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Prostasin Is Expressed In Benign Prostatic Hyperplasia And Regulates Cell Proliferation And Invasion Via Inos, Icam-1, And CycliHatfield, Meghan 01 January 2008 (has links)
Prostasin is expressed in normal prostate epithelial cells but down-regulated in prostate cancers, while prostasin re-expression in invasive prostate cancer cells reduced invasion. We examined prostasin expression and function in benign prostatic hyperplasia (BPH). We evaluated prostasin expression in 12 BPH specimens by immunohistochemistry, and evaluated the impact of prostasin silencing by siRNA on the expression of the inducible nitric oxide synthase (iNOS), intercellular adhesion molecule-1 (ICAM-1), and cyclin D1, as well as on cell proliferation and invasion, using the BPH-1 human prostate epithelial cell line model. Prostasin expression was localized in the glands of BPH tissues by immunohistochemistry, in either the tall columnar-shaped or the flattened epithelial cells. We silenced prostasin expression by >50% at both the mRNA and protein levels using siRNA in the BPH-1 human prostate epithelial cell line, and this silencing of prostasin expression was associated with an induction of iNOS and ICAM-1 expression and a down-regulation of cyclin D1 expression. The protein expression of EGFR, a putative prostasin substrate, was not affected by prostasin silencing in this cell line. The prostasin-silenced cells displayed a reduced cell proliferation rate and reduced invasiveness, cell behaviors regulated by cyclin D1, iNOS, and ICAM-1 in the BPH-1 cells. We believe that this down-regulation of cyclin D1 is due to prostasin's augmentative effect on iNOS. We also believe that the decrease in cell motility is due to an increase in iNOS and ICAM-1 as well as a decrease in cyclin D1, since all of these molecules can play a role in cell motility. In conclusion, Prostasin is somehow involved in the regulation of inflammatory gene expression (iNOS and ICAM-1) in prostate epithelial cells, as well as cyclin D1 expression, cell proliferation and invasion, involving molecular mechanisms different than those in the prostate cancer cells. These studies suggest that prostasin is a player in the glandular components of benign prostatic hyperplasia.
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Determination of matriptase-prostasin cleavage sites in the extracellular domain of the epidermal growth factor receptor (EGFR)Weaver, Sarah Elizabeth 01 January 2008 (has links)
This year the American Cancer Society predicts that 565,650 individuals will lose their life as a result of their battle with cancer. Due to its established roles in cancer and extracellular presentation, the Epidermal Growth Factor Receptor (EGFR) is an excellent target for anti-cancer drugs. It has been determined that matriptase and prostasin serine proteases are proteolytic regulators of EGFR membrane presentation, and downstream signaling. Currently, there are several drugs that target EGFR, but research continues in order to further understand drug-resistant EGFR. In cancer cell lines that exhibit both EGFR signaling and these proteases, proteolytic cleavage may be a mechanism of resistance to drugs that target the EGFR extracellular domain (ECD). The specific aim of this project was to determine which protease was direct! y responsible for EGFR cleavage and establish the precise cleavage site within the EGFR ECD. DNA corresponding to amino acid residues 336-505 of the EGFR ECD was cloned into the p-GEX-6P-I vector and expressed as a GST-fusion protein in E.coli cells. This fusion protein was isolated and purified by affinity chromatography. Purified GSTEGFR BCD fusion protein was mixed with prostasin and matriptase and evaluated for cleavage. No cleavage was detected using this method. Trypsin serine protease was used to ensure the cleavability of the GST-EGFR ECD. The GST-EGFR ECD fusion protein was found to be inappropriate for determining matriptase or prostasin cleavage sites, which are now being pursued by other means.
