UMLS:C0376358 - FACTA Search

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Query: UMLS:C0376358 (prostate cancer)
59,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Upon binding to androgen, the androgen receptor (AR) can translocate into the nucleus and bind to androgen response element(s) to modulate its target genes. Here we have shown that MG132, a 26 S proteasome inhibitor, suppressed AR transactivation in an androgen-dependent manner in prostate cancer LNCaP and PC-3 cells. In contrast, MG132 showed no suppressive effect on glucocorticoid receptor transactivation. Additionally, transfection of PSMA7, a proteasome subunit, enhanced AR transactivation in a dose-dependent manner. The suppression of AR transactivation by MG132 may then result in the suppression of prostate-specific antigen, a well known marker used to monitor the progress of prostate cancer. Further mechanistic studies indicated that MG132 may suppress AR transactivation via inhibition of AR nuclear translocation and/or inhibition of interactions between AR and its coregulators, such as ARA70 or TIF2. Together, our data suggest that the proteasome system plays important roles in the regulation of AR activity in prostate cancer cells and may provide a unique target site for the development of therapeutic drugs to block androgen/AR-mediated prostate tumor growth.
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PMID:Proteasome activity is required for androgen receptor transcriptional activity via regulation of androgen receptor nuclear translocation and interaction with coregulators in prostate cancer cells. 1211 96

We have cloned a cDNA coding for a novel steroid receptor co-activator protein termed SRAP from a rat prostate library. Although the nucleotide sequence of the SRAP has 78.2% identity to that of the human steroid receptor RNA activator (SRA), a novel RNA molecule which was reported to act as an RNA transcript without being translated into protein [Lanz, McKenna, Onate, Albrecht, Wong, Tsai, Tsai and O'Malley (1999) Cell 97, 17-27], the cDNA of SRAP is capable of generating a functional protein. Glutathione S-transferase pull-down assays showed that SRAP associates with the partial androgen receptor (AR) protein composed of a DNA-binding domain and an activation function 2. Luciferase assays demonstrated that SRAP enhances the transactivation activity of the AR, the glucocorticoid receptor and the peroxisome proliferator-activated receptor gamma(1) in a ligand-dependent manner. Using a green fluorescent protein (GFP) fusion-protein construct, we demonstrated in vivo translation of the GFP-SRAP fusion protein in HeLa cells co-transfected with pSG5AR and reporter gene in the presence of 5 alpha-dihydrotestosterone (DHT). Co-transfection of the GFP-SRAP fusion protein expression plasmid enhanced the transactivation activity of AR whereas incorporation of mutations in SRAP of the fusion protein resulted in loss of enhancement of the transactivation activity. Northern blot analysis and reverse transcriptase PCR assays showed that SRAP and SRA are expressed in rat and human prostate cancer cell lines respectively. In HeLa cells and the human prostate cancer cells line DU-145, co-transfected with SRAP, the DHT-dependent transactivation activities of AR were not completely inhibited by the anti-androgen flutamide, but the transactivation activities still remained high even in the presence of 5 microM flutamide, suggesting that SRAP may play an important role in enhancing AR activity in prostate cancer.
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PMID:A novel steroid receptor co-activator protein (SRAP) as an alternative form of steroid receptor RNA-activator gene: expression in prostate cancer cells and enhancement of androgen receptor activity. 1235 Feb 25

The steroid compound cyproterone acetate was identified in a high-throughput screen for glucocorticoid receptor (GR) binding compounds. Cyproterone (Schering AG) is clinically used as an antiandrogen for inoperable prostate cancer, virilizing syndromes in women, and the inhibition of sex drive in men. Despite its progestin properties, cyproterone shares a similar pharmacological profile with the antiprogestin mifepristone (RU486; Roussel Uclaf SA). The binding affinities of cyproterone and RU486 for the GR and progesterone receptor were similar (K(d), 15-70 nM). Both compounds were characterized as competitive antagonists of dexamethasone without intrinsic transactivating properties in rat hepatocytes (K(i), 10-30 nM). In osteosarcoma cells, RU486 revealed a higher potency than cyproterone acetate to prevent responses to dexamethasone-induced GR transactivation and NF kappa B transrepression. Upon administration to Sprague-Dawley rats, both compounds were found to be orally bioavailable and to inhibit transactivation of liver GR. Molecular docking of cyproterone acetate and RU486 into the homology model for the GR ligand binding domain illustrated overlapping steroid scaffolds in the binding pocket. However, in contrast to RU486, cyproterone lacks a bulky side chain at position C11 beta that has been proposed to trigger active antagonism of nuclear receptors by displacing the C-terminal helix of the ligand-binding domain, thereby affecting activation function 2. Cyproterone may therefore inhibit transactivation of the GR by a molecular mechanism recently described as passive antagonism. New therapeutic profiles may result from compounds designed to selectively stabilize the inactive and active conformations of certain nuclear receptors.
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PMID:Glucocorticoid receptor antagonism by cyproterone acetate and RU486. 1269 29

