Suppression of Delta(5)-androstenediol-induced androgen receptor transactivation by selective steroids in human prostate cancer cells

Our earlier report suggested that androst-5-ene-3 beta,7 beta-diol (Delta(5 )-androstenediol or Adiol) is a natural hormone with androgenic activity an d that two potent antiandrogens, hydroxyflutamide (Eulexin) and bicalutamid e (Casodex), fail to block completely the Adiol-induced androgen receptor ( AR) transactivation in prostate cancer cells. Here, we report the developme nt of a reporter assay to screen several selective steroids with anti-Adiol activity. Among 22 derivatives/metabolites of dehydroepiandrosterone, we f ound 4 steroids [no. 4, 1,3,5 (10)-estratriene-17 alpha-ethynyl-3,17 beta-d iol; no. 6, 17 alpha-ethynyl-androstene-diol; no. 8, 3 beta,17 beta-dihydro xy-androst-5-ene-16-one; and no. 10, 3 beta-methylcarbonate-androst-5-ene-7 ,17-dione] that have no androgenic activity and could also block the Adiol- induced AR transactivation in prostate cancer PC 3 cells. Interestingly, th ese compounds, in combination with hydroxyflutamide, further suppressed the Adiol-induced AR transactivation. Reporter assays further showed that thes e four anti-Adiol steroids have relatively lower glucocorticoid, progestero ne, and estrogenic activity. Together, these data suggest some selective st eroids might have anti-Adiol activity, which may have potential clinical ap plication in the battle against the androgen-dependent prostate cancer grow th.