Inhibition of prostate cancer cell growth by second-site androgen receptor antagonists

The impact of ligand binding on nuclear receptor (NR) structure and the ability of target cells to distinguish between different receptor-ligand complexes are key determinants of the pharmacological activity of NR ligands. However, until relatively recently, these mechanistic insights have not been used in a prospective manner to develop screens for NR modulators with specific therapeutic activities. Driven by the need for unique androgen receptor (AR) antagonists that retain activity in hormone-refractory prostate cancer, we developed and applied a conformation-based screen to identify AR antagonists that were mechanistically distinct from existing drugs of this class. Two molecules were identified by using this approach, D36 and D80, which interact with AR in a unique manner and allosterically inhibit AR agonist activity. Unlike the clinically important antiandrogens, casodex and hydroxyflutamide, both D36 and D80 block androgen action in cellular models of hormone-refractory prostate cancer. Mechanistically, these compounds further distinguish themselves from classical AR antagonists in that they do not promote AR nuclear translocation and quantitatively inhibit the association of AR with DNA even under conditions of overexpression. Although the therapeutic potential of these antiandrogens is apparent, it is the demonstration that it is possible, to modulate the interaction of cofactors with agonist-activated AR, using second-site modulators, that has the greatest potential with respect to the therapeutic exploitation of AR and other NRs.     

Altered endocytosis of epidermal growth factor receptor in androgen receptor positive prostate cancer cell lines

Although androgens and the androgen receptor (AR) are involved in tumorigenesis of prostate cancer (PC) in initial phases, less clear is the role played in advanced androgen-independent (AI) stages of the disease. Several recent reports indicated that re-expression of AR in PC-derived cell lines determines a less aggressive phenotype of the cells. We have previously demonstrated that re-expression of AR decreases the invasion ability of PC3 cells in vitro by affecting signalling and internalization processes of epidermal growth factor receptor (EGFR). Here, we show that reduced EGFR internalization is also a characteristic of AR positive PC cell lines LNCaP and 22Rv1. Reduced internalization in PC3-AR cells is associated to a defective interaction between the EGFR and two adaptor proteins which mediate the endocytotic process, Grb2 and c-Cbl. As a consequence of such reduced interaction, ubiquitination of the receptor, which is mainly mediated by c-Cbl, is also altered. In addition, we show that internalized EGFR co-localizes with early endosome antigen-1, a marker of clathrin-mediated endocytosis, in PC3-Neo cells but not in AR positive cell lines. Conversely, EGFR maintains co-localization with caveolin-1 after EGF stimulation in PC3-AR cells. These data suggest that expression of AR affects clathrin-mediated endocytosis pathway of EGFR, which, according to recent findings, plays an essential role in the completeness of signalling of the receptor. Taken together, these data emphasize the role of AR in the regulation of EGFR endocytotic trafficking and active signalling in PC cells. In view of the role of EGFR signalling in invasion of carcinoma cells, our data may explain the lower invasive phenotype observed in AR-positive cell lines.     

The androgen receptor and prostate cancer invasion

Eppin (epididymal protease inhibitor) is a member of the whey acidic protein (WAP)-type four-disulfide core (WFDC) gene family. This study provides updated information on Eppin and the Eppin-like genes within the Eppin cluster on human chromosome 20. A virtual structural model of the Eppin protein demonstrates that the C-terminal half of Eppin is structurally homologous to the Kunitz-type trypsin inhibitor. The Eppin N-terminal may have structural similarities to defensin-type molecules, rather than to that of the WAP consensus sequence. Human spermatozoa have a receptor for Eppin. When recombinant semenogelin (Sg) is digested with PSA many low molecular weight fragments are produced. However, when Eppin is bound to Sg, digestion by PSA is modulated. Addition of antibodies to the C-terminal of Eppin resulted in blocking PSA activity modulation. We can hypothesize from our analysis of anti-Eppin epitopes on Eppin that when anti-Eppin antibodies are bound to Eppin on the sperm surface they block the binding site for semenogelin.     

