Glucocorticoids increase expression of specific genes by a mechanism involving binding to and "activation" of a specific receptor protein. Other steroids, such as RU 486, bind to the glucocorticoid receptor but the resultant steroid-receptor complex is unable to activate glucocorticoid sensitive genes. In the present study we have observed that steroid regulation of the glucocorticoid-regulated mouse mammary tumor virus (MMTV) genome in cultured mouse mammary tumor cells is altered by treatment of the cells with inhibitors of (ADP-ribose)n synthetase. The ability of glucocorticoid agonists to increase MMTV is about 2-fold increased by the inhibitor treatment. Interestingly, RU 486 and other steroids that are normally inactive in control cells are very good inducers of MMTV in the treated cells. This alteration in MMTV expression is associated with a 37% increase in nuclear binding of the glucocorticoid, triamcinolone acetonide, and also RU 486 in the inhibitor-treated cells. Steroids that do not bind to the glucocorticoid receptor are not inducers in control or in treated cells. The results point to a role for ADP-ribosylation of proteins as a negative regulator of MMTV expression and suggest a mechanism for activation of steroid-sensitive genomes.