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)

Point mutations at codons 12, 13, or 61 of the Ha-, Ki-, and N-ras genes are able to convert these normal cellular genes into activated oncogenes. Previous studies have shown that ras gene mutations occur in a variety of human solid tumors and may be important in the pathogenesis of some of these tumors. In order to test the hypothesis that ras gene mutations may be associated with prostate cancer, we have used an oligodeoxynucleotide hybridization assay to detect wild-type and mutant alleles in genomic DNA from prostate tumors and prostate tumor cell lines amplified using the polymerase chain reaction. Twenty-four primary prostate tumors (23 acinar tumors and one ductal tumor) and five prostate tumor cell lines were examined for mutations at codons 12, 13, and 61 of the Ki-ras, Ha-ras, and N-ras genes. Two mutations were detected: an A----G transition causing a glutamine to arginine amino acid substitution at codon 61 of the Ha-ras gene in a primary prostatic duct adenocarcinoma and a G----T transversion causing a glycine to valine amino acid substitution at codon 12 of the Ha-ras gene in a prostate tumor cell line (TSU-PR1) derived from a lymph node metastasis. While the overall frequency of ras gene mutations in prostate tumors is low, when these mutations do occur they may have a role in the progression of disease or the development of the unusual ductal variant of prostatic adenocarcinoma.
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PMID:ras gene mutations in human prostate cancer. 220 48

Components of malignant invasion, namely cellular adhesion, motility, and proteolytic capability provide potential sites of pharmacological intervention for malignancy. In this study, a series of experiments were performed to examine the effects of N-(4-hydroxyphenyl) retinamide (4-HPR, Fenretinide) on cellular adhesion, motility and proteolytic activity of established prostate cancer cell lines, TSU-PR 1 and PC-3. Radioadhesion study showed that the treatment of TSU-PR 1 and PC-3 cells with 10(-6) M of 4-HPR resulted in a 32% and 37% reduction (p < 0.05), respectively, in the cellular adhesion to the matrigel extract. Radiomigration assay also demonstrated that 4-HPR concentration of 10(-6) M reduced the cellular motility by 29% in TSU-PR1 and 28% in PC-3 cells (p < 0.05). Spectrolyse PL indirect chromogenic assay revealed an increase in total activatable uPA activity (TSU-PR 1: 25%, PC-3: 32%, P < 0.05), while Spectrolyse UK direct assay demonstrated a mild, but a statistically significant reduction (PC-3: 5%, TSU-PR1: 9%, P < 0.05) in active uPA activity. Northern analysis and ELISA assays showed that 4-HPR at 10(-6) M enhances the expression of type 1 plasminogen activator inhibitor (PAI-1). Type IV collagenase western blot analysis and densitometry did not demonstrate suppression of the enzyme secretion, but in fact suggested increased translation of the enzyme when treated with 10(-6) M concentration of fenretinide. The results of this study demonstrate that 4-HPR inhibits in vitro cellular adhesion and motility of human prostate adenocarcinoma cell lines, TSU-PR1 and PC-3. Additionally, uPA and PAI-1 assay results suggest that 4-HPR may impair active uPA's proteolytic activity while upregulating the expression of total activatable uPA and PAI-1. The results of this study therefore support 4-HPR's role as a potential anti-invasive agent.
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PMID:In vitro anti-invasive effects of N-(4-hydroxyphenyl)-retinamide on human prostatic adenocarcinoma. 765 32

The expression and function of urokinase plasminogen activator (uPA), an extracellular protease, were examined in four established prostate cancer lines, and one uPA-transfected cell line. The cell lines exhibited variable efficiency in uPA transcription, translation and specific proteolytic activity. A statistically significant inhibition of Boyden chamber invasion by anti-uPA monoclonal antibodies was demonstrated in cell lines TSU-PR1 and PC3. This inhibition suggests a direct role for uPA in the invasion of prostate cancer. However, variable processing of uPA mRNA, protein and proteolytic activity make prediction of in vitro invasion of prostate cancer difficult. Stable transfection experiments suggest that the proteolytic cascade generated by a cell is multiform and solitary alterations in uPA may not modify the proteolytic capability for invasion.
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PMID:Urokinase plasminogen activator is necessary but not sufficient for prostate cancer cell invasion. 767 30

