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)

Neutral endopeptidase 24.11 (NEP) is a cell surface peptidase expressed by numerous tissues including prostatic epithelial cells. We reported that NEP inhibits prostate cancer cell proliferation and cell migration by enzymatic inactivation of neuropeptide substrates and through protein-protein interaction independent of catalytic function. The cytoplasmic domain of NEP contains a positively charged amino acid cluster, previously identified as a binding site for ezrin/radixin/moesin (ERM) proteins. We report here that NEP co-immunoprecipitates with ERM proteins in NEP-expressing LNCaP prostate cancer cells and MeWo melanoma cells. Co-immunoprecipitation showed that ERM proteins associate with wild-type NEP protein but not NEP protein containing a truncated cytoplasmic domain or point mutations replacing the positively charged amino acid cluster. In vitro binding assays showed that NEP binds directly to recombinant N terminus fragments of ERM proteins at the positively charged amino acid cluster within the NEP cytoplasmic domain. Binding of ERM proteins to NEP results in decreased binding of ERM proteins to the hyaluronan receptor CD44, a main binding partner of ERM proteins. Moreover, cells expressing wild-type NEP demonstrate decreased adhesion to hyaluronic acid and cell migration. These data suggest that NEP can affect cell adhesion and migration through direct binding to ERM proteins.
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PMID:Direct binding of neutral endopeptidase 24.11 to ezrin/radixin/moesin (ERM) proteins competes with the interaction of CD44 with ERM proteins. 1470 46

Gene methylation is an important molecular event in prostate carcinogenesis that may have diagnostic and prognostic significance. We evaluated the methylation status of eight genes implicated in prostate carcinogenesis. DNA was extracted from archived paraffin-embedded tumor blocks from 90 prostate cancer patients. Gene methylation status of eight genes (GSTP1, RASSF1A, RARbeta2, CD44, EDNRB, E-cadherin, Annexin-2, and Caveolin-1) was determined using real-time methylation-sensitive PCR techniques. Differences in gene methylation among race, tumor grade and disease stage were evaluated by chi-square test. Of the eight genes, GSTP1, RASSF1A, and RARbeta2 methylation was highly prevalent across tumors (>60% for all three genes) whereas CD44, E-cadherin and EDNRB methylation was less prevalent (33, 24 and 29%, respectively). Annexin-2 and Caveolin-1 were not methylated in any of the tumors examined. Methylation of RARbeta2, CD44 and E-cadherin was correlated with tumor grade but not stage. Interestingly, methylation of EDNRB, a gene involved in angiogenesis, was correlated with stage of disease but not tumor grade. With the possible exception of CD44, we did not observe differences in gene methylation between racial categories for the genes under study. In summary, our data suggest that evaluation of the methylation of a panel of genes may have diagnostic and prognostic utility in prostate cancer.
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PMID:A survey of gene-specific methylation in human prostate cancer among black and white men. 1503 50

The standard form of cell adhesion glycoprotein CD44 is a metastasis suppressor in prostate cancer. However, we previously showed by RT-PCR and Western blotting that cancer overexpresses unique CD44 variant v7-v10 isoforms. Muc18 is another cell adhesion marker reportedly overexpressed by prostate cancer. Matched frozen section-confirmed tumor and benign tissues were harvested from 10 prostatectomy specimens and tumor was microdissected from two lymph node metastases. Tissues were homogenized for RNA preparations, and RT-PCR was performed for the CD44v7-v10 sequence. In cultured prostate cancer cells, we caused RNA interference against CD44v9 and/or Muc18. We used PC3M cells and a derivative cell line called G(s)alpha, that constitutively expresses this G-protein and is more invasive. Lipofection was performed for a green fluorescent protein plasmid and for two 22-mer DNA fragments, cloned into a plasmid expression vector to generate hairpin, interfering dsRNA. Assays for invasion into Matrigel, a basement membrane matrix, were performed in 4-5 experiments. RT-PCR demonstrated expression of a 608 bp band representing CD44v7-v10 or a 638 bp band of CD44v6-v10 in prostate cancer tissues and metastases but not benign tissue. Cultured G(s)alpha cells overexpressed CD44v9 by comparison with PC3M cells. At 90 h after 6-hour lipofection, protein silencing was evident by Western blots. Silencing the CD44v9 expression reduced invasiveness into Matrigel to 21.6+/-7.0% in PC3M cells (P<0.001) and 31.2+/-18.3% in G(s)alpha cells (P=0.001), compared to cells exposed to transfection vehicle alone. Silencing Muc18 expression reduced invasiveness to 76.9+/-13.5% of the control value in PC3M cells (P<0.05) and 84.8+/-29.9% in G(s)alpha cells (P=0.18). Prostate cancer invasion is facilitated more by its overexpression of CD44 variant 9 than by Muc18. Its relative overexpression by G(s)alpha cells is a novel finding, suggesting a link between signal transduction and cell adhesion marker expression.
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PMID:Prostate cancer invasion is influenced more by expression of a CD44 isoform including variant 9 than by Muc18. 1510 4

