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)

Prostate-specific antigen (PSA) as a prostate cancer marker is a chymotrypsin-like serine protease which is expressed primarily by both normal prostate epithelium and the vast majority of prostate cancers. PSA expression is tightly regulated by androgen through the activation of androgen receptor. However, in the absence of androgens, PSA gene expression can become elevated. This suggests that either the AR can be activated in the absence of androgen to elevate PSA gene expression or that another transcription factor acting on the PSA promoter is stimulated. This article reviews the research on the structure of the PSA promoter and enhancer and the mechanisms of the PSA expression.
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PMID:[Research on the structure of the PSA promoter and the mechanisms of its expression regulation]. 1564 95

Prostate cancer is uniformly fatal once it has spread outside of the prostate gland. Prostate cancers have a remarkably low proliferative rate, which may in part explain their relative unresponsiveness to conventional antiproliferative chemotherapy. New therapies for prostate cancer that activate proliferation independent cell death are therefore needed. The endoplasmic reticulum (ER) has emerged as an organelle that plays a major role in cell signaling pathways, cellular response to stress and cellular activation of apoptosis. In this review, the SERCA pump is identified as an ER protein whose normal function is required by all cells and represents a potential therapeutic target for cancer therapy. Sustained SERCA inhibition by agents such as thapsigargin results in activation of ER-stress response and simultaneous activation of apoptotic pathways within the ER and the mitochondria. Due to the SERCA pump's critical role in normal cellular metabolism, agents like thapsigargin directed toward inhibiting SERCA function would likely produce significant toxicity to normal cells and, therefore, must be selectively targeted to cancer sites. The cytotoxicity of thapsigargin can be attenuated, however by coupling to a targeting peptide to produce an inactive prodrug that is only activated by prostate cancer specific proteases such as the serine protease prostate-specific antigen (PSA). PSA-activated thapsigargin prodrugs have been characterized that are selectively toxic to PSA-producing prostate cancer cells in vitro and in vivo. These prodrugs are currently undergoing preclinical evaluation as potential targeted therapy for prostate cancer.
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PMID:The SERCA pump as a therapeutic target: making a "smart bomb" for prostate cancer. 1566 18

Dipeptidyl peptidase IV (DPPIV) is a serine protease with tumor suppressor function. It regulates the activities of mitogenic peptides implied in cancer development. Progression of benign prostate cancer to malignant metastasis is linked to increased production of basic fibroblast growth factor (bFGF), a powerful mitogen. In this study, using in vitro model system we show that DPPIV loss is associated with increased bFGF production in metastatic prostate cancer cells. DPPIV reexpression in prostate cancer cells blocks nuclear localization of bFGF, reduces bFGF levels, inhibits mitogen-activated protein kinase (MAPK)-extracellular signal-regulated kinase (ERK)1/2 activation, and decreases levels of urokinase-type plasminogen activator, known downstream effectors of bFGF signaling pathway. These molecular changes were accompanied by induction of apoptosis, cell cycle arrest, inhibition of in vitro cell migration, and invasion. Silencing of DPPIV by small interfering RNA resulted in increased bFGF levels and restoration of mitogen-activated protein kinase (MAPK)-extracellular signal-regulated kinase (ERK)1/2 activation. These results indicate that DPPIV inhibits the malignant phenotype of prostate cancer cells by blocking bFGF signaling pathway.
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PMID:Dipeptidyl peptidase inhibits malignant phenotype of prostate cancer cells by blocking basic fibroblast growth factor signaling pathway. 1573 18

Hepsin, a type II transmembrane serine protease, is highly upregulated in prostate cancer and promotes tumor progression and metastasis. We generated a soluble form of hepsin comprising the entire extracellular domain to show that it efficiently converts single-chain hepatocyte growth factor (pro-HGF) into biologically active two-chain HGF. Hepsin activity was potently inhibited by soluble forms of the bi-Kunitz domain inhibitors HAI-1B (IC(50) 21.1+/-2.7 nM) and HAI-2 (IC(50) 1.3+/-0.3 nM). Enzymatic assays with HAI-1B Kunitz domain mutants (R260A and K401A) further demonstrated that inhibition was due to Kunitz domain-1. The results suggest a functional link between hepsin and the HGF/Met pathway, which may contribute to tumor progression.
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PMID:Hepsin activates pro-hepatocyte growth factor and is inhibited by hepatocyte growth factor activator inhibitor-1B (HAI-1B) and HAI-2. 1579 1

