The steroid antagonist RU486 exerts different effects on the glucocorticoid and progesterone receptors.

To determine whether the steroid antagonist RU486 mediates its antiglucocorticoid and antiprogestin activities by the same or different receptor mechanisms, a direct comparison of RU486 interaction with glucocorticoid (GR) and progesterone (PR) receptors was made. The effects of RU486 on transformation of GR and PR 8-10S complexes in the intact cell and in vitro were analyzed by sucrose density gradient centrifugation, and the in vitro stability of receptor-heat shock protein-90 interactions was analyzed by coimmunoprecipitation. Compared to agonist, RU486 binding produced a reduction in the amount of GR converted from 8S to 4S and stabilized the GR-heat shock protein-90 complex. By contrast, PR-RU486 complexes were transformed both in vitro and in the intact cell to the same extent as receptor-agonist complexes. PR-RU486 complexes sedimented at 5-6S, whereas PR-R5020, GR-RU486, and GR-agonist complexes sedimented at 4S. The portion of GR that undergoes nuclear transformation when bound to RU486 was examined for binding to the glucocorticoid-progesterone response element of the mouse mammary tumor virus by an immunoprecipitation assay. The nuclear-transformed GR-RU486 complex bound the glucocorticoid-progesterone response element with the same affinity as the nuclear-transformed GR-triamcinolone acetonide complex. The electrophoretic mobilities of GR-RU486 complexes and GR-agonist complexes were the same, as determined by gel retardation assay. These results suggest that RU486 exerts its antiglucocorticoid activity at two levels of receptor action: prevention of complete GR transformation and alteration of a step subsequent to GR-DNA binding. As an antiprogestin, RU486 action is exerted predominantly at a post-DNA-binding step.