Suppression of androgen receptor transactivation and prostate cancer cell growth by heterogeneous nuclear ribonucleoprotein A1 via interaction with androgen receptor coregulator ARA54

The androgen receptor (AR) requires coregulators for its optimal transactivation. Whether AR coregulators also need interacting proteins to modulate their function remains unclear. Here we describe heterogeneous nuclear ribonucleoprotein (hnRNP) A1 as an associated negative modulator for the AR coregulator ARA54. hnRNP A1 selectively suppressed ARA54-enhanced wild-type and mutant AR transactivation via interruption of AR-ARA54 interaction and ARA54 homodimerization. Stable transfection of hnRNP A1 in the LNCaP cells suppressed AR-mediated cell growth and the expression of prostate-specific antigen, and this suppressive effect was abolished by the addition of ARA54-small interfering RNA. Small interfering RNA knockdown of endogenous hnRNP A1 enhanced cell growth and prostate-specific antigen expression in LNCaP cells. These results not only suggest that the loss of hnRNP A1 expression might activate the ARA54-enhanced cell growth and contribute to the prostate cancer progression, but also demonstrate the dual functional roles for ARA54 as an AR coregulator directly and as a mediator for the suppressive effect of hnRNP A1 indirectly. The novel finding that a protein can modulate AR function without direct interaction with AR might provide a new therapeutic approach to battle prostate cancer by targeting AR indirectly with fewer side effects.     

Androgen modulation of prostate cancer cell androgen receptor content is cell line specific

Using methods for cell lysis and fractionation which yield essentially quantitative recovery of rat prostate cancer cell cytosolic and nuclear androgen receptors, we examined androgen modulation of androgen receptor content of clonally derived prostate cancer cell lines. We showed that testosterone elicited a concentration-dependent 2.3-fold increase in T5 cell androgen receptor content which was maximum after 48 h and was maintained through at least 72 h of culture. Testosterone caused only a 1.4-fold elevation in D2 cell androgen receptor content which was maximum between 6 and 12 h of culture and was maintained through at least 72 h culture. In contrast, testosterone did not cause a change in C3 cell androgen receptor content. Cycloheximide inhibition showed that both the testosterone-mediated increase in and maintenance of basal prostate cancer cell androgen receptor content required protein synthesis. Because testosterone and the nonmetabolizable androgen R1881 were essentially equipotent as effectors of the increase in T5 cell androgen receptor content, findings using testosterone appear to represent maximum effects. RU 23908 antagonized both R1881 and testosterone promoted elevations of prostate cancer cell androgen receptor content. Effectiveness of RU 23908 was comparable to the relative binding affinity of R1881, testosterone and RU 23908 for androgen receptors. This implies that at least part of the androgen-promoted increase in prostate cancer cell androgen receptor content is mediated through the action of androgen receptors and suggests that androgen receptors may act as both cis and trans regulatory elements. The mechanisms which determine basal or androgen-modulated prostate cancer cell androgen receptor content remain to be elucidated.     

Disruption of prostate epithelial androgen receptor impedes prostate lobe-specific growth and function

Prostate development and maturation requires stromal-epithelial interactions and androgen action via the androgen receptor (AR) within these compartments. However, the specific roles of epithelial and stromal AR in postnatal prostate differentiation are unclear. We used Cre-LoxP technology to determine the prostate phenotype in mice with epithelial-selective genetic inactivation of the AR leaving the stromal AR functionally intact. We find that prostate development abolished in mice globally lacking a functional AR can be rescued by restricting the AR knockout to the postnatal prostate epithelium. We show that, at 8 wk of age, prostate epithelial AR knockout (PEARKO) mice exhibit prostate development with normal branching morphogenesis but lobe-specific decrease in prostate weight and hindered structural and functional differentiation of the mature prostate epithelium. No change was observed in PEARKO testis weight or serum testosterone compared with littermate controls. The most striking change was increased proliferation and abnormal lesions of epithelial cells predominantly in the anterior lobe of PEARKO mice. These findings highlight the vital role of stromal AR in postnatal prostate growth and structural differentiation and emphasize the requirement of epithelial AR in maintaining functional differentiation and restraining proliferation of epithelial cells in a lobe-specific manner. This unique PEARKO mouse provides a new paradigm with which to define the molecular mechanisms of the androgen signaling in mature prostate lobes in vivo and provides insight into the identification of better targets for treatment of prostate cancer and hyperplasia.     

Sulforaphane destabilizes the androgen receptor in prostate cancer cells by inactivating histone deacetylase 6

High consumption of cruciferous vegetables is associated with a reduced risk of prostate cancer in epidemiological studies. There is preliminary evidence that sulforaphane, derived from glucoraphanin found in a number of crucifers, may prevent and induce regression of prostate cancer and other malignancies in preclinical models, but the mechanisms that may explain these effects are not fully defined. Recent reports show that sulforaphane may impair prostate cancer growth through inhibition of histone deacetylases, which are up-regulated in cancer. Indeed, one of these enzymes, histone deacetylase 6 (HDAC6), influences the acetylation state of a key androgen receptor (AR) chaperone, HSP90. AR is the central signaling pathway in prostate cancer, and its inhibition is used for both prevention and treatment of this disease. However, it is not known whether the effects of sulforaphane involve suppression of AR. We hypothesized that sulforaphane treatment would lead to hyperacetylation of HSP90 and that this would destabilize AR and attenuate AR signaling. We confirmed this by demonstrating that sulforaphane enhances HSP90 acetylation, thereby inhibiting its association with AR. Moreover, AR is subsequently degraded in the proteasome, which leads to reduced AR target gene expression and reduced AR occupancy at its target genes. Finally, sulforaphane inhibits HDAC6 deacetylase activity, and the effects of sulforaphane on AR protein are abrogated by overexpression of HDAC6 and mimicked by HDAC6 siRNA. The inactivation by sulforaphane of HDAC6-mediated HSP90 deacetylation and consequent attenuation of AR signaling represents a newly defined mechanism that may help explain this agent''s effects in prostate cancer.     

