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)

Once prostate cancer has metastasized, current treatment methods are generally ineffective. Due to the reported anti-tumor properties of specific nutrients, we investigated the effect of a unique formulation (NS) of lysine, proline, arginine, ascorbic acid, and epigallocatechin gallate on human prostate cancer cell lines: PC-3, DU145 (androgen insensitive) and LNCaP (androgen sensitive), by measuring cell proliferation, MMP expression, and invasion potential. Cell lines DU145, PC-3, and LNCaP were treated at near confluence with NS at various concentrations. Cell proliferation was measured by MTT assay after 24 hours, MMP expression was measured by gelatinase zymography in condition media, and invasion activity was measured by Matrigel. The nutrient mixture did not significantly inhibit PC-3 cell proliferation at 50 microg/ml, but showed significant antiproliferative effect at 500 ug/ml. When treated with NS, proliferation of LNCaP cells was inhibited by 80% of control at 100 microg/ml. NS showed dose-dependent inhibition of DU145 cell proliferation with 47% reduction at 1000 microg/ml. NS showed a dose-dependent inhibition of both MMP-2 and MMP-9 expression by PC-3 cells and MMP-9 expression by PMA-treated (200 ng/ml) DU145 cells. Neither MMP-2 nor MMP-9 gelatinolytic activity was detected in LNCaP cell culture. Invasion of DU145 and LNCaP cells through Matrigel was completely inhibited at 500 microg/ml and PC-3 at 1000 microg/ml. Inhibition of MMP expression and invasion suggests the mixture of nutrients studied is a potent, natural anticancer agent for the treatment of prostate cancer.
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PMID:Anti-tumor effect of ascorbic acid, lysine, proline, arginine, and epigallocatechin gallate on prostate cancer cell lines PC-3, LNCaP, and DU145. 1756 22

Mass spectrometry-based tissue profiling and imaging are technologies that allow identification and visualization of protein signals directly on thin sections cut from fresh frozen tissue specimens. These technologies were utilized to evaluate protein expression profiles in the normal mouse prostate during development (1-5 weeks of age), at sexual maturation (6 weeks of age), and in adult prostate (at 10, 15, or 40 weeks of age). The evolution of protein expression during normal prostate development and maturation were subsequently compared with 15-week prostate tumors derived from genetically engineered mice carrying the Large T antigen gene under regulation of the prostate-specific probasin promoter (LPB-Tag mouse model for prostate cancer). This approach identified proteins differentially expressed at specific time points during prostate development. Furthermore expression of some of these proteins, for example probasin and spermine-binding protein, were associated with prostate maturation, and prostate tumor formation resulted in their loss of expression. Cyclophilin A, a protein found in other cancers, was differentially alpha-acetylated on the N terminus, and both isoforms appeared during normal prostate and prostate tumor development. Imaging mass spectrometry localized the protein signals to specific prostatic lobes or regions. Thus, tissue profiling and imaging can be utilized to analyze the ontogeny of protein expression during prostate morphogenesis and tumorigenesis and identify proteins that could potentially serve as biomarkers for prostate cancer.
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PMID:Monitoring mouse prostate development by profiling and imaging mass spectrometry. 1799 18