BACKGROUND: Steroid hormone receptors (SHRs) are members of the superfamily of ligand-activated transcription factors that regulate many biological processes. Co-regulators act as bridging molecules between the SHR and general transcription factors to enhance transactivation of target genes. Previous studies demonstrated that Stat3 is constitutively activated in prostate cancer and can enhance prostate specific antigen (PSA) expression and promote androgen independent growth. In this study, we investigate whether Stat3 can enhance steroid hormone receptors activation. METHODS: CV-1 cells in which plasmids expressing androgen receptor (AR), glucocorticoid receptor (GR), progesterone receptor (PR) or estrogen receptor (ER) were cotransfected with a constitutively active STAT3 mutant. RESULTS: Stat3 stimulates the transcriptional activity of all four SHR tested, AR, GR, PR and ER, in a hormone-dependent manner. Stat3 acts in a synergistic fashion with other coactivators such as SRC-1, pCAF, CBP, and TIF-2 on the transcriptional activity of these SHR. In addition, Stat3 significantly enhanced the sensitivity of androgen receptor in response to androgen. STAT3 did not affect the specificity of AR for other steroid hormones other than androgen or binding of AR to other hormone responsive elements. CONCLUSIONS: These findings suggest that Stat3 can enhance the transactivation of AR, GR, PR and ER, and activated Stat3 could have a role in the development or progression of a hypersensitive AR.
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PMID:Stat3 enhances transactivation of steroid hormone receptors. 1290 56

Paxillin, a member of the group 3 subfamily of LIM domain proteins, is localized within focal adhesions and participates in a number of signal transduction pathways mobilized upon activation of cell surface receptors. In recent years, a number of group 3 LIM domain proteins have been found to also localize within the nucleus and exert direct effects on transcription. We show here that paxillin is present within nuclei and can target the nuclear matrix of CV-1 cells, cultured prostate cancer cell lines, and human prostate tissue. The increased targeting of androgen receptor to the nuclear matrix upon overexpression of paxillin may be brought about by direct interactions between paxillin and the receptor, which were detected in vitro. Paxillin functions as a coactivator for androgen receptor and glucocorticoid receptor, but not estrogen receptor alpha, similar to its close relative Hic-5/ARA55. Both paxillin and Hic-5/ARA55 use their COOH-terminal LIM domain to interact with steroid receptors. However, paxillin is distinguished from Hic-5/ARA55 by both the location of its receptor coactivation domain (i.e., COOH-terminal LIM domain) and by the dominant-negative activity of its NH(2)-terminal domain. Thus, highly related group 3 LIM domain proteins may use distinct mechanisms to modulate steroid hormone receptor transactivation.
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PMID:The Group 3 LIM domain protein paxillin potentiates androgen receptor transactivation in prostate cancer cell lines. 1294 17

The androgen receptor (AR) binds to and activates transcription of target genes in response to androgens. In an attempt to isolate cofactors capable of influencing AR transcriptional activity, we used an immunoprecipitation method and identified a 44-kDa protein, designated p44, as a new AR-interacting protein. p44 interacts with AR in the nucleus and with an androgen-regulated homeobox protein (NKX3.1) in the cytoplasm of LNCaP cells. Transient-transfection assays revealed that p44 enhances AR-, glucocorticoid receptor-, and progesterone receptor-dependent transcription but not estrogen receptor- or thyroid hormone receptor-dependent transcription. p44 was recruited onto the promoter of the prostate-specific antigen gene in the presence of the androgen in LNCaP cells. p44 exists as a multiprotein complex in the nuclei of HeLa cells. This complex, but not p44 alone, enhances AR-driven transcription in vitro in a cell-free transcriptional system and contains the protein arginine methyltransferase 5, which acts synergistically with p44 to enhance AR-driven gene expression in a methyltransferase-independent manner. Our data suggest a novel mechanism by which the protein arginine methyltransferase is involved in the control of AR-driven transcription. p44 expression is dramatically enhanced in prostate cancer tissue compared with adjacent benign prostate tissue.
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PMID:Purification and identification of a novel complex which is involved in androgen receptor-dependent transcription. 1297 18

The androgen receptor (AR) may recruit multiple coregulators for proper or optimal transactivation. Here we report the identification and characterization of ARA67/PAT1 as an AR coregulator from a prostate cDNA library. ARA67/PAT1 was screened out as an AR N terminus interacting protein. Interaction mapping shows that the cooperation of multiple domains within ARA67/PAT1 may be required for the maximal interaction with AR. ARA67/PAT1 functions as a repressor with better suppressive effects on AR compared to glucocorticoid receptor and estrogen receptor. Further mechanism dissection reveals that the interrupted AR cytoplasmic-nuclear shuttling may play a major role in ARA67/PAT1 mediated suppression on AR. Together, these results suggest that ARA67/PAT1 may function as a novel repressor that can modulate AR function in prostate cancer.
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PMID:ARA67/PAT1 functions as a repressor to suppress androgen receptor transactivation. 1472 52

