Interaction of androgen receptors with androgen response element in intact cells - Roles of amino- and carboxyl-terminal regions and the ligand

Promoter interference assay was employed to examine in intact cells the roles of the functional domains of androgen receptor (AR) and the ligand for specific DNA interactions using a cytomegalovirus-(androgen response element)-chloramphenicol acetyltransferase reporter (pCMV-ARE(2)-CAT). Native rat and human ARs interfered with pCMV-ARE(2)-CAT expression in a hormone-dependent fashion, Low steroid-independent interference see:med to occur because of the ligand binding domain (LED), which was transcriptionally inhibitory also in a heterologous context, AR devoid of LED (rAR Delta 641-902) decreased pCMV-ARE(2)-CAT activity by 50%, The rAR Delta 46-408 mutant devoid of the NH2-terminal transcription activation region exhibited ligand-dependent promoter interference of a similar magnitude, Ligand and DNA binding-deficient mutants (hARM807R and rARC562G, respectively) did not influence pCMV-ARE(2)-CAT expression, although hARM807R binds to ARE in vitro, Non-steroidal anti-androgens casodex and hydroxyflutamide antagonized agonist-dependent promoter interference, whereas cyproterone acetate, RU 56187, RU 57073, and RU 59063 were partial agonists/antagonists, Collectively, interaction of ARs with ARE in intact cells does not require the presence of the COOH-terminal or NH2-terminal domain and/or their interaction. In the context of native AR, however, the androgen-induced conformational change in LED is mandatory for generation of a transcriptionally competent receptor that binds to DNA in intact cells.