The transgenic adenocarcinoma of mouse prostate (TRAMP) model is widely used in prostate cancer research because of rapid tumor onset and progression. The transgenic mouse is on a C57BL/6 (B6) background and expresses SV40 T-antigen under the probasin promoter. The strong genetic component of susceptibility to prostate cancer in humans prompted us to investigate the effect of mouse strain background (FVB and B6) on incidence, progression, and pathology of prostate cancer in this model. Because TRAMP lesions are unique but differ from conventional prostatic intraepithelial neoplasia because the epithelium and stroma are affected diffusely, we designated them as "atypical hyperplasia of Tag." Although the incidence and severity of atypical hyperplasia of Tag is similar, FVB-TRAMP mice live significantly shorter lives than B6-TRAMP mice because of the rapid development and progression of neuroendocrine carcinomas. This is associated with an increased frequency of neuroendocrine precursor lesions in young TRAMP mice, detectable at 4 weeks after birth. These lesions show properties of bipotential stem cells and co-express markers of epithelial (E-cadherin) and neuroendocrine (synaptophysin) lineages, as well as the transcription factors Foxa1 and Foxa2. Transplantation studies using TRAMP prostatic ducts suggested that neuroendocrine carcinomas arise independently from atypical hyperplasias or other epithelial lesions. Adenocarcinomas were not seen in our cohort. Thus, neuroendocrine carcinomas are the principal malignancy in this model and may develop from bipotential progenitor cells at an early stage of prostate tumorigenesis.
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PMID:Dissociation of epithelial and neuroendocrine carcinoma lineages in the transgenic adenocarcinoma of mouse prostate model of prostate cancer. 1815 12

Expression of calcitonin (CT) and its receptor (CTR) is elevated in advanced prostate cancer (PC). Although the significance of CT-CTR axis in PC cell growth, invasion, and epithelial to mesenchymal transition has been established, its role in tumor metastasis has not been examined. To examine the role of CT-CTR axis in tumor metastasis, we employed stable CT-CTR activated and silenced system of three PC cell lines, LNCaP cells that lack endogenous CT, PC-3 cells that lack endogenous CTR, and PC-3M cells that co-express CT and CTR. Enforced expression of CT in LNCaP cells and CTR in PC-3 cells increased their ability to form orthotopic tumors and distant metastases in multiple organs. By contrast, silencing of CT expression in PC-3M cells not only reduced their tumorigenicity, but also completely abrogated their metastatic potential. To investigate the effect of in vivo silencing of CT expression on tumor growth, we employed recombinant adeno-associated virus (rAAV) to deliver anti-CT ribozymes in preexisting tumors of nude mice and large probasin promoter (LPB)-Tag transgenic mice. rAAV-CT(-) treatment not only abrogated the growth of pre-implanted tumors in nude mice, but also significantly reduced the growth of spontaneous tumors in LPB-Tag mice. Analysis of CT upregulated and silenced PC-3M transcriptomes revealed 105 genes affected by the modulation of CT expression. These CT signature genes generated survival, adhesion, pro-inflammatory, and pro-metastatic pathways. Added together, these data indicate a pivotal role for CT-CTR axis in PC metastasis and may serve as a potential therapeutic target for advanced PC.
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PMID:Calcitonin promotes in vivo metastasis of prostate cancer cells by altering cell signaling, adhesion, and inflammatory pathways. 1878 82

Currently, serum prostate-specific antigen (PSA) is used for the early detection of prostate cancer despite its low specificity in the range of 4-10 ng/mL. Because aberrant glycosylation is a fundamental characteristic of tumor genesis, the objective of this study was to investigate whether changes in PSA glycosylation may be used to improve the cancer specificity of PSA. We developed five lectin immunosorbant assays to analyze the glycosylation patterns of PSA in serum. Each assay sandwiches serum PSA between a PSA monoclonal antibody and a biotinylated lectin and then tags the biotin complex using a streptavidin SULFO TAG for electrochemiluminescence detection. Low limits of detection (0.04-1.35 ng/mL), good reproducibility (%CVs < 10%), and direct analysis of PSA glycosylation in sera suggest these assays may have a potential role in improving PSA's cancer specificity. Clinical performance was evaluated in 52 human subjects (26 cancer and 26 noncancer). ROC analysis showed that the total SNA assay (AUC = 0.71) appeared to perform better than percent free PSA (AUC = 0.54) in its diagnostic gray zone between 10 and 20% in a subset of 21 subjects. A separate study of 16 additional subjects showed similar findings.
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PMID:Glycoproteomics for prostate cancer detection: changes in serum PSA glycosylation patterns. 1903 87

