Downregulation of androgen receptor expression by luteolin causes inhibition of cell proliferation and induction of apoptosis in human prostate cancer cells and xenografts

BACKGROUND: Androgen receptor (ARs) play a crucial role in the development and progression of prostate cancer. Recent studies have suggested that prostate cancer cell proliferation is inhibited by AR downregulation. Our aim was to investigate how luteolin, a natural flavonoid, affects cell growth and AR expression in prostate cancer cells and xenografts. METHODS: We assessed prostate cancer cell (LNCaP, DU145, and PC-3) proliferation and apoptosis by MTT assay, flow cytometric analysis, and Western analysis. AR function was measured by evaluating the AR target molecule, prostate-specific antigen (PSA), by RT-PCR, Western blotting, and enzyme-linked immunosorbent assay. We determined the mechanism of AR downregulation with cycloheximide chase assays, proteasome inhibitor, and coimmunoprecipitation experiments. The effects of luteolin on growth inhibition in vivo were examined by LNCaP xenografts in SCID mice. RESULTS: Luteolin significantly repressed prostate cancer cell proliferation and induced apoptosis in LNCaP cells. PC-3 and DU145 cells were less susceptible to luteolin-mediated growth inhibition. Luteolin simultaneously suppressed intracellular and secreted PSA levels and repressed AR mRNA and protein expression in a dose- and time-dependent manner. Luteolin reduced the association between AR and heat-shock protein 90, causing AR degradation through a proteasome-mediated pathway in a ligand-independent manner. Luteolin also suppressed LNCaP xenograft tumor growth in SCID mice. CONCLUSION: Luteolin-mediated AR downregulation contributes to the inhibition of cell proliferation and the induction of apoptosis in LNCaP human prostate cancer cells, suggesting that AR is a molecular target for luteolin-mediated anticancer activity. Luteolin may act as a chemopreventive or chemotherapeutic agent for prostate cancer.     

Androgen receptor down-regulation in prostate cancer with phosphorodiamidate morpholino antisense oligomers

PURPOSE: Androgen receptor (AR) has a pivotal role in the growth and proliferation of prostate cancer (PCa). Even in advanced stages of PCa AR continues to be expressed and appears to be functional. Since the mechanisms of AR activation in androgen independent PCa have yet to be clearly defined, the decrease in AR protein by antisense compounds is an attractive therapeutic option. In this study we evaluated a novel antisense phosphorodiamidate morpholino oligomer (PMO) targeting the translational start site of AR mRNA in vitro and in vivo in a PCa xenograft and murine prostate. MATERIALS AND METHODS: AR antisense PMOs targeting the AR initiation AUG were tested in vitro and in LNCaP cells, and in vivo in LAPC-4 xenografts and normal mouse prostate. Effects on AR protein and PSA expression were assessed. RESULTS: AR antisense PMOs specifically down-regulated AR protein levels in a plasmid based screening system and also decreased endogenous AR levels in androgen responsive LNCaP cells in culture compared to control nonspecific PMOs. Pretreatment and posttreatment biopsies in the LAPC-4 xenograft model demonstrated that the antisense AR PMO administered intraperitoneally specifically decreased AR protein levels and serum PSA. Analysis of tissue distribution of the AR PMO by high performance liquid chromatography based methodology showed significant PMO levels in tumor tissue and mouse prostate, and there was a dose dependent decrease in AR protein levels in murine AR antisense PMO treated mouse prostates. CONCLUSIONS: An AR antisense PMO with unique chemical properties administered once daily can decrease AR protein levels and PSA in vivo. The reduction of AR protein with an antisense PMO may be an effective method of interfering with AR mediated growth in advanced human PCa.     

Two mutations identified in the androgen receptor of the new human prostate cancer cell line MDA PCa 2a

