Exploring the molecular basis of action of the passive antiglucocorticoid 21-hydroxy-6,19-epoxyprogesterone

ALVAREZ, LD; MARTÍ, MA; VELEIRO, AS; PRESMAN, DM; ESTRÍN, DA; PECCI, A.; BURTON, G.

JOURNAL OF MEDICINAL CHEMISTRY

Año: 2008 vol. 51 p. 1352 - 1360

0022-2623

21-Hydroxy-6,19-epoxyprogesterone (21OH-6,19OP) is a selective antiglucocorticoid that lacks the bulky substituent at C-11 found in active antagonists of the glucocorticoid receptor (GR). Ligand-free GR ligand-binding domain (LBD) and GR LBD complexed with 21OH-6,19OP or the agonist dexamethasone were simulated during 6 ns using molecular dynamics. Results suggest that the time fluctuation and average position adopted by the H1-H3 loop affect the ability of GR LBD-21OH-6,19OP complex to homodimerize, a necessary step in transcriptome assembly. A nuclear localization and a transactivation experiment showed that, although 21OH-6,19OP activates the translocation of the GR, the nuclear complex is unable to induce the transcription of a reporter driven by a promoter, that requires binding to a GR homodimer to be activated. These findings support the hypothesis that the passive antagonist mode of action of 21OH-6,19OP resides, at least in part, in the incapacity of the GR-21OH-6,19OP complex to dimerize.