Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0376358 (prostate cancer)
 59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The metastatic capacity of PA-III rat prostate adenocarcinoma cells has been well documented, although little is known about the biological and biochemical characteristics of PA-III cells. This study characterizes PA-III cells with regard to the presence or absence of glucocorticoid and androgen receptors. Cytosols of PA-III cells possessed [3H]-dexamethasone binding sites with association constant (Ka) 0.46 +/- 0.17 x 10(9) M-1 and number 341 +/- 175 fmols/mg protein. Displacement of [3H]-dexamethasone binding from PA-III cytosols achieved by increasing doses of unlabelled dexamethasone, corticosterone, cortisol, progesterone, deoxycorticosterone and aldosterone documented glucocorticoid binding specificity. Northern and dot blot analyses detected the expression of mRNA for glucocorticoid receptor using a 750 bp cDNA probe of the glucocorticoid receptor gene. Twenty-four hours incubation of PA-III cells with increasing amounts of dexamethasone resulted in a remarkable inhibition of the growth of PA-III cells. Binding studies with [3H]-R1881 as well as dot blot and Northern blot analyses using a 500 bp cDNA probe of androgen receptor gene could not detect the presence of androgen receptors in PA-III cells. The present study documented functional glucocorticoid receptors in the androgen-independent PA-III rat prostate adenocarcinoma cells. These results suggest that glucocorticoids may regulate important aspects of androgen-independent prostate cancer cells growth and functions.
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PMID:The expression of mRNA for glucocorticoid receptor gene and functional glucocorticoid receptors detected in PA-III rat prostate adenocarcinoma cells. 162 47

The presence of specific steroid hormone-binding receptors has been correlated with the clinical response to hormonal therapy in a number of different neoplasias, including breast and prostate cancer. In this article, we investigated the expression of the androgen, estrogen, glucocorticoid, and progesterone receptor messenger ribonucleic acid (mRNA) and protein in a number of astrocytic neoplasms of various histological grades. Androgen and glucocorticoid receptor mRNA were detected in all astrocytic neoplasms examined, regardless of histological subtype. In contrast, progesterone receptor mRNA was observed more frequently in high-grade tumors than in low-grade tumors. Estrogen receptor mRNA was undetectable in all astrocytic tumors examined. These studies suggest a possible adjunct clinical use of hormonal therapy for the treatment of astrocytomas. Specific antagonists and agonists may allow the modulation of the growth of these tumors. Development of this body of knowledge may lead to the development of better treatment for these aggressive tumors.
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PMID:Steroid hormone receptors in astrocytic neoplasms. 750 Nov 16

We investigated the role of glucocorticoids in controlling the proliferation of androgen-independent PC-3 human prostate cancer cells via the action of transforming growth factor beta 1 (TGF beta 1). The presence of glucocorticoid receptor (GR) in PC-3 cells was detected by immunoblotting analysis using a rabbit anti-GR polyclonal antibody against the synthetic human GR peptide (hGR383-393). In PC-3 cells, GR bound radiolabeled dexamethasone with an affinity similar to wild-type GR. In addition, GR-ligand complex bound radiolabeled DNA as detected by DNA band-shift analysis on gel electrophoresis and trans-activated the mouse mammary tumor virus-thymidine kinase-chloramphenicol acetyltransferase chimeric gene in transiently transfected PC-3 cells. Dexamethasone (0.1 up to 100 nM) and TGF beta 1 (0.5 up to 50 ng/ml) inhibited PC-3 cell proliferation. TGF beta 1 and dexamethasone both increased the distribution of PC-3 cells into the G1/G0 phase of the cell cycle. Platelet-derived growth factor (PDGF) stimulated the proliferation of PC-3 cells and overcame dexamethasone's inhibition of PC-3 cell growth. Dexamethasone's inhibition (10(-7) M) of PC-3 cell growth was completely neutralized by RU 486 (10(-6)M) and partly neutralized by anti-TGF beta 1 polyclonal antibody. Furthermore, dexamethasone up modulated the expression of TGF beta 1 mRNA in PC-3 cells. Because dexamethasone's inhibition was neutralized at least in part by an anti-TGF beta 1 polyclonal antibody and dexamethasone up modulated the expression of TGF beta 1 mRNA in PC-3 cells, we conclude that GR function in human PC-3 prostate cancer cells is mediated at least in part by TGF beta 1 expression.
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PMID:Mediation of glucocorticoid receptor function by transforming growth factor beta I expression in human PC-3 prostate cancer cells. 775 11