Sterol regulatory element-binding proteins (SREBPs) are transcription regulators that play a pivotal role in intracellular lipid homeostasis. They are synthesized as inactive precursor proteins in the endoplasmic reticulum, where they are retained by SREBP cleavage-activating protein (SCAP), a sterol sensing protein that in turn is linked to a retention protein complex. Low intracellular sterol concentrations weaken the interaction of SCAP with its retention proteins and allow translocation of the SREBP.SCAP complex to the Golgi compartment where SREBP is proteolytically cleaved and activated. Previous studies on the mechanisms by which androgens provoke a coordinated activation of lipogenic pathways in prostate cancer cells have suggested an alternative pathway of activation in which androgens increase the expression of SCAP and favor translocation of the SREBP.SCAP complex to the Golgi apparatus by disturbing the balance between SCAP and its retention proteins. Here we show that the SCAP gene contains an androgen-responsive region located in intron 8. This region interacts directly with the androgen receptor and confers androgen responsiveness to promoter-reporter constructs transfected in LNCaP cells. It contains a noncanonical androgen response element GGAAGAaaaTGTACC that interacts not only with the androgen receptor but also with the glucocorticoid receptor and that also confers glucocorticoid responsiveness. The identification of a steroid response element in intron 8 of the SCAP gene further supports the contention that SCAP is a direct target for steroid hormone action.
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PMID:Identification of an androgen response element in intron 8 of the sterol regulatory element-binding protein cleavage-activating protein gene allowing direct regulation by the androgen receptor. 1513 39

The traditional role of the Cdc25 family of dual-specificity phosphatases is to activate cyclin-dependent kinases (CDKs) to enable progression through the cell cycle. This chapter reports that in addition to its cell cycle role, Cdc25B functions as a novel steroid receptor coactivator (SRC). When overexpressed in transgenic mammary glands, Cdc25B can up-regulate the expression of two estrogen receptor (ER)-target genes: cyclin D1 and Lactoferrin. In addition, when coexpressed with ER, Cdc25B can coactivate an ER-dependent reporter in the presence of estradiol. The coactivation of Cdc25B can be extended to the glucocorticoid receptor (GR), progesterone receptor (PR), and androgen receptor (AR). Because of the respective importance of ER and AR in breast and prostate cancer, this chapter focuses on the coactivation of both receptors by Cdc25B. We demonstrate that Cdc25B can interact directly with these nuclear receptors, recruit and enhance the activity of histone acetyltransferases (HATs), and potentiate cell-free transcription independent of its cell cycle regulatory function. Furthermore, because Cdc25B is up-regulated in highgrade and poorly differentiated prostate tumors, which are likely transiting from the hormone-dependent to hormone-independent state, we hypothesize that the coactivation of AR by Cdc25B may induce genes responsible for this progression. Taken together, it is highly conceivable that Cdc25B can promote neoplasia by its two disparate functions of (1) coactivation to induce higher levels of expression of steroid receptor target genes and (2) its role of activating CDKs to deregulate progression of the cell cycle, DNA replication, and mitosis.
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PMID:Cdc25B as a steroid receptor coactivator. 1519 57

We have used chromatin immunoprecipitation (ChIP) assay to follow transcription factor loading and monitor changes in covalent histone modifications associated with the prostate-specific antigen and kallikrein (KLK2) genes in response to androgen and antiandrogen in LNCaP cells. The dynamics of testosterone (T)-induced loading of androgen receptor (AR) onto the proximal promoters of the genes differed significantly from that onto the distal enhancers. Significantly more holo-AR was loaded onto the enhancers than the promoters, but the receptor's residence time was more transient on the enhancers. Even though holo-AR recruited some RNA polymerase II (Pol II) onto the enhancers, the principal Pol II transcription complex was assembled on the promoters. The pure antiandrogen bicalutamide (CDX) complexed to AR elicited occupancy of the prostate-specific antigen promoter, but not that of the enhancer, whereas the partial antagonists cyproterone acetate (CPA) and mifepristone (RU486) were capable of promoting AR loading also onto the enhancer. In contrast to the CDX-occupied receptor, both CPA- and RU486-bound AR recruited Pol II and coactivators p300 and glucocorticoid receptor-interacting protein 1 (GRIP1) onto the promoter and enhancer. However, CPA and RU486 also brought about a simultaneous recruitment of the nuclear receptor corepressor (NCOR) onto the promoter as efficiently as CDX. There were dynamic changes in covalent modifications of histone H3: acetylation of lysine 9 and 14, methylation of arginine 17, phosphorylation of serine 10 as well as di- and tri-methylation at lysine 4 of the H3 N-terminal tail were enhanced in response to T, but not after CDX treatment. Collectively, these results indicate that transcriptional activation by AR is accompanied by a cascade of distinct covalent histone modifications and that the pure antiandrogen CDX and the partial antagonists CPA and RU486 exhibit clear differences in their ability to promote recruitment of histone-acetylating and histone-deacetylating complexes in human prostate cancer cells.
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PMID:Coregulator recruitment and histone modifications in transcriptional regulation by the androgen receptor. 1530 89

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