Promoter methylation plays an important role in the inactivation of tumor suppressor genes during tumorigenesis. We examined the methylation status of glutathione s-transferase Pi1 (GSTP1), retinoic acid receptor beta (RARB), CD44, E-cadherin (ECAD), RAS association domain family protein 1A (RASSF1A) and endothelin B receptor (EDNRB) genes in 81 prostate cancer and 42 benign prostatic hyperpasia specimens. Genomic DNA was isolated from archived formaldehyde-fixed and paraffin-embedded tissue blocks. Methylation-specific PCR (MSP) was carried out after bisulfite treatment of genomic DNA. Methylation frequencies in prostate cancer and benign prostatic hyperplasia were 72% and 5% for GSTP1, 40% and 0% for RARB, 72% and 38% for CD44, 61% and 14% for ECAD, 49% and 19% for RASSF1A and 72% and 62% for EDNRB, respectively. Methylation of GSTP1, RARB, CD44, ECAD and RASSF1A, but not of EDNRB was detected at a statistically higher frequency in prostate cancer than in the benign prostatic hypertrophy specimens. Methylation of RARB occurred more frequently in early onset (age <55 years) as compared to late onset disease (age >70 years) (odds ratio, 8.6; 95% CI, 1.4-51.4; P=0.02). Methylation of RARB also occurred more frequently in stage III as compared to stage II disease (odds ratio, 3.2; 95% CI, 1.1-8.8; P=0.03). A methylation index (MI) was calculated as the total number of genes methylated, excluding EDNRB. A trend toward higher MI was noted in stage III as compared to stage II disease, and in Gleason score 7 as compared to Gleason score 6 tumors. Our results suggest that the methylation of selected genes in prostate cancers correlates with clinicopathological features of poor prognosis.
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PMID:Methylation of multiple genes in prostate cancer and the relationship with clinicopathological features of disease. 1528 48

Despite the development of nomograms designed to evaluate a prostate cancer (PCa) patient's prognosis, the information has been limited to PSA, clinical stage, Gleason score and tumor volume estimates. We compared the prognostic potential of 4 histologic markers, hyaluronic acid (HA), HYAL-1-type hyaluronidase (HAase), CD44v6 and microvessel density (MVD) using immunohistochemistry. HA is a glycosaminoglycan that promotes tumor metastasis. CD44 glycoproteins serve as cell surface receptors for HA, and the CD44v6 isoform is associated with tumor metastasis. HYAL-1-type HAase is expressed in tumor cells and, like other HAases, degrades HA into angiogenic fragments. Archival PCa specimens (n=66) were obtained from patients who underwent radical prostatectomy for clinically localized PCa and had a minimum follow-up of 72 months (range 72-131 months, mean 103 months). For HA, HYAL-1 and CD44v6 staining and MVD determination, a biotinylated HA-binding protein, an anti-HYAL-1 IgG, an anti-CD44v6 IgG and an anti-CD34 IgG were used, respectively. HA and HYAL-1 staining was classified as either low- or high-grade. CD44v6 staining and MVD were evaluated quantitatively and then grouped as either low- or high-grade. Using 72 months as the cut-off limit for evaluating biochemical recurrence, HA, HYAL-1, combined HA-HYAL-1, CD44v6 and MVD staining predicted progression with 96%, 84%, 84%, 68% and 76% sensitivity, respectively. Specificity was, 61% (HA), 80.5% (HYAL-1), 87.8% (HA-HYAL-1), 56.1% (CD44v6) and 61% (MVD). Sensitivity and specificity values for each marker did not change significantly in a subset of 45 patients for whom follow-up of longer than 112 months was available. In univariate analysis using the Cox proportional hazards model, preoperative PSA, Gleason sum, margin status, seminal vesicle, extraprostatic extension (EPE), HA, HYAL-1, HA-HYAL-1 and MVD, but not CD44v6, age and clinical stage, were significant in predicting biochemical recurrence (p < 0.05). In multivariate analysis using stepwise selection, only preoperative PSA (hazard ratio/unit PSA change=1.086, p < 0.0001), EPE (hazard ratio=6.22, p=0.0016) and HYAL-1 (hazard ratio=8.196, p=0.0009)/HA-HYAL-1 (hazard ratio=5.191, p=0.0021) were independent predictors of biochemical recurrence. HA was an independent predictor of prognosis if HYAL-1 staining inference was not included in the multivariate model. In our retrospective study with 72- to 131-month follow-up, EPE, preoperative PSA and HYAL-1 either alone or together with HA (i.e., combined HA-HYAL-1) were independent prognostic indicators for PCa.
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PMID:Comparison of the prognostic potential of hyaluronic acid, hyaluronidase (HYAL-1), CD44v6 and microvessel density for prostate cancer. 1530 83