Linomide is a p.o. active antiangiogenic agent that has been demonstrated to be effective in suppressing the in vivo growth of rat and human prostatic cancer xenografts. The present studies were conducted to determine whether the angiogenic molecules, vascular endothelial growth factor/vascular permeability factor (VEGF/VPF) and basic fibroblast growth factor (bFGF) are expressed in vitro by DU-145, PC-3, TSU-PR1, and LnCaP human prostate cancer cell lines and whether Linomide inhibits the secretion of these angiogenic molecules. Additionally, two different androgen-responsive human prostatic cancer xenograft models (i.e., PC-82 and A-2) were used to determine whether androgen ablation-induced reduction in tumor growth is associated with a reduction in tumor VEGF and/or bFGF levels. These studies demonstrated that both VEGF and bFGF proteins are expressed to different degrees in the human prostatic cancer cell lines. The secretion of VEGF but not bFGF is up-regulated by hypoxia. Linomide is unable to inhibit either basal or hypoxia-induced secretion of VEGF. Linomide also has no effect on secreted bFGF levels. Castration inhibited tumor VEGF but had no effect on bFGF levels in both the androgen-responsive PC-82 and A-2 human prostatic cancers when grown in severe combined immunodeficient mice. When given in combination, castration potentiated the inhibition of tumor growth induced by Linomide alone. This potentiation is not due to a further inhibition in tumor VEGF levels induced by castration. Although both castration and Linomide inhibit angiogenesis, the former accomplishes it by inhibiting VEGF secretion, whereas the latter has multiple effects at several steps in the angiogenic process other than VEGF secretion. Based on their different but complementary mechanisms of action, simultaneous combination of androgen ablation with Linomide enhances the anti-prostatic cancer efficacy compared to either monotherapies alone and warrants testing in humans.
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PMID:Potentiation of the antiangiogenic ability of linomide by androgen ablation involves down-regulation of vascular endothelial growth factor in human androgen-responsive prostatic cancers. 906 70

The tumor suppressor gene CDKN2 (p16/MTS1) resides on chromosome 9p21 and encodes a 16 kDa inhibitor of the cyclin-dependent kinases. Inactivation of CDKN2 by homozygous deletion, point mutation, and recently described aberrant methylation in the 5' promoter region may increase progression through the cell cycle in tumors. In this study, we examine the CDKN2 gene for the presence of inactivating alterations in human prostate cancer. Sequence analysis of cell lines revealed no mutation in LNCaP, PC3, and TSU-PR1 and a missense mutation, GAC-->TAC (asp to tyr), in exon 2 of the DU145 cell line at codon 76. No mutations were identified in three primary prostate cancers or in seven lymph node metastases. Loss of heterozygosity (LOH) was analyzed by analysis of microsatellite markers in the vicinity of the CDKN2 gene. LOH was detected in 12 (20%) of 60 primary tumors at one or more loci and in 13 (46%) of 28 metastases. Methylation analysis of the CpG-rich promoter region revealed a dense methylation of CDKN2 in cell lines PC3, PPC1, and TSU-PR1, and this was found to correlate with a lack of mRNA expression by reverse transcription-polymerase chain reaction. A demethylating agent, 5-aza-2'-deoxycytidine, induced reexpression when cells were exposed in vitro. DU145 and LNCaP expressed the CDKN2 transcript and were unmethylated in the promoter region. Three of twenty-four (13%) primary prostate cancers and 1 of 12 metastatic tumors demonstrated promoter methylation. No normal prostate tissues were methylated at the CDKN2 gene promoter. One tumor was found to contain concomitant LOH and promoter methylation indicative of biallelic inactivation. A comprehensive analysis of CDKN2 in prostate cancer reveals that point mutations are infrequent, but gene deletion and methylation combine to inactivate CDKN2 in a subset of tumors. Moreover, alterations in this gene may represent a late event in prostate cancer progression.
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PMID:Deletional, mutational, and methylation analyses of CDKN2 (p16/MTS1) in primary and metastatic prostate cancer. 917 99