The androgen receptor (AR) is a member of the steroid receptor superfamily that plays an important role in male sexual differentiation and prostate cell proliferation. Mutations or abnormal expression of AR in prostate cancer can play a key role in the process that changes prostate cancer from androgen-dependent to an androgen-independent stage. Using a yeast two-hybrid system, we were able to isolate a ligand-dependent AR-associated protein (ARA70), which functions as an activator to enhance AR transcriptional activity 10-fold in the presence of 10(-10) M dihydrotestosterone or 10(-9) M testosterone, but not 10(-6) M hydroxyflutamide in human prostate cancer DU145 cells. Our data further indicated that ARA70 Will only slightly induce the transcriptional activity of other steroid receptors such as estrogen receptor, glucocorticoid receptor, and progesterone receptor in DU145 cells. Together, these data suggest that AR may need a specific coactivator(s) such as ARA70 for optimal androgen activity.
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PMID:Cloning and characterization of a specific coactivator, ARA70, for the androgen receptor in human prostate cells. 864 7

We analysed the glucocorticoid receptor (GR) function and its ability to modulate cell-cell interactions between the PA-III rat prostate cancer and UMR 106 osteoblast-like rat osteosarcoma cells as an in vitro model for studying GR function in PA-III cell-induced tumor and blastic reaction in rat bone. Intact GR was detected by ligand binding assays, DNA band-shift, and GR trans-activation analysis of PA-III and UMR 106 cells transiently transfected with the mouse mammary tumor virus thymidine kinase-chloramphenicol acetyltransferase reporter gene. Dexamethasone and transforming growth factor beta 1 (TGFbeta1) inhibited the growth of PA-III and UMR 106 cells. Dexamethasone's inhibition of PA-III and UMR 106 cells was reversed by anti-TGFbeta1 antibody and exogenous insulin-like growth factor I (IGF-I). Exogenous IGF-I, urokinase-type plasminogen activator (uPA), UMR 106 conditioned media (CM) and PA-III CM stimulated the proliferation of PA-III and UMR 106 cells. The mitogenic activity exerted by uPA and PA-III CM in UMR 106 cells was completely neutralized by anti-IGF-I specific antibody. In addition, dexamethasone up-regulated TGFbeta1 mRNA and down-regulated uPA mRNA expression in PA-III cells without affecting TGFbeta1 and uPA mRNA expression in UMR 106 cells. These data suggested that TGFbeta1, uPA, and IGF-I mediate at least in part cell-cell interactions and GR function in PA-III prostate cancer and UMR 106 osteosarcoma cells.
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PMID:Glucocorticoid receptor function possibly modulates cell-cell interactions in osteoblastic metastases on rat skeleton. 917 22

We investigated the ability of important regulators of osteoblast function, such as insulin-like growth factor I (IGF-I), transforming growth factor beta 1 (TGF beta 1), and urokinase-type plasminogen activator (uPA) to act as mediators in cell-cell interactions between osteoblast-like cells and metastatic prostate cancer cells, in vitro. In addition, we assessed whether these growth substances can (a) mediate glucocorticoid receptor (GR) function and (b) be implicated in dexamethasone-induced regression of osteoblastic tumors. Exogenous IGF-I, rat/human uPA, and PA-III (rat)/PC-3 (human) prostate cancer cells conditioned media (CM) stimulated the proliferation of rat (UMR 106 cells) and human (MG-63 cells) osteosarcoma cells. This mitogenic activity was completely neutralized by anti-IGF-I specific antibody. In addition, dexamethasone decreased cell growth, up regulated TGF beta 1 mRNA, and down regulated uPA mRNA expression in prostate cancer cells. Furthermore, it inhibited cell growth by activating latent-TGF beta 1 in osteoblast-like cells. In addition, dexamethasone down regulated the expression of IGF-I mRNA in osteoblast-like cells. Therefore, it is conceivable that uPA, TGF beta 1 and IGF-I mediate at least in part cell-cell interactions and GR function in osteoblastic metastases. Conceivably, regression of the osteoblastic tumors produced by high-dose dexamethasone treatment in hormone-refractory prostate cancer patients is been mediated by differential regulation of growth factors, locally.
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PMID:Growth factors mediate glucocorticoid receptor function and dexamethasone-induced regression of osteoblastic lesions in hormone refractory prostate cancer. 917 84

The androgen receptor (AR) plays a major role in the development and maintenance of male primary and secondary sexual characteristics. The growth promoting effects of androgens are clearly seen in prostate cancer where treatment by androgen ablation usually leads to tumor regression, followed sometime later, by growth of tumor cells that are resistant to endocrine therapy. We have found that the level of pRB in cells controls AR activity. Overexpression of pRB leads to increased transcriptional activity of the AR. This is similar to the previously reported potentiation of glucocorticoid receptor activity by pRB. In contrast, loss of pRB activity inhibits AR but not glucocorticoid receptor activity. This inhibition correlates with the unique ability of the AR to form a protein-protein complex with pRB in vitro. The site of interaction with pRB lies within the N-terminal domain of the AR and co-localizes with the region of the AR that specifies a requirement for pRB. Thus, the AR has a novel requirement for pRB raising the possibility that the growth promoting activity of AR is due to its direct interaction with pRB. Furthermore, loss of pRB activity during progression of prostate cancer may directly result in a decreased response to androgens.
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PMID:Differential regulation of androgen and glucocorticoid receptors by retinoblastoma protein. 981 67