The aim of this current study was to examine the significance of CD44 expression in mediating cancer cell adhesion to human bone marrow endothelial cell(s) (hBMEC). Differential CD44 expression on two metastatic prostate cancer cell lines, PC3 (CD44 +ve) and DU145 (CD44 -ve) and four breast cancer cell lines was confirmed by immunoblotting and immunocytochemistry. In cell adhesion assays, PC3 but not DU145 cells demonstrated a rapid adhesion to hBMECs. Treatment of PC3 cells with a neutralizing antibody against CD44 standard (CD44s) and CD44 splice variants decreased PC3 cell adhesion to hBMECs. Similarly, depletion of CD44 expression using RNA interference decreased the ability of PC3 cells and two CD44 +ve breast cancer cell lines (MDA-MB-231 and MDA-MB-157) to bind FITC-conjugated hyaluronan (FITC-HA) and to adhere to hBMECs. In contrast, transfection of DU145 cells or the T47D and MCF-7 breast cancer cell lines to express CD44s increased cell surface binding of FITC-HA and cell adherence to hBMECs. Treatment of PC3 and MDA-MD-231 cells but not hBMECs with hyaluronidase attenuated cell adhesion, suggesting that cell surface expression of CD44 on prostate and breast cancer cells may promote the retention of a HA coat that facilitates their initial arrest on bone marrow endothelium.
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PMID:CD44 potentiates the adherence of metastatic prostate and breast cancer cells to bone marrow endothelial cells. 1571 75

Cluster designation (CD) antigens are cell surface markers that can be used to identify constituent cell populations of an organ. We have previously determined the CD phenotype of normal prostate parenchymal cells and are now extending this analysis to prostate cancer. Since expression of CD antigens is associated with cellular differentiation, cancer cells may differ from their normal counterpart in their CD profile. Compared with luminal secretory cells, prostate adenocarcinoma cells are frequently negative for CD10 and CD13, express increased levels of the cell activation molecule CD24, and decreased levels of the apoptosis-associated multifunctional enzyme CD38. Expression of CD57, CD63, CD75s, CD107a, CD107b, CD164, and CD166 by cancer cells is similar to that of secretory cells. Prostate basal epithelial cells do not express the CD antigens characteristic of prostate secretory cells; and the basal cell CD markers, CD29, CD44, CD49b, CD49f, CD104, and nerve growth factor receptor (NGFR) are not expressed by cancer cells. The preferential expression of secretory cell-associated CD markers by prostate cancer cells suggests a closer lineage relationship between cancer cells and secretory cells than basal cells. Although the above cancer CD phenotype was the most frequently seen, some prostate cancers contained populations of CD10- and/or CD13-positive cells, and CD57-negative cells. Furthermore, the cancer phenotype of tumor metastasis is different. Despite its low frequency in primary tumors, CD10 is expressed by virtually all of the nodal metastases of prostate cancer. In addition, stromal fibromuscular cells associated with primary prostate cancer differ from stromal cells in benign prostate tissue by an increased level of expression of the cell activation molecule, CD90. In summary, our data show that the CD marker expression profile of prostate cancer cells most closely resembles that of secretory prostate epithelial cells and that some prostate cancers consist of heterogeneous cell populations as distinguished by CD-marker expression profiles.
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PMID:Heterogeneity in primary and metastatic prostate cancer as defined by cell surface CD profile. 1550 25

