Ligand-specific dynamics of the progesterone receptor in living cells and during chromatin remodeling in vitro.

Progesterone receptor (PR), a member of the nuclear receptor superfamily, is a key regulator of several processes in reproductive function. We have studied the dynamics of the interaction of PR with a natural target promoter in living cells through the use of fluorescence recovery after photobleaching (FRAP) analysis and also have characterized the dynamics of the interaction of PR with the mouse mammary tumor virus (MMTV) promoter reconstituted into chromatin in vitro. In photobleaching experiments, PR in the presence of the agonist R5020 exhibits rapid exchange with the MMTV promoter in living cells. Two PR antagonists, RU486 and ZK98299, have opposite effects on receptor dynamics in vivo. In the presence of RU486, PR binds to the promoter and is exchanged more slowly than the agonist-activated receptor. In contrast, PR bound to ZK98299 is not localized to the promoter and exhibits higher mobility in the nucleoplasm than the agonist-bound receptor. Significantly, PR bound to R5020 or RU486 can recruit the SWI/SNF chromatin remodeling complex to the promoter, but PR activated with ZK98299 cannot. Furthermore, we found ligand-specific active displacement of PR from the MMTV promoter during chromatin remodeling in vitro and conclude that the interaction of PR with chromatin is highly dynamic both in vivo and in vitro. We propose that factor displacement during chromatin remodeling is an important component of receptor mobility and that ligand-specific interactions with remodeling complexes can strongly influence receptor nuclear dynamics and rates of exchange with chromatin in living cells.

ATP-dependent mobilization of the glucocorticoid receptor during chromatin remodeling.

Chromatin remodeling by the glucocorticoid receptor (GR) is associated with activation of transcription at the mouse mammary tumor virus (MMTV) promoter. We reconstituted this nucleoprotein transition with chromatin assembled on MMTV DNA. The remodeling event was ATP dependent and required either a nuclear extract from HeLa cells or purified human Swi/Snf. Through the use of a direct interaction assay (magnetic bead pull-down), we demonstrated recruitment of human Swi/Snf to MMTV chromatin by GR. Unexpectedly, we found that GR is actively displaced from the chromatin template during the remodeling process. ATP-dependent GR displacement was reversed by the addition of apyrase and was specific to chromatin templates. The disengagement reaction could also be induced with purified human Swi/Snf. Although GR apparently dissociated during chromatin remodeling by Swi/Snf, it participated in binding of the secondary transcription factor, nuclear factor 1. These results are paralleled by a recent discovery that the hormone-occupied receptor undergoes rapid exchange between chromatin and the nucleoplasmic compartment in living cells. Both the in vitro and in vivo results are consistent with a dynamic model (hit and run) in which GR first binds to chromatin after ligand activation, recruits a remodeling activity, facilitates transcription factor binding, and is simultaneously lost from the template.