 20 mM sodium molybdate, 7S in the absence of molybdate), which dissociates to a monomeric 4S species in the presence of 0.4 M KCl. These physicochemical properties are indistinguishable from those observed for the endogenous hamster glucocorticoid receptor and suggest that stably transfected human glucocort