Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

New perspectives in prostate cancer genesis and putative clinical management have emerged in recent years . Apoptosis plays a major role in this environment. Proteasome inhibitors block the action of a multicatalytic proteinase complex involved in the degradation of intracellular proteins, particularly with regard to cell cycle regulation and apoptosis. Numerous in vitro studies have demonstrated the ability of these compounds to induce apoptosis and enhance the activity of conventional tumoricidal agents in many cancer cell types, including prostate cancer cells. They point out the use of these potent inhibitors as a new potential molecular approach to the therapeutic management of prostate cancer. Furthermore, the action of proteasome inhibitors has been tested in animal models and in patients with hormone refractory prostate cancer, resulting in both PSA and tumor volume decrease. PS-341 (bortezomib, Velcade) is the first proteasome inhibitor with clinical application in cancer therapy that has been used in clinical trials to date. This report reviews the current status of those papers that have tried to analyze the connection between the proteasome pathway and apoptosis. We present our results of proteasome inhibition in individual prostate cancer cell lines. Proteasomal inhibition may offer a new therapeutic access in "molecular targeting" of prostate cancer.
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PMID:[Proteasome inhibitors: induction of apoptosis as new therapeutic option in prostate cancer]. 1552 29

Prostate cancer is among the most common tumors in industrialized nations. However, little is known about the molecular events underlying its development. In the present study we used suppressive subtraction hybridization (SSH) in combination with laser-assisted microdissection in order to compare gene expression between prostate carcinoma and the normal prostate proper. Both are mixed tissues which consist of an epithelial and a stromal compartment. We first compared mRNA (cDNA) expression by SSH and then used real-time quantitative RT-PCR analysis of microdissected tissue probes in order to verify differential expression of subtracted cDNA clones. We also used differentially expressed cDNAs for the synthesis of radiolabelled riboprobes in order to attribute differential expression to specific cell types in tissue sections by in situ hybridization. Using this approach we found an up-regulation of ubiquitin carboxyl extension protein 1 (UBCEP-1) mRNA in prostate carcinoma cells compared to the normal glandular epithelium of the prostate proper. UBCEP-1 mediated ubiquitin chain elongation may promote prostate carcinoma development by increasing via the proteasome pathway the degradation of proteins which are involved in growth inhibition or apoptosis.
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PMID:A novel component of the ubiquitin pathway, ubiquitin carboxyl extension protein 1 is overexpressed in prostate cancer. 1564 30

The use of cytotoxic agents to eliminate cancer cells is limited because of their nonselective toxicity and unwanted side effects. One of the strategies to overcome these limitations is to use latent prodrugs that become toxic in situ after being enzymatically activated in target cells. In this work we describe a method for producing tumor-specific toxins by using a ubiquitin fusion technique. The method is illustrated by the production of recombinant toxins by in-frame fusion of ubiquitin to saporin, a toxin from the plant Saponaria officinalis. Ubiquitin-fused toxins were rapidly degraded via the ubiquitin-proteasome system, significantly reducing their nonspecific toxicity. The insertion of the protease-cleavage sequence between ubiquitin and saporin led to the removal of ubiquitin by the protease and resulted in protease-dependent stabilization of the toxin. We engineered toxins that can be stabilized by specific proteases such as deubiquitinating enzymes and prostate-specific antigen (PSA). Both constructs were activated in vitro and in cultured cells by the appropriate enzyme. Processing by the protease resulted in a greater than 10-fold increase in the toxicity of these constructs. Importantly, the PSA-cleavable toxin was able to kill specifically the PSA-producing prostate cancer cells. The ubiquitin fusion technique is thus a versatile and reliable method for obtaining selective cytotoxic agents and can easily be adapted for different kinds of toxins and activating proteases.
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PMID:Construction of tumor-specific toxins using ubiquitin fusion technique. 1566 31

Prostate cancer is often slowly progressive, and it can be difficult to treat with conventional cytotoxic drugs. Nonsteroidal antiinflammatory drugs inhibit the development of prostate cancer, but the mechanism of chemoprevention is unknown. Here, we show that the R-enantiomer of the nonsteroidal antiinflammatory drug etodolac inhibited tumor development and metastasis in the transgenic mouse adenocarcinoma of the prostate (TRAMP) model, by selective induction of apoptosis in the tumor cells. This proapoptotic effect was associated with loss of the retinoid X receptor (RXRalpha) protein in the adenocarcinoma cells, but not in normal prostatic epithelium. R-etodolac specifically bound recombinant RXRalpha, inhibited RXRalpha transcriptional activity, and induced its degradation by a ubiquitin and proteasome-dependent pathway. The apoptotic effect of R-etodolac could be controlled by manipulating cellular RXRalpha levels. These results document that pharmacologic antagonism of RXRalpha transactivation is achievable and can have profound inhibitory effects in cancer development.
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PMID:The R-enantiomer of the nonsteroidal antiinflammatory drug etodolac binds retinoid X receptor and induces tumor-selective apoptosis. 1569 54