Prostate-specific antigen (PSA) is a serine protease that is widely used as a surrogate marker in the early diagnosis and management of prostate cancer. The physiological relevance of tissue PSA levels and their role in prostate tumor growth and metastasis are not known. Free-PSA (f-PSA) was purified to homogeneity from human seminal plasma by column chromatography, eliminating hk2 and all known PSA complexes and retaining its protease activity. Confluent monolayers of prostate cancer cell lines, PC-3M and LNCaP, were treated with f-PSA in a series of in vitro experiments to determine the changes in expression of various genes that are known to regulate tumor growth and metastasis. Gene array, quantitative polymerase chain reaction (QPCR), and enzyme-linked immunosorbent assay (ELISA) results show significant changes in the expression of various cancer-related genes in PC-3M and LNCaP cells treated with f-PSA. In a gene array analysis of PC-3M cells treated with 10 muM f-PSA, 136 genes were upregulated and 137 genes were downregulated. In LNCaP cells treated with an identical concentration of f-PSA, a total of 793 genes was regulated. QPCR analysis reveals that the genes for urokinase-type plasminogen activator (uPA), VEGF, and Pim-1 oncogene, known to promote tumor growth, were significantly downregulated, whereas IFN-gamma, known to be a tumor-suppressor gene, was significantly upregulated in f-PSA-treated PC-3M cells. The effect of f-PSA on VEGF and IFN-gamma gene expression and on protein release in PC-3M cells was distinctly dose-dependent. In vivo studies showed a significant reduction (P = .03) in tumor load when f-PSA was administered in the tumor vicinity of PC-3M tumor-bearing BALB/c nude mice. Our data support the hypothesis that f-PSA plays a significant role in prostate tumor growth by regulating various proangiogenic and antiangiogenic growth factors.
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PMID:Prostate-specific antigen modulates the expression of genes involved in prostate tumor growth. 1579 24

Human tissue kallikrein genes, located on the long arm of chromosome 19, are a subgroup of the serine protease family of proteolytic enzymes. Initially thought to consist of three members, the human kallikrein locus has now been extended and includes 15 tandemly located genes. These genes, and their protein products, share a high degree of homology and are expressed in a wide array of tissues, mainly those that are under steroid hormone control. PSA (hK3) is one of the human kallikreins, and is the most useful tumor marker for prostate cancer screening, diagnosis, prognosis and monitoring. hK2, another prostate-specific kallikrein, has also been proposed as a complementary prostate cancer biomarker. In the past 5 years, the newly discovered kallikreins (KLK4-KLK15) have been associated with several types of cancer. For example, hK4, hK5, hK6, hK7, hK8, hK10, hK11, hK13 and hK14 are emerging biomarkers for ovarian, breast, prostate and testicular cancer. New evidence raises the possibility that some kallikreins are directly involved with cancer progression. We here review the evidence linking kallikreins and cancer and their applicability as novel biomarkers for cancer diagnosis and management.
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PMID:Human tissue kallikrein gene family: applications in cancer. 1591 Oct 97

Extracellular proteases of the matrix metalloproteinase (MMP) and serine protease families participate in many aspects of tumour growth and metastasis. Using quantitative real-time RT-PCR analysis, we have undertaken a comprehensive survey of the expression of these enzymes and of their natural inhibitors in 44 cases of human prostate cancer and 23 benign prostate specimens. We found increased expression of MMP10, 15, 24, 25 and 26, urokinase plasminogen activator-receptor (uPAR) and plasminogen activator inhibitor-1 (PAI1), and the newly characterised serine proteases hepsin and matriptase-1 (MTSP1) in malignant tissue compared to benign prostate tissue. In contrast, there was significantly decreased expression of MMP2 and MMP23, maspin, and the protease inhibitors tissue inhibitor of metalloproteinase 3 (TIMP3), TIMP4 and RECK (reversion-inducing cysteine-rich protein with Kazal motifs) in the cancer specimens. The expression of MMP15 and MMP26 correlated positively with Gleason score, whereas TIMP3, TIMP4 and RECK expression correlated negatively with Gleason score. The cellular localisation of the expression of the deregulated genes was evaluated using primary malignant epithelial and stromal cell cultures derived from radical prostatectomy specimens. MMP10 and 25, hepsin, MTSP1 and maspin showed predominantly epithelial expression, whereas TIMP 3 and 4, RECK, MMP2 and 23, uPAR and PAI1 were produced primarily by stromal cells. These data provide the first comprehensive and quantitative analysis of the expression and localisation of MMPs and their inhibitors in human prostate cancer, leading to the identification of several genes involved in proteolysis as potential prognostic indicators, in particular hepsin, MTSP1, MMP26, PAI1, uPAR, MMP15, TIMP3, TIMP4, maspin and RECK.
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PMID:Identification of degradome components associated with prostate cancer progression by expression analysis of human prostatic tissues. 1592 70