PURPOSE: We have characterized the androgen receptor (AR) in a new human prostate cancer cell line, MDA PCa 2a, that has recently been established from a bone metastasis of a patient whose cancer exhibited androgen-independent growth. MATERIALS AND METHODS: Androgen responsiveness of these cells was assessed by measuring the effect of DHT and R1881 on cell growth and PSA secretion. Scatchard analysis was used to characterize the affinity and abundance of AR protein. Using a PCR based strategy, genomic DNA of the entire coding region of AR gene was sequenced to identify possible mutations. RESULTS: These cells express abundant AR (Nmax = 685 +/- 149 fmol./mg. protein), but the AR binding affinity (Kd) for DHT is only 25 nM, approximately 50-fold lower affinity than the mutated AR in LNCaP prostate cancer cells (Kd = 0.5 nM) or the wildtype AR in MCF-7 breast cancer cells (Kd = 0.4 nM). Two mutations, L701H and T877A, were identified in the ligand binding domain of the AR gene. Compared with LNCaP cells, the new cell line is significantly less responsive to DHT and R1881 as well as to other androgens such as testosterone, androstenedione, and DHEA. Similar to LNCaP cells, the ligand specificity of the AR in MDA PCa 2a cells appears to be relaxed and non-androgens such as progesterone and estradiol act as agonists although with less potency than in LNCaP cells. Interestingly, in the absence of androgens, the new cell line expresses 15-fold higher baseline levels of PSA than LNCaP. CONCLUSIONS: Two mutations were identified in the AR gene of the MDA PCa 2a cell line that are likely responsible for the decreased androgen sensitivity and altered ligand specificity observed in these cells. Thus, this new cell line with partial androgen responsiveness and PSA expression can serve as a functionally relevant model system of bone metastatic prostate cancer, and can be used to investigate the role of AR mutations in prostate cancer and its progression to androgen independence.     

熊果酸对前列腺癌细胞雄激素非依赖性的逆转作用

目的 探讨中药成分熊果酸对雄激素非依赖性前列腺癌(AIPC)的治疗作用及其机制.方法 应用熊果酸处理体外培养的人雄激素依赖性前列腺癌(ADPC)细胞株LNCaP和AIPC细胞株DU145,噻唑蓝(MTT)比色法检测细胞活性及对人工合成雄激素R1881的反应性,免疫细胞化学检测熊果酸对雄激素受体(AR)、糖皮质激素受体(GR)、前列腺特异性抗原(PSA)及成活因子HSP90和白细胞介素(IL)-6表达的影响,逆转录.聚合酶链反应(RT-PCR)检测熊果酸对DU145细胞AR mRNA表达的影响.结果 熊果酸对不同浓度雄激素下的LNCaP细胞均呈浓度和时间依赖性生长抑制,20 mg/L的熊果酸作用96 h对LNCaP细胞的抑制率近50%.0.1 nmoL/L的R1881为最适生长浓度,熊果酸作用后,LNCaP细胞生长的最适雄激素浓度上升了10倍;熊果酸对DU145细胞的生长有浓度和时间依赖性抑制效应,DU145细胞对AR阻断剂羟氟他胺缺乏反应,熊果酸作用同时再应用氟他胺比单纯熊果酸的作用更明显,对细胞抑制率明显上升.熊果酸作用后,LNCaP和DUl45细胞IL-6、HSF90表达均明显下降(P＜0.05),DU145细胞GR表达明显降低(P＜0.01),AR和PSA蛋白及AR mRNA出现再表达.结论 熊果酸能改善前列腺癌细胞对雄激素的反应性,使LNCaP细胞对雄激素的依赖性加强,并诱发了DU145细胞对雄激素的反应性,其部分机制是降低了GR、HSP90、IL-6的表达并促进AR再表达.     

Prosaposin upregulates AR and PSA expression and activity in prostate cancer cells (LNCaP)

BACKGROUND: Prosaposin overexpression and/or genomic amplification have been demonstrated in androgen-independent (AI) prostate cancer cell lines and tissues. Here, we explored the possibility for a functional relationship between prosaposin and androgen receptor (AR) in LNCaP cells. METHODS: The effect of prosaposin or its active molecular derivatives (e.g., saposin C) on expression and activity of androgen receptor (AR) and prostate-specific antigen (PSA) was examined by using immunoblotting, RT-PCR, transfection, and reporter gene assays, immunofluorescence staining, and inhibitors of signal transduction pathways. RESULTS: Prosaposin or saposin C, in an AI-manner, (a) increased AR mRNA and protein expression and nuclear AR content and its phosphorylation state; (b) increased PSA mRNA and protein expression; and (c) upregulated PSA- and an androgen-inducible probasin (PB)-reporter gene activity in LNCaP and AR-transfected PC-3 cells. Induction of PSA expression and reporter activity was substantially blocked or prevented with the antiandrogen bicalutamide, pertussis toxin, or inhibitors of MAPK- and PI3K/Akt-signaling pathways, indicating an androgen-agonistic effect for saposin C that involves AR and multiple signaling pathways. CONCLUSIONS: The results for the first time introduce prosaposin as an androgen-agonist in prostate cancer cells. This finding, together with the growth-promoting effect and overexpression of prosaposin, may support a growth advantage to AI prostate cancer cells.     

