Altered dexamethasone responsiveness and loss of growth control in tumorigenic mouse lung cell lines.

Glucocorticoid hormones induce differentiation, inhibit proliferation, and, in mice, reduce carcinogen-induced tumorigenesis of lung epithelial cells. Therefore we examined dexamethasone effects on tumorigenic and non-tumorigenic mouse lung epithelial-derived cell lines. Non-tumorigenic cells were growth inhibited and exhibited CAT activity in pMMTV-CAT transfectants in response to dexamethasone. Tumorigenic cell lines exhibited a range of responses to dexamethasone. While one tumorigenic line was growth-inhibited and responsive in CAT assays, 2 other tumorigenic cell lines were unresponsive both in CAT and in growth assays. A fourth tumorigenic cell line exhibited intermediate sensitivity in CAT assays and was actually growth-enhanced by dexamethasone. Although no difference between cell lines was observed in the abundance of glucocorticoid receptor protein on Western blots, the least dexamethasone-responsive tumorigenic lines exhibited very little binding of 3H-dexamethasone. Clones of tumorigenic lines stably transfected with the rat glucocorticoid receptor gene were more dexamethasone-sensitive in CAT assays and were growth-inhibited by dexamethasone. These data suggest that the neoplastic progression of cell lines derived from mouse lung frequently involves the acquisition of diminished glucocorticoid responsiveness.