The purified activated glucocorticoid receptor is a homodimer.

The structure of purified preparations of activated (DNA-binding) glucocorticoid receptor (GR) was analyzed in the presence or absence of DNA. A 35-base pair DNA fragment harboring a strong GR-binding site from the mouse mammary tumor virus promoter (-189/-166) was used for stoichiometric analysis of the GR.DNA complex. Glycerol gradient centrifugation was utilized in order to separate the 6 S GR.DNA complex from the 4 S GR and the 3 S DNA fragment. Synthetic glucocorticoid [3H]triamcinolone acetonide bound to GR and 32P-5'-end-labeled DNA fragment were used as probes for quantitation of each component. Such experiments demonstrated that two hormone molecules (two 87.5-kDa GR peptides) are associated with each cognate DNA site. Quantitative DNase I footprinting confirmed this result. The formation of the GR.DNA complex was ligand-dependent, but once formed the complex remained stable after ligand dissociation. Incubation of GR with 0.01-0.1% (w/v) glutaraldehyde resulted in a shift in its sedimentation rate from 4 to 6 S. Gel filtration chromatography of glutaraldehyde-treated GR resulted in a complex of slightly larger size than the gamma-globulin standard (158 kDa). Gel filtration of GR without glutaraldehyde treatment gave the identical result. This suggests that a GR multimer, probably a homodimer, is stable during gel filtration chromatography but needs to be stabilized by glutaraldehyde cross-linking or DNA during glycerol gradient centrifugation. We conclude that the activated GR exists as a homodimer when unbound as well as when bound to DNA.