Establishment and characterization of androgen-independent human prostate cancer LNCaP cell model

BACKGROUND: The acquisition of an androgen-independent phenotype is the most serious issue of prostate cancer treatment. Although several experimental cell models have been reported for studying androgen independence, they have limited applications related to hormone-refractory prostate cancer. To investigate the molecular mechanism of androgen-independent growth of prostate cancer, we established a useful LNCaP cell model that resembles the clinical scenario of hormone-refractory prostate cancer. METHODS: Androgen-sensitive LNCaP parental cells were continuously maintained in a regular cell-culture medium, that is, phenol red-positive RPMI 1640 medium supplemented with 5% fetal bovine serum and 1% glutamine. Upon passage, the androgen responsiveness of those cells decreased, to a level lower than that of parental cells. We examined the growth properties and androgen responsiveness of these different LNCaP cells in vitro and in vivo. Cytogenetic characteristics and expression of androgen receptors (ARs) and prostate-specific antigen (PSA) were determined. RESULTS: Upon continuous passage, the biological behavior of parental C-33 cells (passage number less than 33) was altered. C-81 cells (passage number higher than 81) clearly exhibited more aggressive growth and lower androgen responsiveness than C-33 and C-51 cells (passage number between 35 and 80) in vitro and in vivo. Nevertheless, all these cells expressed a similar level of functional AR protein as well as a similar genetic profile. Moreover, in a steroid-reduced culture condition, C-81 cells secreted a higher level of PSA than C-33 cells. CONCLUSIONS: Our LNCaP cell model closely recapitulates the progression of human prostate cancer from the androgen-responsive to the hormone-refractory state under the androgen nondeprived condition. This cell model may provide the opportunity to understand the molecular mechanisms associated with the acquisition of androgen independence during human prostate cancer progression.     

Development of an androgen-deprivation induced and androgen suppressed human prostate cancer cell line

BACKGROUND: Emergence of recurrent cells during androgen-deprivation therapy and intermittent androgen suppression therapy suggest that a subset of prostate cancer cells survive and proliferate in the androgen deprivation condition. Some of the recurrent cells that emerge during the androgen-deprivation therapy and intermittent androgen suppression therapy could be suppressed by replacement of androgen. In an attempt to recapitulate the clinical phenomenon, we developed an androgen-deprivation induced and androgen suppressed human prostate cancer cell line. METHODS: LNCS, an androgen-deprivation induced and androgen suppressed human prostate cancer cell line, was generated from an androgen-sensitive LNCaP cells cultured in PRMI-1640 media containing charcoal-stripped FBS for a prolong period for more than a year. The responsiveness to androgen in vitro and in vivo was examined. The characteristics of this subline including activation of signaling pathways were investigated. RESULTS: LNCS, an androgen-deprivation induced and androgen suppressed human prostate cancer cell line, was developed. LNCS cells express considerably lower levels of androgen receptor than LNCaP cells and grow vigorously in androgen deprived condition in vitro, and develop tumors in castrated male mice in vivo. Addition of androgen inhibits cell growth in vitro and tumor growth in vivo. LNCS cells are more resistant to etoposide, a typical apoptotic inducing agent. Although AR signaling is less active in LNCS cells, Stat3 is constitutively activated. Down regulation of Stat3 activation inhibits LNCS cell growth in vitro. CONCLUSIONS: We have developed an androgen-deprivation induced and androgen suppressed human prostate cancer cell line. This cell line is a valuable tool to study molecular mechanisms of the progression of androgen refractory prostate cancer and intermittent androgen suppression therapy.     