Clinical trials have shown that chemotherapy with docetaxel (Doc) combined with prednisone can improve survival of patients with androgen-independent prostate cancer (AI-PC). It is likely that the combination of Doc with other novel agents would also improve the survival of AI-PC patients. We investigated whether the combination of Doc and 2-methoxyestradiol (2ME2), an endogenous metabolite of estradiol promising for cancer therapy, can increase apoptotic cell death in prostate cancer cells. Low concentration 2ME2 (0.5-1 microM)+Doc (0.05-0.1 nM) combinations inhibit cell growth, increase G2/M cell cycle arrest, and increase apoptosis more effectively than the single concentrations in a variety of human AI-PC cells. Effects on apoptosis were associated with an increase in p53 protein and a decrease in cyclin A-dependent kinase activity. We then investigated whether the combination of 2ME2+Doc can increase apoptotic cell death and inhibit the growth of prostate tumors in the FG/Tag transgenic mouse model of AI-PC. Doses of 2ME2 and Doc that increase mitotic cell cycle arrest result in an increase in apoptosis and lower primary prostate tumor weights in FG/Tag mice. High dose 2ME2+Doc combinations did not increase G2/M cell cycle arrest or apoptosis in AI-PC cell lines and in the FG/Tag mice more than the single drugs. Overall, our data indicate that low dose 2ME2+Doc combinations may provide a treatment strategy that can improve therapeutic efficacy against AI-PC while reducing toxicity often seen in patients treated with Doc.
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PMID:Low dose combinations of 2-methoxyestradiol and docetaxel block prostate cancer cells in mitosis and increase apoptosis. 1904 2

Expression of calcitonin (CT) and its receptor (CTR) is elevated in advanced prostate cancer, and activated CT-CTR autocrine axis plays a pivotal role in tumorigenicity and metastatic potential of multiple prostate cancer cell lines. Recent studies suggest that CT promotes prostate cancer metastasis by reducing cell-cell adhesion through the disassembly of tight and adherens junctions and activation of beta-catenin signaling. We attempted to identify a class of molecules that enhances cell-cell adhesion of prostate cells and reverses the disruptive actions of CT on tight and adherens junctions. Screening several compounds led to the emergence of phenyl-methylene hydantoin (PMH) as a lead candidate that can augment cell-cell adhesion and abolish disruptive actions of CT on junctional complexes. PMH reduced invasiveness of PC-3M cells and abolished proinvasive actions of CT. Importantly, PMH did not display significant cytotoxicity on PC-3M cells at the tested doses. I.p. administered PMH and its S-ethyl derivative remarkably decreased orthotopic tumor growth and inhibited the formation of tumor micrometastases in distant organs of nude mice. PMH treatment also reduced the growth of spontaneous tumors in LPB-Tag mice to a significant extent without any obvious cytotoxic effects. By virtue of its ability to stabilize cell junctions, PMH could reverse the effect of CT on junctional disruption and metastasis, which strengthens the possibility of using PMH as a potential drug candidate for CT-positive androgen-independent prostate cancers.
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PMID:Identification of a small molecule class to enhance cell-cell adhesion and attenuate prostate tumor growth and metastasis. 1927 66