The major heat shock protein Hsp72 is expressed at high levels in various types of cancer. Here we attempt to clarify the role of Hsp72 in prostate cancer cells by studying the effects of specific downregulation of this protein using siRNA and antisense RNA approaches. Contrary to previous reports, specific depletion of Hsp72 did not reduce viability of the prostate carcinoma cell lines PC-3 and DU-145. However, even short-term downregulation of Hsp72 in these cells made them more sensitive to hyperthermia, inhibitors of proteasome and Hsp90, and tumor necrosis factor. Interestingly, prolonged downregulation of Hsp72 in PC-3 cells over 3 weeks aggravated these effects, as well as enhanced the sensitivity of cells to oxidative stress, radiation, cis-platinum, vinblastin and taxol. The increased sensitivity to the anticancer agents was due to increased apoptosis, as well as other types of cell death, which resulted in the loss of clonogenic survival. Prolonged downregulation of Hsp72 led to severe suppression of the major survival pathways, ERK and NF-kappaB, which may be responsible for enhanced sensitivity of prostate carcinoma cells to a variety of anticancer treatments, as well as reduction of the cell's capability of forming colonies in soft agar.
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PMID:Increased expression of the major heat shock protein Hsp72 in human prostate carcinoma cells is dispensable for their viability but confers resistance to a variety of anticancer agents. 1573 99

Previously, we showed that the proteasome inhibitor bortezomib/Velcade (formerly PS-341) synergizes with the protein tumor necrosis factor alpha-related apoptosis-inducing ligand (TRAIL), a ligand for certain death receptors, to induce apoptosis in cell lines derived from prostate and colon cancers. Because apoptosis is often triggered by BH3-only proteins of the Bcl-2 family, we have explored the hypothesis that bortezomib contributes to the apoptosis by up-regulating their levels. Indeed, bortezomib induced increases of Bik and/or Bim in multiple cell lines but not notably of two other BH3-only proteins (Puma and Bid) nor other family members (Bax, Bak, Bcl-2, and Bcl-xL). The increase in Bik levels seems to reflect inhibition by bortezomib of its proteasome-mediated degradation. Importantly, both Bik and Bim seem central to the proapoptotic function of bortezomib, because mouse embryo fibroblasts in which the genes for both Bik and Bim had been disrupted were refractory to its cytotoxic action. Similarly, the synergy between bortezomib and TRAIL in killing human prostate cancer cells was impaired in cells in which both Bik and Bim were down-regulated by RNA interference. Further evidence that bortezomib acts through the mitochondrial pathway regulated by the Bcl-2 family is that deficiency for APAF-1, which acts downstream of Bcl-2, also blocked its apoptotic effect. These results implicate BH3-only proteins, in particular both Bik and Bim, as important mediators of the antitumor action of bortezomib and establish their role in its enhancement of TRAIL-induced apoptosis.
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PMID:The proteasome inhibitor bortezomib sensitizes cells to killing by death receptor ligand TRAIL via BH3-only proteins Bik and Bim. 1576 53

Hormone-refractory relapse is an inevitable and lethal event for advanced prostate cancer patients after hormone deprivation. A growing body of evidence indicates that hormone deprivation may promote this aggressive prostate cancer phenotype. Notably, androgen receptor (AR) not only mediates the effect of androgen on the tumor initiation but also plays the major role in the relapse transition. This provides a strong rationale for searching new effective agents targeting the down-regulation of AR to treat or prevent advanced prostate cancer progression. Here, we show that emodin, a natural compound, can directly target AR to suppress prostate cancer cell growth in vitro and prolong the survival of C3(1)/SV40 transgenic mice in vivo. Emodin treatment resulted in repressing androgen-dependent transactivation of AR by inhibiting AR nuclear translocation. Emodin decreased the association of AR and heat shock protein 90 and increased the association of AR and MDM2, which in turn induces AR degradation through proteasome-mediated pathway in a ligand-independent manner. Our work indicates a new mechanism for the emodin-mediated anticancer effect and justifies further investigation of emodin as a therapeutic and preventive agent for prostate cancer.
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PMID:Emodin down-regulates androgen receptor and inhibits prostate cancer cell growth. 1578 42