Long-term exposure of tumor necrosis factor alpha causes hypersensitivity to androgen and anti-androgen withdrawal phenomenon in LNCaP prostate cancer cells

BACKGROUND: One of the mechanisms through which prostate cancers relapse during anti-androgen therapy may involve adaptation to low concentrations of androgen induced by anti-androgen therapies. Recent studies from our laboratory have reported that tumor necrosis factor-alpha (TNFalpha) is secreted from prostate cancer epithelial cells and LNCaP cells. We hypothesized that TNFalpha changes androgen-sensitivity in LNCaP cells. METHODS: We cultured LNCaP cells for more than 3 months in the presence of 50 ng/ml TNFalpha and established TNFalpha-resistant LNCaP cells (LN-TR2). Sensitivity to androgen was examined by the cell proliferation assay. We also transfected LNCaP and LN-TR2 cells with a luciferase reporter plasmid driven by prostate-specific antigen (PSA) promoter and compared PSA promoter activity. Nuclear localization of AR protein that binds to target genes was also examined by Western blotting. RESULTS: LN-TR2 cells had increased sensitivity to dihydrotestosterone (DHT) (i.e., proliferation and PSA promoter activation) than LNCaP cells. Total AR mRNA and AR protein levels were decreased in LN-TR2 cells. However, LN-TR2 cells demonstrated increased levels of nuclear AR compared to LNCaP cells. At 1 nM DHT, the anti-androgen bicalutamide stimulated LN-TR2 and inhibited LNCaP proliferation. CONCLUSIONS: Long-term exposure of TNFalpha causes hypersensitivity to DHT in LNCaP and this was associated with increased nuclear AR protein. Furthermore, hypersensitivity to androgen caused anti-androgen withdrawal phenomenon in the presence of DHT although bicalutamide itself did not stimulate LNCaP proliferation without androgen. This result may be one possible mechanism for the anti-androgen withdrawal phenomenon.     

Androgen receptor-dependent regulation of Bcl-xL expression: Implication in prostate cancer progression

BACKGROUND: Recently we reported that silencing the androgen receptor (AR) gene reduced Bcl-xL expression that was associated with a profound apoptotic cell death in prostate cancer cells. In this study we further investigated AR-regulated Bcl-xL expression. METHODS: Prostate cancer cell line LNCaP and its sublines, LNCaP/PURO and LNCaP/Bclxl, were used for cell proliferation assay and xenograft experiments in nude mice. Luciferase gene reporters driven by mouse or human bcl-x gene promoter were used to determine androgen regulation of Bcl-xL expression. RT-PCR and Western blot assays were conducted to assess Bcl-xL gene expression. Chromatin immunoprecipitation assay was performed to determine AR interaction with Bcl-xL promoter. Bcl-xL-induced alteration of gene expression was examined using cDNA microarray assay. RESULTS: In cultured prostate cancer LNCaP cells, androgen treatment significantly increased Bcl-xL expression at mRNA and protein levels via an AR-dependent mechanism. Promoter analyses demonstrated that the AR mediated androgen-stimulated bcl-x promoter activation and that the AR interacted with bcl-x promoter. Enforced expression of Bcl-xL gene dramatically increased cell proliferation in vitro and promoted xenograft tumor growth in vivo. Genome-wide gene profiling analysis revealed that Bcl-xL expression was significantly higher in metastatic and castration-resistant diseases compared to normal prostate tissues or primary cancers. Bcl-xL overexpression significantly increased the expression of cyclin D2, which might be responsible for Bcl-xL-induced cell proliferation and tumor growth. CONCLUSIONS: Taken together, our data strongly suggest that androgen stimulates Bcl-xL expression via the AR and that increased Bcl-xL expression plays a versatile role in castration-resistant progression of prostate cancer.     

Caveolin expression is decreased following androgen deprivation in human prostate cancer cell lines.

BACKGROUND: Increased expression of caveolin has been associated with prostate cancer progression. In a mouse reconstitution model of prostate cancer, expression of caveolin was inversely related to androgen sensitivity: androgen independent clones had high caveolin expression; low caveolin expression was associated with sensitivity to androgen withdrawal. In contrast, several independent observations support the hypothesis that caveolin functions as a tumor suppressor. METHODS: Caveolin expression was studied by Western blot analysis and/or immunohistochemistry in three androgen-sensitive human prostate cancer cell lines LNCaP, LAPC-4 and LAPC-9, and following acute and chronic androgen deprivation, and in benign prostate epithelial cells. Expression of caveolin, androgen receptor (AR) and prostate specific antigen (PSA) was also examined after reintroduction of androgen. RESULTS: LNCaP grown continuously under androgen-depleted conditions for 6 to 42 months produced several androgen-independent and tumorigenic clones: tumors formed in 13/15 castrate and 7/15 intact male athymic nu/nu mice, but no tumors formed in wildtype LNCaP-bearing animals. Caveolin expression was decreased in every androgen-deprived LNCaP clone and following 150 days of androgen deprivation in LAPC-4. Caveolin expression by LAPC-9 was very low. Following exposure to dihydrotestosterone in vitro, caveolin and PSA expression increased within three days in the androgen-deprived clones of LNCaP. Benign prostate epithelial cells have high caveolin expression. CONCLUSIONS: Unlike the mouse reconstitution model of prostate cancer, the pattern of caveolin expression in benign prostatic epithelium and androgen-sensitive human prostate cancer is consistent with tumor suppressive activity.     