Normal human prostatic (NHP) epithelial cells undergo senescence in vitro and in vivo, but little is known about the tissue-specific molecular mechanisms. Here we first characterize young primary NHP cells as CK5(+)/CK18(+) intermediate basal cells that also express several other putative stem/progenitor cell markers including p63, CD44, alpha2beta1, and hTERT. When cultured in serum- and androgen-free medium, NHP cells gradually lose the expression of these markers, slow down in proliferation, and enter senescence. Several pieces of evidence implicate 15-lipoxygenase 2 (15-LOX2), a molecule with a restricted tissue expression and most abundantly expressed in adult human prostate, in the replicative senescence of NHP cells. First, the 15-LOX2 promoter activity and the mRNA and protein levels of 15-LOX2 and its multiple splice variants are upregulated in serially passaged NHP cells, which precede replicative senescence and occur in a cell-autonomous manner. Second, all immortalized prostate epithelial cells and prostate cancer cells do not express 15-LOX2. Third, PCa cells stably transfected with 15-LOX2 or 15-LOX2sv-b, a splice variant that does not possess arachidonate-metabolizing activity, show a passage-related senescence-like phenotype. Fourth, infection of early-passage NHP cells with retroviral vectors encoding 15-LOX2 or 15-LOX2sv-b induces partial cell-cycle arrest and big and flat senescence-like phenotype. Finally, 15-LOX2 protein expression in human prostate correlates with age. Together, these data suggest that 15-LOX2 may represent an endogenous prostate senescence gene and its tumor-suppressing functions might be associated with its ability to induce cell senescence.
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PMID:Cell-autonomous induction of functional tumor suppressor 15-lipoxygenase 2 (15-LOX2) contributes to replicative senescence of human prostate progenitor cells. 1575 Jun 31

DNA methylation and copy number in the genomes of three immortalized prostate epithelial and five cancer cell lines (LNCaP, PC3, PC3M, PC3M-Pro4, and PC3M-LN4) were compared using a microarray-based technique. Genomic DNA is cut with a methylation-sensitive enzyme HpaII, followed by linker ligation, polymerase chain reaction (PCR) amplification, labeling, and hybridization to an array of promoter sequences. Only those parts of the genomic DNA that have unmethylated restriction sites within a few hundred base pairs generate PCR products detectable on an array. Of 2732 promoter sequences on a test array, 504 (18.5%) showed differential hybridization between immortalized prostate epithelial and cancer cell lines. Among candidate hypermethylated genes in cancer-derived lines, there were eight (CD44, CDKN1A, ESR1, PLAU, RARB, SFN, TNFRSF6, and TSPY) previously observed in prostate cancer and 13 previously known methylation targets in other cancers (ARHI, bcl-2, BRCA1, CDKN2C, GADD45A, MTAP, PGR, SLC26A4, SPARC, SYK, TJP2, UCHL1, and WIT-1). The majority of genes that appear to be both differentially methylated and differentially regulated between prostate epithelial and cancer cell lines are novel methylation targets, including PAK6, RAD50, TLX3, PIR51, MAP2K5, INSR, FBN1, and GG2-1, representing a rich new source of candidate genes used to study the role of DNA methylation in prostate tumors.
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PMID:Survey of differentially methylated promoters in prostate cancer cell lines. 1620 77

The expression of certain CD44 variants has been linked with metastasis and tumour progression. In particular, high molecular weight forms of CD44 show restricted expression in tumours and may correlate with tumour development and metastasis. In this study, we examined the expression of CD44 variants in prostate cancer cell lines: the invasive PC-3 and DU-145, low invasive LNCaP, and two non-invasive prostate epithelial cell lines. PC-3 prostate cancer cells were transfected with a high molecular weight CD44 variant isoform, CD44v3-v10, isolated from non-invasive prostate epithelial cell lines. These transfected cells (PC-NIVO) were assessed using in vitro invasion, tumour-endothelial, growth, and migration assays. The expression of MMP-14 was examined using SDS-PAGE and Western blot analysis. Transfected PC-3 cells (PC-NIVO) were found to be less adherent to endothelial cells and had significantly reduced invasiveness compared to wild-type PC-3 or control cells. In addition, tumour cell adhesion to endothelial cells and invasiveness was increased after exposure to HGF/SF, and can be blocked by the presence of anti-CD44 antibodies. Further investigation revealed a reduction in the expression of MMP-14 in PC-NIVO cells, but not in PC-3 or control cells. In conclusion, non-invasive prostate epithelial cells express a high molecular weight CD44 isoform, CD44v3-v10, which may counteract the standard isoform function of CD44 by reducing adhesion and invasion of endothelium by prostate tumour cells through negation of the MMP-14 function.
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PMID:The influence of CD44v3-v10 on adhesion, invasion and MMP-14 expression in prostate cancer cells. 1632 56


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