Prostate cancer is the most common and invasive type of cancer among American men, and the second leading cause of cancer-elated deaths in the United States. Unfortunately, an effective therapeutic regimen is still lacking for advance stages of the disease. Recently, MEK5 has been shown to overexpress in prostate cancer and is associated with poor survival outcome. MEK5 exists as alpha- and beta-isoforms. MEK5alpha induces cell proliferation by activating its downstream molecules, whereas MEK5beta expression is associated with inhibition of cell growth. We have recently shown that exogenous expression of c-myc promoter-binding protein 1 (MBP-1) induces prostate cancer cell death (Ghosh, A. K., Steele, R., and Ray, R. B. (2005) Cancer Res. 65, 718-721). In this study, we have investigated whether inhibition of MEK5 signaling pathway can modulate prostate cancer cell growth. MBP-1 is a general transcriptional repressor and modulates a number of cellular genes. Therefore, we examined the endogenous expression status of MEK5 in androgen-independent prostate cancer cells upon recombinant adenovirus-mediated introduction of MBP-1. Our results demonstrated that MBP-1 expression reduced the endogenous MEK5alpha protein level; on the other hand, MEK5beta expression was enhanced significantly. Transduction of MBP-1 modulates the downstream signaling molecules of MEK5, such as activation of the cyclin D1 promoter and MEF2C transcriptional activities in androgen-independent prostate cancer cells. MBP-1 expression also modulates MEK5-mediated activation of NF-kappaB. Further analysis suggested that MBP-1 physically associates with MEK5 and induces proteasome-mediated degradation of the MEK5 protein, which appears to occur independently of ubiquitination. Together, our results suggested a novel role of MBP-1 for suppression of prostate cancer cell growth by regulating the MEK5-mediated signaling pathway.
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PMID:c-myc Promoter-binding protein 1 (MBP-1) regulates prostate cancer cell growth by inhibiting MAPK pathway. 1580 19

Maspin, a member of the serine protease inhibitor (serpin) family, is a tumor suppressor in breast and prostate cancer. To address molecular mechanisms underlying maspin's activity, we restored its expression in invasive carcinoma cells and analyzed the resulting changes by shotgun proteomics. Using a mass spectrometry-based multidimensional proteomic method, we observed changes to the expression of approximately 27% of the detectable proteome. In particular, we noted changes to the expression of proteins that regulate cytoskeletal architecture, cell death, and protein turnover. In each case, changes in protein expression were accompanied by measurable changes in tumor cell phenotype. Thus, maspin-expressing cells exhibit a more prominent actin cytoskeleton, a reduced invasive capacity, an increased rate of spontaneous apoptosis, and an altered proteasome function. These observations reveal for the first time the far reaching effects of maspin on multiple protein networks and a new hypothesis of maspin function based on the regulation of proteasome function.
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PMID:Maspin alters the carcinoma proteome. 1585 80

Prostate cancer is the second leading cause of death in men in western countries and is usually treated by surgery and/or radiotherapy. More recently, hyperthermia has been introduced into clinical trials investigating a possible effect in the first-line treatment of prostate cancer. However, the molecular mechanisms of hyperthermia are not completely understood. In this study, we investigated the effects of hyperthermia on proteasome function and its significance for signal transduction, cell death and androgen receptor (AR) expression in PC-3, LnCaP, and DU-145 human and TRAMP-C2 murine prostate cancer cells. Hyperthermia caused apoptosis and radiosensitization and decreased 26S proteasome activity in all three human cell lines to about 40% of untreated control cells. 20S proteasome activity was not affected by heat. Heat treatment inhibited constitutive and radiation-induced activation of nuclear factor kappaB caused by stabilization of IkappaB. Although stabilization of AR by proteasome inhibitors has been reported previously, AR protein levels in LnCaP cells decreased dramatically after heat. Our data suggest that inhibition of proteasome function and dependent signal transduction pathways might be a major molecular mechanisms of heat-induced apoptosis and radiosensitization. Hyperthermia abrogates AR expression in androgen-dependent cells and might thus promote malignant progression of prostate cancer.
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PMID:Hyperthermia-induced proteasome inhibition and loss of androgen receptor expression in human prostate cancer cells. 1593 Mar 4


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