Pharmacological potential of phytoestrogens in the treatment of prostate cancer

INTRODUCTION: Phytoestrogenes are plant-derived compounds that have been shown to exert an antiproliferative potential on prostate cancer cells, although the exact mechanisms are still unclear. In prostate cancer cells proliferation is regulated by modulation of the IGF-1 receptor (IGF-R-1) by the androgen receptor (AR) and its co-activator prostate derived Ets factor (PDEF). Phytooestrogenes interact with these mechanisms as demonstrated exemplarily in the presented study with the isoflavone tectorigenin derived from Belamcanda chinensis. MATERIAL AND METHODS: Cultured androgen-sensitive LNCaP prostate cancer cells were treated with tectorigenin of 100 microM for 24 hours. The mRNA-expression of AR, PSA, PDEF, hTERT, TIMP-3 and IGF-R-1 were quantified by real-time RT-PCR. Furthermore, the expression or activity of PSA, telomerase and IGF-R-1 was measured on the protein level. In addition, we investigated in nude mice the influence of a diet of extracts of Belamcanda chinensis on the growth of subcutaneously injected LNCaP cells versus a control group of animals fed with a soy-free diet. RESULTS: In cultured LNCaP cells treatment with tectorigenin resulted in a significant down-regulation of the gene expression of AR, PDEF, PSA, IGF-R-1 and hTERT. On the protein level PSA secretion and the activity of telomerase and IGF-R-1 expression was also decreased. The gene expression of TIMP-3 was distinctly up-regulated by tectorigenin. Nude mice fed with Belamcanda chinensis extract showed a significantly decreased incidence and tumor growth compared to controls. CONCLUSIONS: Tectorigenin shows an inhibition of the IGF-1-R modulated cell proliferation of PCa-Cells, due to modulation of the activity the co-activator PDEF independently from the AR. Furthermore, tectorigenin has pro-apoptotic effects and decreases tissue invasion by up-regulation of TIMP-3. Therefore, phytooestrogenes are an interesting option in the therapy of prostate especially advanced prostate cancer.     

Androgen receptor or estrogen receptor-beta blockade alters DHEA-, DHT-, and E(2)-induced proliferation and PSA production in human prostate cancer cells

BACKGROUND: Dehydroepiandrosterone (DHEA) is an endogenous steroid that is metabolized to androgens and/or estrogens in the human prostate. DHEA levels decline with age, and use of DHEA supplements to retard the aging process is of unproved effectiveness and safety. LNCaP and LAPC-4 prostate cancer cells were used to determine whether DHEA-modulated proliferation and prostate specific antigen (PSA) production were mediated via the androgen receptor (AR) and/or ERbeta. METHODS: Cells were treated with DHEA, DHT, or E(2) and antagonists to AR (Casodex-bicalutamide) or ER (ICI 182,780) or siRNA to the respective receptors. Proliferation was assessed by MTT assay and PSA mRNA and protein secretion were measured by quantitative real-time PCR and ELISA. Associations of AR and ERbeta were analyzed by co-immunoprecipitation studies and fluorescent confocal microscopy. RESULTS: DHEA-, T-, and E(2)-induced proliferation of LNCaP cells was blunted by Casodex but not by ICI treatment. In LNCaP cells, Casodex and ICI suppressed hormone-induced PSA production. In LAPC-4 cells, DHT-stimulated PSA mRNA was inhibited by Casodex and ICI, and the minimal stimulation by DHEA was inhibited by ICI. Use of siRNAs confirmed involvement of AR and ERbeta in hormone-induced PSA production while AR-ERbeta co-association was suggested by immunoprecipitation and nuclear co-localization. CONCLUSIONS: These findings support involvement of both AR and ERbeta in mediating DHEA-, DHT-, and E(2)-induced PSA expression in prostate cancer cells.     