Basal expression of glutamine synthetase (GS) is very low in rat lung and muscle and remarkably enhanced by glucocorticoid hormones during trauma and catabolic states. Although this response is believed to be transcriptionally regulated, the genetic elements responsible for tissue-specific glucocorticoid induction of GS expression have not been identified. A rat lung epithelial cell line (L2) and a glucocorticoid receptor-deficient human prostate cancer cell line (PC3), together with GS reporter gene constructs, were utilized in gene transfer experiments to identify two regions within the rat genomic clone gGS3 that imparted dexamethasone (Dex) responsiveness to both the homologous GS promoter and the heterologous herpes simplex virus thymidine kinase promoter in glucocorticoid receptor-dependent fashions. One region lies nearly 6 kb upstream of the GS transcription initiation site, and the other lies within the first intron of the GS gene. Dex responsiveness was localized to a 325-bp fragment of the intron region containing a canonical glucocorticoid response element and to a 225-bp fragment of the far-upstream region containing three separate glucocorticoid response element half-sites. The GS promoter exhibited relatively high basal activity that was repressed by inclusion of the far-upstream or the intron glucocorticoid-responsive region. Dex treatment negated this repression. A model is suggested in which the glucocorticoid-receptor unit causes derepression of lung and muscle GS transcription during trauma and catabolic states.
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PMID:Identification of glucocorticoid-responsive elements that control transcription of rat glutamine synthetase. 995 Aug 95

The androgen-signaling pathway is important for the growth and progression of prostate cancer cells. The growth-promoting effects of androgen on prostate cells are mediated mostly through the androgen receptor (AR). There is increasing evidence that transcription activation by AR is mediated through interaction with other cofactors. beta-Catenin plays a critical role in embryonic development and tumorigenesis through its effects on E-cadherin-mediated cell adhesion and Wnt-dependent signal transduction. Here, we demonstrate that a specific protein-protein interaction occurs between beta-catenin and AR. Unlike the steroid hormone receptor coactivator 1 (SRC1), beta-catenin showed a strong interaction with AR but not with other steroid hormone receptors such as estrogen receptor alpha, progesterone receptor beta, and glucocorticoid receptor. The ligand binding domain of AR and the NH(2) terminus combined with the first six armadillo repeats of beta-catenin were shown to be necessary for the interaction. Through this specific interaction, beta-catenin augments the ligand-dependent activity of AR in prostate cancer cells. Moreover, expression of E-cadherin in E-cadherin-negative prostate cancer cells results in redistribution of the cytoplasmic beta-catenin to the cell membrane and reduction of AR-mediated transcription. These data suggest that loss of E-cadherin can elevate the cellular levels of beta-catenin in prostate cancer cells, which may directly contribute to invasiveness and a more malignant tumor phenotype by augmenting AR activity during prostate cancer progression.
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PMID:Linking beta-catenin to androgen-signaling pathway. 1179 9

In the ligand-binding inactive state, the steroid receptor heterocomplex contains Hsp90, Hsp70, high-molecular weight immunophilins, and other proteins. Hsp90 acts in association with co-chaperones to maintain the native state of the receptor within the cells. It was reported earlier that Hsp90 might not be as important for the androgen receptor (AR) activity as for the glucocorticoid receptor (GR) and the progesterone receptor (PR) activities. We used the Hsp90 inhibitor geldanamycin (GA) to explore the role of Hsp90 in the function of the AR heterocomplex. GA selectively binds to Hsp90 and inhibits its activity, leading to the loss of steroid receptor activity, and frequently, its degradation. In our study, LNCaP prostate cancer cells were treated with GA for 30 minutes or 24 hours, in the presence of mibolerone, a synthetic androgen. GA reduced the androgen-induced AR protein levels to 15% after 24 hours of treatment. Several androgen up-regulated genes, including immunophilin FKBP51 and prostate specific antigen (PSA), were reduced by GA treatment. In cells treated with GA after transfection with a PSA promoter or an androgen response element-driven reporter gene, AR-mediated transactivation of reporter gene expression was reversibly inhibited by GA. Loss of androgen-binding ability and AR levels was attributed to reduced transcription of AR-regulated gene expression. Degradation rate of 35S-labeled AR was significantly increased by GA in the presence or absence of mibolerone. GA induced the degradation of AR through the proteasomal pathway. AR in cells treated with proteasomal inhibitor lactacystin, was insoluble in Nonidet P-40 (NP40)-based buffer and could not restore the androgen-binding ability. We report here that GA treatment disrupted both hormone-binding activity and receptor protein stability, resulting in a dramatic loss of androgen-induced gene activation. These results show that Hsp90 activity is important for both the chaperone-mediated folding of the AR into a high-affinity ligand-binding conformation and the functional activity of the AR.
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PMID:Effect of geldanamycin on androgen receptor function and stability. 1189 40


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