The development of targeted therapies for prostate cancer has exploited various elements of prostate biology. The androgen-dependence of prostate cancer continues to be the focus for the development of new drugs and the analysis of details of the intermolecular interactions of the androgen receptor. Importantly, new applications of androgen ablation therapy have proven to have the greatest effect on cause-specific and overall survival during the last decade. Prostate epithelial cells express a number of tissue-specific proteins that have been the target either for antibody-directed therapies, in the case of prostate-specific membrane antigen, or target-activated therapies in the case of prostate-specific antigen, a serine protease. Prostate-specific proteins have also been targeted by the development of vaccines that have entered clinical trials. Humanized monoclonal antibodies and small molecules designed to inhibit oncogenic signalling pathways have been subjected to clinical trials in prostate cancer with limited success. The application of pathway inhibitors to prostate cancer therapy has been limited because no common dominant oncogenic mutation affecting signal kinase activation in prostate cancer has yet been identified. The interaction of signal kinase inhibitors with androgen ablation and with cytotoxic chemotherapy remains to be explored.
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PMID:Targeted therapies for prostate cancer. 1593 16

Maspin is a member of the serine protease inhibitors and the maspin gene, a tumor suppressor gene, is down-regulated in a large fraction of prostate cancers. We evaluated the use of adeno-associated virus (AAV, serotype 2) vector encoding maspin as a means for in vivo gene therapy for human prostate cancer. TUNEL assay of subcutaneously formed LNCaP or DU145 tumors in nude mice showed that intratumoral AAV-mediated maspin expression significantly upregulated the number of apoptotic cells compared with AAV-LacZ treatment. Immunofluorescence double staining for maspin protein and apoptosis in LNCaP tumors showed that the percentage of apoptotic cells in AAV-maspin-mediated maspin-expressing cells was significantly high compared with that in AAV-GFP-mediated GFP-expressing cells. Moreover, significantly fewer CD31-positive microvessels were observed in AAV-maspin-treated tumors compared with the control tumors. These therapeutic responses were highly correlated to persistent maspin expression in tumors, confirmed by Western blot analysis until at least day 56 after treatment. Finally, intratumoral delivery of AAV-maspin significantly suppressed growth of LNCaP and DU145 tumors and improved survival of mice. We conclude that AAV-mediated prolonged maspin expression efficiently suppresses human prostate tumor growth in vivo by apoptosis induction and inhibition of angiogenesis.
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PMID:Adeno-associated virus 2-mediated intratumoral prostate cancer gene therapy: long-term maspin expression efficiently suppresses tumor growth. 1596 Jun 1

The prostate-specific antigen-related serine protease gene, kallikrein 4 (KLK4), is expressed in the prostate and, more importantly, overexpressed in prostate cancer. Several KLK4 mRNA splice variants have been reported, but it is still not clear which of these is most relevant to prostate cancer. Here we report that, in addition to the full-length KLK4 (KLK4-254) transcript, the exon 1 deleted KLK4 transcripts, in particular, the 5'-truncated KLK4-205 transcript, is expressed in prostate cancer. Using V5/His6 and green fluorescent protein (GFP) carboxy terminal tagged expression constructs and immunocytochemical approaches, we found that hK4-254 is cytoplasmically localized, while the N-terminal truncated hK4-205 is in the nucleus of transfected PC-3 prostate cancer cells. At the protein level, using anti-hK4 peptide antibodies specific to different regions of hK4-254 (N-terminal and C-terminal), we also demonstrated that endogenous hK4-254 (detected with the N-terminal antibody) is more intensely stained in malignant cells than in benign prostate cells, and is secreted into seminal fluid. In contrast, for the endogenous nuclear-localized N-terminal truncated hK4-205 form, there was less difference in staining intensity between benign and cancer glands. Thus, KLK4-254/hK4-254 may have utility as an immunohistochemical marker for prostate cancer. Our studies also indicate that the expression levels of the truncated KLK4 transcripts, but not KLK4-254, are regulated by androgens in LNCaP cells. Thus, these data demonstrate that there are two major isoforms of hK4 (KLK4-254/hK4-254 and KLK4-205/hK4-205) expressed in prostate cancer with different regulatory and expression profiles that imply both secreted and novel nuclear roles.
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PMID:Compartmentalized expression of kallikrein 4 (KLK4/hK4) isoforms in prostate cancer: nuclear, cytoplasmic and secreted forms. 1632 28

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