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Mechanism Of Action And Regulation Of Membrane Serine Protease Prostasin In The Prostate And Prostate CancerChen, Mengqian 01 January 2007 (has links)
The glycosylphosphatidylinositol (GPI)-anchored serine protease prostasin (PRSS8) is expressed at the apical membrane surface of epithelial cells and acts as a suppressor of tumor invasion when re-expressed in highly invasive human prostate and breast cancer cell lines. To better understand the molecular mechanisms underlying the anti-invasion phenotype associated with prostasin re-expression in prostate cancer cells, we expressed wild-type human prostasin or a serine active-site mutant prostasin in the PC-3 human prostate carcinoma cells. Molecular changes were measured at the mRNA and the protein levels. The expression of several invasion-promoting molecules is regulated by prostasin re-expression, mediated by a protein-level down-regulation of the epidermal growth factor receptor (EGFR). As a result, the cellular response to EGF was reduced as shown by the down-regulation of EGF-stimulated Erk1/2 phosphorylation. The expression of Slug, urokinase-type plasminogen activator (uPA), urokinase-type plasminogen activator receptor (uPAR), inducible nitric oxide synthase (iNOS), cyclooxygenase-2 (COX-2), and granulocyte-macrophage colony stimulating factor (GM-CSF) was also down-regulated by prostasin re-expression in the PC-3 cells. Co-expression of prostasin and its activating protease matriptase with EGFR in FT-293 cells induces an apparent proteolytic cleavage of the EGFR in the extracellular domain at two specific sites, generating two N-terminally truncated EGFR fragments, named EGFR135 and EGFR110. The EGFR110 is constitutively tyrosine-phosphorylated, and in its presence the phosphorylation of downstream signaling molecules including Erk1/2 and Akt is increased under serum-free conditions. Neither EGFR135 nor EGFR110 is responsive to EGF stimulation. Deletions of the EGFR extracellular domain (ECD) were generated to map the matriptase-prostasin cleavage sites. Two candidate sites were localized to regions AA1-273 and AA273-410. These data support a mechanism of action for the matriptase-prostasin epithelial extracellular serine protease activation cascade by proteolytically modulating the EGF-EGFR signaling. Prostasin gene expression is down-regulated in high-grade and hormone-refractory prostate cancers. We investigated the mechanisms by which androgens regulate prostasin expression in the prostate and prostate cancer. We treated the LNCaP human prostate cancer cells with dihydrotestosterone (DHT) and measured the mRNA expression of prostasin and potential transcription regulators of prostasin predicted by interrogation of the prostasin gene promoter sequence. Prostasin mRNA expression in the LNCaP cells was not responsive to DHT treatment. DHT marginally up-regulated mRNA expression of SREBP-1c, SREBP-2, and SNAIL, but not SREBP-1a, while dramatically increased SLUG mRNA expression, in a dose-dependent manner. Co-transfection of a prostasin promoter-reporter and SREBP cDNA in HEK-293 cells resulted in stimulation of the promoter activity at ~2 fold by SREBP-1c, and up to 6 fold by SREBP-2; while co-transfection with SNAIL or SLUG cDNA resulted in repression of the promoter activity to 43% or 59%, respectively. Co-transfection of the SLUG cDNA negated SREBP-2 s stimulation of the prostasin promoter in a dose-dependent manner. Transfection of an SREBP-2 cDNA in HEK-293 and DU-145 cells resulted in up-regulation of the endogenously expressed prostasin while transfection of a SLUG cDNA in the LNCaP cells repressed prostasin expression. Multiple SREBP-2 binding sites, known as sterol regulatory elements (SRE s), were identified at positions -897, -538, +8, +71, and +98 (named SRE-897, SRE-538, SRE+8, SRE+71, and SRE+98) in the human prostasin gene promoter. Mutagenesis of the five SRE s was carried out to evaluate their roles in SREBP-2 up-regulation of prostasin. SRE+98, a novel functional sterol regulatory element was found to be the major site for the stimulatory response of prostasin gene expression to SREBP-2. CONCLUSIONS: Prostasin regulates the expression of several invasion-promoting molecules in prostate cancer cells by down-modulating the EGF-EGFR signaling pathway. Active prostasin induces proteolytic cleavage in the EGFR ECD at two specific sites. One of the N-terminally truncated EGFR, the EGFR110 is auto-phosphorylated along with increased phosphorylation of downstream signaling molecules. The effect of the androgen DHT on prostasin expression in prostate cells is mediated via SREBP s, which stimulate the promoter, and Slug, which represses the promoter. Slug is up-regulated by DHT and EGF, providing a molecular mechanism by which epithelial cell-specific genes are silenced during prostate cancer development and progression.
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