In vivo effects of androgen withdrawal and substitution on human androgen receptor (hAR) expression were evaluated in the androgen-dependent human prostatic carcinoma tumor line PC-82. By application of several antibodies reactive with different epitopes of the hAR molecule, hAR protein expression was studied in tumor transplants by immunohistochemistry and immunoblotting. hAR messenger RNA (mRNA) levels were quantitated in PC-82 tumor tissue with a S1-nuclease protection assay. Most PC-82 tumor cells (> 97%) from testosterone-supplemented mice displayed nuclear hAR protein expression immunohistochemically. The almost complete reduction of nuclear hAR immunoreactivity within 5 days after androgen withdrawal (< 10%) was restored after androgen substitution within 1 day. The immunochemical data were confirmed by Western blot analysis. In contrast, no significant changes were observed in hAR mRNA content of PC-82 cells after 5 days of androgen withdrawal. Correlating hAR expression with proliferative activity of PC-82 tumor tissue during endocrine manipulation, a rapid, castration-induced decline of the percentage of bromodeoxyuridine-labeled cells accompanied the loss of hAR. Androgen substitution in castrated male mice restored the proliferative activity. However, this increase of proliferative activity lagged at least 24 h behind the normalization of the hAR protein level. In contrast to the steroid receptor down-regulation by homologous ligands observed in other experimental models, our data support the concept of hAR up-regulation by androgen. Since the hAR mRNA content of PC-82 tumor tissue was hardly affected by castration, expression of the hAR in PC-82 is thought to be modulated by translational and/or posttranslational mechanisms.