Androgen-independent metastatic prostate cancer is characterized by a heterogeneous loss of androgen receptor (AR) expression among tumor cells. In this study, we evaluate DNA hypermethylation as a potential transcriptional regulatory mechanism in AR-negative prostate cancer cell lines. Nucleotide sequence analysis demonstrates an approximately 15-kb CpG island in the AR gene that encompasses the transcription start site and exon 1. Using Southern blotting with methylation-sensitive restriction enzymes and methylation-specific PCR, we find aberrant methylation in the AR expression-negative cell lines Du145, DuPro, TSU-PR1, and PPC1. Incomplete methylation in the AR CpG island is also seen in normal female breast and ovarian tissues consistent with the inactivation of one X chromosome by hypermethylation. In contrast, prostate cancer cell lines LNCaP and PC3 express AR and are unmethylated. Normal prostate epithelial cell strains demonstrate no methylation. Exposure of AR-negative prostate cancer cell lines to 5-aza-2' deoxycytidine, a demethylating agent, induces the reexpression of AR RNA in DuPro and TSU-PR1. This reexpression is associated with a demethylation of this region. Prostate-specific antigen, an androgen-responsive gene, is also specifically induced in these lines after AR reexpression. Therefore, in vitro DNA methylation of the 5' CpG AR island may be associated with the loss of AR expression. Furthermore, our results demonstrate that treatment with demethylating agents may engender the reexpression and function of the androgen receptor in AR-negative cell lines.
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PMID:Methylation of the androgen receptor promoter CpG island is associated with loss of androgen receptor expression in prostate cancer cells. 985 55

Previous investigations have demonstrated that a synthetic retinoid, N-(4-hydroxyphenyl) retinamide (4-HPR), inhibits the invasion of prostate adenocarcinoma in vitro. Urokinase-type plasminogen activator (uPA) is a prerequisite for tumor invasion. The purpose of this study was to evaluate the effects of 4-HPR on uPA and plasminogen activator inhibitor-1 (PAI-1) in prostate cancer. Human prostate adenocarcinoma cell lines, TSU-PR1 and PC3, were grown in serum-free media containing 4-HPR. Cellular mRNA and protein were subsequently extracted. Northern blot analysis, enzyme-linked immunosorbent assay (ELISA) and chromogenic functional analysis were performed on the samples. Administration of 10(-6) M 4-HPR for 3 days resulted in an increase in uPA mRNA expression (TSU-PR1: 391%, PC3: 356%), and a simultaneous increase in PAI-1 mRNA expression (TSU-PR1: 217%, PC3: 235%) was observed. ELISA concomitantly demonstrated a significant increase (p < 0.05) in uPA protein in the conditioned media (TSU-PR1: 134%, PC3: 139%) and cell lysates (TSU-PR1: 284%, PC3: 255%). Both cell lines demonstrated a significant increase (p < 0.05) in PAI-1 protein in the conditioned media (TSU-PR1: 152%, PC3: 167%) and cell lysates (TSU-PR1: 170%, PC3: 222%). Concentrations below 10(-6) M failed to alter the protein production of either uPA or PAI-1. The functional uPA assay demonstrated a reduction of the proteolytic activity of uPA (TSU-PR1: 13%, PC3: 7%) in cell lysates of 10(-6) M 4-HPR (p < 0.05), while there was minimal uPA activity in the conditioned media. 4-HPR stimulates a paradoxical increase in uPA and PAI-1, but the anti-invasive effects of 4-HPR are consistent with the increase in both uPA and PAI-1, resulting in an overall reduction of functional uPA activities.
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PMID:Effects of N-(4-hydroxyphenyl) retinamide on urokinase-type plasminogen activator and plasminogen activator inhibitor-1 in prostate adenocarcinoma cell lines. 1082 59

Telomerase activation is thought to be a critical step in cellular immortality and oncogenesis. Several reagents including differentiation-inducing and antineoplastic agents are known to inhibit telomerase activity, although the molecular mechanisms through which they inhibit telomerase activity remain unclear. Demethylating reagents have recently been used as potential antineoplastic drugs for some types of cancers including those of the prostate. In the present study, we examined the effect of the demethylating reagent 5-azacytidine (5-aza-CR) on telomerase activity using cells of two prostate cancer cell lines, DU-145 and TSU-PR1. 5-aza-CR treatment significantly reduced telomerase activity in TSU-PR1 cells, but not in DU-145 cells, although growth inhibition was observed to a similar extent in both cell lines. Reverse transcription-PCR analyses revealed that inhibition of telomerase activity was accompanied by down-regulation of telomerase catalytic subunit (hTERT) mRNA expression. Transient expression assays showed that 5-aza-CR repressed the transcriptional activity of the hTERT promoter and that the E-box within the core promoter was responsible for this down-regulation. Western blot analyses revealed that 5-aza-CR reactivated p16 expression and repressed c-Myc expression in TSU-PR1 cells but not in DU-145 cells. Overexpression of p16 in TSU-PR1 cells led to significant repression of c-Myc transcription. These findings suggest that 5-aza-CR inhibits telomerase activity via transcriptional repression of hTERT, in which p16 and c-Myc may play a key role.
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PMID:Demethylating reagent 5-azacytidine inhibits telomerase activity in human prostate cancer cells through transcriptional repression of hTERT. 1091 36