Expression and activity of CC motif ligand 2 (CCL2) is down-regulated by curcumin, the active phytochemical ingredient of turmeric (Curcuma longa), a dietary supplement often self-prescribed to promote prostate health. CCL2 is a potent chemotactic factor of prostate cancer (PCa) with important roles in development of bone metastasis. The relationship between CCL2 and curcumin, however, has not been studied in PCa. Adhesion, invasion and motility of PC-3 cells were measured in response to exposure to curcumin (30 microM; 18 h), CCL2 (100 ng/ml; 18 h) or PMA (100 ng/ml; 18 h). CCL2 mRNA expression and protein secretion levels were measured by real-time PCR and ELISA respectively. Curcumin significantly blocked CCL2 induced adhesion, invasion and motility. Curcumin also significantly suppressed the mRNA expression and secreted CCL2 protein levels. The addition of PMA, a protein kinase C (PKC) activator, blocked the effects of curcumin, leading to an increase in CCL2 expression as well as an increase in PC-3 cell adhesion, invasion and motility. The introduction of a PKC inhibitor, however, blocked the effects of CCL2. We also found that curcumin, CCL2 and PMA, in part, function through the differential regulation of the proteolytic protein matrix metalloproteinase (MMP)-9. These data indicate a potential mechanism; by which curcumin can block the chemotactic effects of CCL2 on PCa. Curcumin exerts potential anti-metastatic effects in bone-derived PCa cells by blocking CCL2 mediated actions on invasion, adhesion and motility, in part through differential regulation of PKC and MMP-9 signaling.
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PMID:Curcumin blocks CCL2-induced adhesion, motility and invasion, in part, through down-regulation of CCL2 expression and proteolytic activity. 1936 Mar 44

Bisphosphonates are expected to be effective at preventing tumor metastasis to bone tissue. Since protein kinase C (PKC) plays a crucial role in cancer progression, we examined the effect of bisphosphonates on PKC expression to clarify the mechanism behind the inhibition of the bone metastasis of prostate cancer by bisphosphonates. We found that pamidronate inhibits PKC protein expression and PKC activity in prostate cancer PC-3 cells. PKC protein expression was markedly reduced by treatment with 100 microM of pamidronate. The inhibitory effect of PKC expression by pamidronate was specific for PKCalpha and PKCzeta. Nitrogen-containing bisphosphonates are known to inhibit the mevalonate pathway, but the effect of pamidronate on PKC expression was not due to the inhibition of this pathway. Urokinase-type plasminogen activator (uPA) is one of the critical proteins in tumor metastasis and decreased in bisphosphonate-treated PC-3 cells. We also showed that uPA expression was suppressed by PKC inhibitors (calphostin C and staurosporine) and induced by a PKC activator (PMA) in PC-3 cells, suggesting that the inhibition of uPA by bisphosphonates is involved in PKC inhibition. This is the first finding that bisphosphonates suppress PKC expression in cancer cells. These results strongly suggest that one of the mechanisms behind the inhibitory effect of bisphosphonates on tumor bone metastasis is mediated by PKC inhibition.
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PMID:Protein kinase C is inhibited by bisphosphonates in prostate cancer PC-3 cells. 1990 68

Prostate cancer (PCa) is a complex disorder resulting from the combined effects of multiple environmental and genetic factors. Our previous single-locus analysis showed that VEGF and HSP70-hom polymorphisms were significantly associated with PCa susceptibility and prognosis. Both genes encoding these proteins were located on chromosome 6p21, and combining the neighboring single nucleotide polymorphisms (SNPs) into haplotypes may increase the association with the disease. Three tagging polymorphisms, the HSP70-hom 2437 T/C, the VEGF-1154 G/A, and the VEGF-634 G/C SNPs were genotyped in 101 cases and 80 controls. For the combined analysis of VEGF and HSP70-hom, we found a positive gradient in the odds ratios (ORs) related to the number of high-risk genotypes with a 3.53-fold increase of prostate carcinoma risk (OR = 3.53; p = 0.015). Furthermore, the TAG and CAG haplotypes at positions HSP70-hom, VEGF -1154 and VEGF -634 exhibited a two-fold (OR = 0.46; p = 0.014) and a seven-fold (OR = 0.14; p = 0.00005) reduction in PCa risk, respectively. Regarding PCa prognosis, the TAG haplotype had a negative association with the aggressive phenotype as defined by the histopathological grade (OR = 0.28; p = 0.006). Our findings confirm the role of at-risk haplotype across the HSP70-hom/VEGF gene cluster in determining susceptibility to PCa.
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PMID:Synergistic effect and VEGF/HSP70-hom haplotype analysis: relationship to prostate cancer risk and clinical outcome. 2009 41

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