Interleukin-4 stimulates androgen-independent growth in LNCaP human prostate cancer cells

BACKGROUND: Clinical data showed that the levels of interleukin-4 (IL-4) are significantly elevated in serum of patients with ablation resistant prostate cancer. Previous studies demonstrated that IL-4 enhances androgen receptor (AR) activation mediated by NF-kappaB in the absence or in the very low levels of androgen in prostate cancer cells. In this study, the role of IL-4 in promoting the growth of androgen-independent prostate cancer cells was examined. METHODS: LNCaP cells were transfected with a full-length IL-4 cDNA and stable clones expressing IL-4 were selected. The growth of LNCaP cells expressing IL-4 was analyzed in vitro and in vivo both in the presence and absence of androgen. RESULTS: Overexpression of IL-4 enhances the growth of androgen-sensitive LNCaP cells in culture media containing charcoal-stripped FBS condition (CS-FBC), and increases the sensitivity of LNCaP cells in response to androgen stimulation. The DHT-mediated cell growth could not be blocked by bicalutamide in IL-4 overexpressing LNCaP cells, but can be neutralized by bicalutamide in parental LNCaP and neo control cells. Furthermore, overexpression of IL-4 stimulates tumor growth of androgen-sensitive LNCaP cells both in intact and castrated male mice. CONCLUSIONS: Overexpression of IL-4 increases the sensitivity of androgen-sensitive LNCaP prostate cancer cells in response to androgen stimulation and enhances the growth of LNCaP cells both in the presence and absence of androgen in vitro and in vivo. These studies suggest that IL-4 plays an important role in promoting androgen-independent prostate cancer growth.     

Expression profile of an androgen regulated prostate specific homeobox gene NKX3.1 in primary prostate cancer

PURPOSE: NKX3.1, a member of the family of homeobox genes, exhibits prostate tissue specific expression and appears to play a role in mouse prostate development. Rapid induction of NKX3.1 gene expression in response to androgens has also been described. On the basis of the established role of androgens in prostatic growth and differentiation and studies showing an association of aberrant homeobox gene expression with the neoplastic process, we hypothesize that alterations of NKX3.1 gene expression play a role in prostate tumorigenesis. MATERIALS AND METHODS: NKX3.1 expression was analyzed in matched, microdissected normal and tumor tissues from 52 primary prostate cancer specimens from radical prostatectomy by semiquantitative RT-PCR and in situ hybridization and correlated with the clinicopathologic features. NKX3.1 expression was quantified as differential expression between matched tumor and normal tissues and was grouped as overexpression in tumor tissue, reduced expression in tumor tissue and no change between tumor and normal tissues. Androgen regulation of NKX3.1 expression was also studied in LNCaP cells. Androgen receptor (AR) expression in prostate tumor and normal tissue was correlated with NKX3.1 expression. RESULTS: Comparison of NKX3.1 expression between normal and tumor tissues revealed overexpression in 31% tumor specimens (16 of 52), decreased expression in 21% tumor specimens (11 of 52) and no change in 48% specimens (25 of 52). When these expression patterns were stratified by organ confined and non-organ-confined tumor, a higher percentage of patients exhibited NKX3.1 overexpression in non-organ confined tumor (40%) versus organ confined tumor (22%). Elevated NKX3.1 expression significantly correlated with tumor volume and serum prostate specific antigen (PSA) level in the NKX3.1 overexpression group (p<0.05). Metastatic prostate cancer cell lines did not exhibit mutations in the protein coding sequence of NKX3.1. Additionally, the NKX3.1 expression correlated with AR expression (p<0.01) in vivo in human prostate tissues. Comparison of PSA and NKX3.1 expression in response to androgen revealed a rapid androgen mediated induction of NKX3.1 expression in LNCaP cells. In situ hybridization analysis of representative specimens confirmed RT-PCR observations. CONCLUSIONS: These results suggest an association of NKX3.1 with a more aggressive phenotype of carcinoma of the prostate. Correlation of AR expression with NKX3.1 in human prostate tissues underscores the androgen regulation of NKX3.1 in the physiologic context of human prostate tissues.