Risk of clinically significant prostate adenocarcinoma (CAP) varies worldwide,although there is a uniform prevalence of latent disease. A hormone-responsive tissue,the prostate possesses the metabolizing capacity to...Risk of clinically significant prostate adenocarcinoma (CAP) varies worldwide,although there is a uniform prevalence of latent disease. A hormone-responsive tissue,the prostate possesses the metabolizing capacity to biotransform a variety of environmental procarcinogens or endogenous hormones. Whether such metabolizing capacity or estrogen receptor (ER) status underlies these demographic differences in susceptibility to CaP remains unclear. With appropriate ethical permission,verified-benign tissues were obtained following transurethral resection of the prostate from a high-risk region (n = 12 UK-resident Caucasians) and a typically low-risk region (n = 14 India-resident Asians). Quantitative gene expression analysis was employed for cytochrome P450 (CYP)1B1,N-acetyltransferase (NAT)1,NAT2,catechol-O-methyl transferase ( COMT),sulfotransferase ( SULT) 1A1,ERα,ERβ and aromatase (CYP To quantify the presence or absence of CYP1B1,ERα or ERβ,and to identify ther in situ localization,immunohistochemistry was carried out. The two cohorts had reasonably well-matched serum levels of prostate-specific antigen or hormones. Expression levels for the candidate genes investigated were similar.However,clear differences in protein levels for CYP1B1 and ERβ were noted. Staining for CYP1B1 tended to be nuclear-associated in the basal glandular epithelial cells,and in UK-resident Caucasian tissues was present at a higher (P = 0.006) level compared with that from India-resident Asians. In contrast,a higher level of positive ERβ staining was noted in prostates from India-resident Asians. These study findings point to differences in metabolizing capacity and ER status in benign prostate tissues that might modulate susceptibility to the emergence of clinically significant CaP in demographically distinct populations.展开更多
文摘Risk of clinically significant prostate adenocarcinoma (CAP) varies worldwide,although there is a uniform prevalence of latent disease. A hormone-responsive tissue,the prostate possesses the metabolizing capacity to biotransform a variety of environmental procarcinogens or endogenous hormones. Whether such metabolizing capacity or estrogen receptor (ER) status underlies these demographic differences in susceptibility to CaP remains unclear. With appropriate ethical permission,verified-benign tissues were obtained following transurethral resection of the prostate from a high-risk region (n = 12 UK-resident Caucasians) and a typically low-risk region (n = 14 India-resident Asians). Quantitative gene expression analysis was employed for cytochrome P450 (CYP)1B1,N-acetyltransferase (NAT)1,NAT2,catechol-O-methyl transferase ( COMT),sulfotransferase ( SULT) 1A1,ERα,ERβ and aromatase (CYP To quantify the presence or absence of CYP1B1,ERα or ERβ,and to identify ther in situ localization,immunohistochemistry was carried out. The two cohorts had reasonably well-matched serum levels of prostate-specific antigen or hormones. Expression levels for the candidate genes investigated were similar.However,clear differences in protein levels for CYP1B1 and ERβ were noted. Staining for CYP1B1 tended to be nuclear-associated in the basal glandular epithelial cells,and in UK-resident Caucasian tissues was present at a higher (P = 0.006) level compared with that from India-resident Asians. In contrast,a higher level of positive ERβ staining was noted in prostates from India-resident Asians. These study findings point to differences in metabolizing capacity and ER status in benign prostate tissues that might modulate susceptibility to the emergence of clinically significant CaP in demographically distinct populations.