Progression to androgen independence remains the main problem that impacts on survival and quality of life in prostate cancer patients. We have investigated the potency of tributyrin, an orally available prodrug of butyrate, to induce growth arrest, differentiation and apoptosis in LNCaP, PC-3 and TSU-PR1 human prostate cancer cell lines. Cells were treated with 0.1 to 5 mM tributyrin or sodium butyrate. Growth inhibition, cell cycle arrest and apoptosis induction was assessed using standard methods. Both agents induced a more differentiated, fibroblast-like phenotype in androgen-sensitive as well as androgen-resistant cell lines. Expression of prostate-specific antigen was increased in LNCaP cells by tributyrin as a indicator of differentiation. The IC(50) for sodium butyrate was 2.5 mM in PC-3 and TSU-PR1 cells. LNCaP cells exhibited <50% growth inhibition at 5 mM sodium butyrate. However, the IC(50) for tributyrin was 0.8 mM in PC-3 cells, 1.2 mM in TSU-PR1 cells and 3.1 mM in LNCaP cells. Flow cytometry revealed a strong G1-arrest after exposure to tributyrin or sodium butyrate. Both agents resulted in a strong increase of apoptosis rates compared with mock-treated cells. Overall, tributyrin had a 2.5- to 3-fold growth inhibitory and apoptosis-inducing potency compared with equimolar concentrations of sodium butyrate. Our results demonstrate that tributyrin is more potent than butyrate in regard to cell growth inhibition and apoptosis induction at pharmacologically relevant concentrations. Hence, tributyrin may be a promising candidate for clinical protocols in prostate cancer.
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PMID:Tributyrin induces differentiation, growth arrest and apoptosis in androgen-sensitive and androgen-resistant human prostate cancer cell lines. 1100 76

Intrinsic and acquired antineoplastic drug resistance remain a major problem for advanced prostate cancer treatment. In order to characterize mechanisms of anti-neoplastic drug resistance in human prostate cancer cell lines, resistant sublines of four of the commonly studied prostate cancer cell lines (DU 145, PC-3, PPC-1, and TSU-PR1) were selected following exposure to increasing concentrations of doxorubicin (from 10-1000 nM). Sensitivity patterns of the parent and doxorubicin-resistant sublines to various anti-neoplastic drugs, including adriamycin, amsacrine, etoposide, camptothecin, vinblastine, vincristine, fluorodeoxyuridine, and melphalan, were determined using a sulforhodamine B growth inhibition assay. The expression of three well-described antineoplastic drug resistance proteins, P-glycoprotein (P-gp), multidrug resistance-associated protein (MRP), and lung resistance protein (LRP), was assessed using reverse transcriptase-polymerase chain reaction (RT-PCR) assays specific for each of the mRNA species, and using immunocytochemical staining procedures specific for each of the polypeptides. All four of the doxorubicin-selected prostate cancer cell lines exhibited a multidrug resistance phenotype; administration of verapamil restored doxorubicin sensitivity for each of the drug resistant sublines. Although significant MDR1 expression was not detected in any of the parent cell lines before drug exposure by RT-PCR analysis or by immunocytochemistry, both MDR1 mRNA and P-gp protein were expressed by the TSU-PR1 Adr 1000 subline. In contrast, MRP mRNA and protein were present in each of the prostate cancer cell lines before doxorubicin-selection, and an increase in MRP expression appeared to accompany the acquisition of drug resistance in DU 145, PC-3, and PPC-1 doxorubicin-resistant sublines. LRP was variably expressed by each of the parent and resistant cell lines. These data suggest that drug resistance in human prostate cancer may be multifactorial, with MRP and LRP frequently expressed in prostate cancer cells before antineoplastic drug treatment and P-gp expression occasionally acquired after drug exposure.
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PMID:Doxorubicin-resistant variants of human prostate cancer cell lines DU 145, PC-3, PPC-1, and TSU-PR1: characterization of biochemical determinants of antineoplastic drug sensitivity. 1107 91


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