| Abstract: | Murine lymphoma cell lines such as WEHI-7 exhibit a cytolytic response to both cAMP and glucocorticoids. We have exploited this behavior to ask if cyclic AMP-dependent protein kinase plays a role in regulating glucocorticoid receptor function. We have found that cAMP-resistant cell lines containing a defective cAMP-dependent protein kinase activity give rise to spontaneous steroid-resistant variants at a high frequency (approximately 10(-7)) relative to wild type cells (less than 10(-10)). Unlike previous results with wild type cells, nearly complete loss of glucocorticoid receptor function was observed in a single selection using unmutagenized cAMPr derivatives of WEHI-7. Thus, the initial selection of the cAMPr phenotype serves as a permissive step toward the acquisition of glucocorticoid resistance in WEHI-7. In addition, cAMP was found to increase the levels of steroid binding in these cell lines, and the dose response was dependent upon the phenotype of the cyclic AMP-dependent protein kinase. The results demonstrate an important role for cAMP in regulating glucocorticoid receptor activity and strongly suggest that this novel two-step selection scheme leads to the isolation of new forms of glucocorticoid resistance. |