Increased prostate cell proliferation and loss of cell differentiation in mice lacking prostate epithelial androgen receptor

Developmental studies of the prostate have established that ductal morphogenesis, epithelial cytodifferentiation, and proliferation/apoptosis are regulated by androgens acting through stromal androgen receptor (AR). Here, we found mice lacking epithelial AR within the mature prostate (pes-ARKO) developed prostate tissue that was less differentiated and hyperproliferative relative to WT littermates. Epithelial AR protein was significantly decreased in 6-week-old mice and was nearly absent by >/=24 weeks of age. Circulating levels of testosterone, external genitalia, or fertility were not altered in pes-ARKO mice. A significant (P < 0.05) increase in bromo-deoxyuridine-positive epithelia was observed in ventral and dorsal-lateral prostates of pes-ARKO mice at 24 weeks of age. Less differentiation was observed as indicated by decreased epithelial height and glandular infolding through 24 weeks of age, differentiation markers probasin, PSP-94, and Nkx3.1 were sig nificantly decreased, and epithelial sloughing and luminal cell apoptosis increased from 6 to 32 weeks of age in pes-ARKO mice. Gain of function occurred by crossing pes-ARKO to the T857A transgenic mice containing constitutively activated AR. In T857A-pes-ARKO mice prostates were of normal size, contained glandular infoldings, and maintained high secretory epithelium, and the appropriate prostatic epithelial proliferation was restored. Collectively, these results suggest that prostatic epithelial AR plays an important role in the homeostasis of the prostate gland. These data support the hypothesis that epithelial AR controls prostate growth by suppressing epithelial proliferation in the mature gland.     

Increase of androgen-induced cell death and androgen receptor transactivation by BRCA1 in prostate cancer cells

Although mutations of the breast cancer susceptibility gene 1 (BRCA1) may play important roles in breast and prostate cancers, the detailed mechanism linking the functions of BRCA1 to these two hormone-related tumors remains to be elucidated. Here, we report that BRCA1 interacts with androgen receptor (AR) and enhances AR target genes, such as p21((WAF1/CIP1)), that may result in the increase of androgen-induced cell death in prostate cancer cells. The BRCA1-enhanced AR transactivation can be further induced synergistically with AR coregulators, such as CBP, ARA55, and ARA70. Together, these data suggest that the BRCA1 may function as an AR coregulator and play positive roles in androgen-induced cell death in prostate cancer cells and other androgen/AR target organs.     

睾酮和比卡鲁胺对雄激素依赖性前列腺癌细胞株LNcap-FCG生长的影响

目的 观察不同浓度的睾酮及雄激素拮抗剂比卡鲁胺对雄激素依赖性前列腺癌细胞株LNcap-FCG生长的影响。方法 体外培养前列腺癌细胞株LNcap-FCG，加入睾酮，使各组终浓度为10^-10、10^-9、10^-8、10^-7、10^-6、10^-5mol／L。另外，在以上浓度的各睾酮组中同时加入比卡鲁胺，使比卡鲁胺的终浓度为10、50μmol／L，应用5-溴脱氧尿核苷掺入法测定细胞的生长水平。结果 培养72h后，对照组LNcap-FCG细胞的吸光度（A）值为1.2411，睾酮在低浓度（10^-10、10^-9、10^-8、10^-7mol／L）时对LNcap-FCG细胞的生长起促进作用，A值分别为1.4247、1.5463、1.5110、1.4609；而在较高浓度（10^-6、10^-5mol／L）时，则对LNcap-FCG细胞的生长起抑制作用，A值分别为1.1239、0.9967；比卡鲁胺在两种浓度时对LNcap-FCG细胞的生长皆有抑制作用，而且浓度越高抑制作用越强，与对照组比较，差异均具有统计学意义。结论 在体外培养条件下，睾酮对LNcap-FCG细胞的生长依浓度关系呈双向作用，比卡鲁胺依浓度关系抑制LNcap-FCG细胞的生长。