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)

Previously, we demonstrated that hepatocyte growth factor/scatter factor (HGF/SF) is expressed by human bone stromal cells and is a powerful mitogen to prostatic epithelial cells in culture. Based on these observations, we hypothesized that, if prostate cancer cells in the prostate or bone environment respond to HGF/SF as a mitogen, then they must express the HGF/SF receptor, which is coded by the c-met proto-oncogene. We used immunohistochemical techniques to: 1) assess the presence and localization of c-met protein in benign and malignant human prostate tissues and 2) correlate the presence of c-met protein with tumor stage, grade and androgen sensitivity. c-met protein immunostaining was consistently observed in the basal epithelial layer of normal prostate glands but was absent in luminal epithelial cells of the peripheral and transition zones. c-met protein immunostaining was detected in 10 of 11 foci (91%) of high grade prostatic intraepithelial neoplasia (PIN). Overall, c-met protein staining was noted in 36 of 43 (84%) primary prostate cancer samples versus 2 of 11 (18%) benign prostate hyperplasia samples (p < 0.0001) and in 4 of 4 (100%) lymph node metastases, 23 of 23 (100%) bone marrow metastases and 1 of 3 (33%) other metastatic sites. There was a clear relationship between c-met protein staining and higher grade adenocarcinomas (p < 0.001). c-met protein is frequently detected in PIN and higher grade prostate cancers; future studies should evaluate the biological significance of these findings.
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PMID:c-met proto-oncogene expression in benign and malignant human prostate tissues. 753 65

An androgen-repressed human prostate cancer cell line, ARCaP, was established and characterized. This cell line was derived from the ascites fluid of a patient with advanced metastatic disease. In contrast to the behavior of androgen-dependent LNCaP and its androgen-independent C4-2 subline, androgen and estrogen suppress the growth of ARCaP cells in a dose-dependent manner in vivo and in vitro. ARCaP is tumorigenic and highly metastatic. It metastasizes to the lymph node, lung, pancreas, liver, kidney, and bone, and forms ascites fluid in athymic hosts. ARCaP cells express low levels of androgen receptor mRNA and prostate-specific antigen mRNA and protein. Immunohistochemical staining shows that ARCaP cells stain intensely for epidermal growth factor receptor, c-erb B2/neu, and c-erb B3. Staining is negative for chromogranin A and positive for bombesin, serotonin, neuron-specific enolase, and the c-met protooncogene (a hepatic growth factor/scatter factor receptor). ARCaP cells also secrete high levels of gelatinase A and B and some stromelysin, which suggests that this cell line may contain markers representing invasive adenocarcinoma with selective neuronendocrine phenotypes. Along with its repression of growth, androgen is also found to repress the expression of prostate-specific antigen in ARCaP cells as detected by a prostate-specific antigen promoter-beta-galactosidase reporter assay. Our results suggest that the androgen-repressed state may be central to prostate cancer progression and that advanced prostate cancer can progress from an androgen-independent to an androgen-repressed state.
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PMID:Androgen-repressed phenotype in human prostate cancer. 898 79

Hepatocyte growth factor acts differently depending on the organs or tumours involved. It may be produced simultaneously with its receptor, c-Met, in several types of malignant tumour cells and may exercise an autocrine regulation. To analyse the effect of hepatocyte growth factor in human prostate cancer, we conducted immunohistochemistry, in situ hybridization and the reverse transcriptase polymerase chain reaction. The first two techniques revealed the growth factor in prostate cancer cells, and the polymerase chain reaction confirmed this expression. c-Met is expressed in prostate cancer cells, but not in interstitial cells. Hepatocyte growth factor is expressed in interstitial cells, especially in hormone-treated cancer tissue, indicating that the growth factor pathway changes with the hormonal status. Low-grade tumours expressed c-Met at the plasma membrane. Higher grade tumours tended to express it in the cytoplasm, suggesting that the role of c-Met as the hepatocyte growth factor receptor was blocked in higher grade tumours. The relationship between the growth factor and its receptor is thus influenced by hormonal status and differentiation in prostate cancer and is not explained simply in terms of autocrine or paracrine action.
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PMID:Co-expression of hepatocyte growth factor and its receptor in human prostate cancer. 953 4

Prostate cancer metastases form selectively in the bone marrow. Previously we demonstrated motility was important for the formation of primary prostatic epithelial cell colonies in bone marrow stroma (BMS) co-culture. In this study we looked at the influence of motility factors on the colony formation of epithelial cells derived from benign (bPEC) or malignant (mPEC) prostate tissue. After 7 days co-culture we found that anti-scatter factor consistently inhibited prostate epithelial cell colony formation on BMS (7/7 mPEC and 4/7 bPEC samples showed significant inhibition). Antibodies against bFGF and 5T4 did not significantly affect colony formation. Addition of fibroblast conditioned media (derived from benign prostates) to co-cultures stimulated the colony formation of bPEC (170%) and mPEC (252%). This stimulation was eliminated by depletion of SF from the conditioned media. Immunohistochemical staining found c-Met expression in 5/6 bPEC cultures and 7/9 mPEC cultures. When grown in BMS co-culture expression of c-Met was positive in 3/6 bPEC and 2/7 mPEC samples. In conclusion, scatter factor influences the in vitro formation of prostate epithelial cell colonies on BMS co-culture.
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PMID:Scatter factor influences the formation of prostate epithelial cell colonies on bone marrow stroma in vitro. 1054 20

Hepatocyte growth factor (HGF) is a multifunctional cytokine which acts as a mitogen, motogen, morphogen and angiogenic factor of epithelial cells. HGF receptor is encoded by a proto-oncogene, c-met, which is overexpressed in various cancers. The role of HGF and c-Met in prostate carcinogenesis, especially in the early stages, is undefined. In this study, prostatic dysplasia and carcinomas were induced by testosterone propionate and 17 beta-estradiol in Noble rats. The expression of HGF and c-Met was assessed at a protein level by immunohistochemistry and western blot analysis. Intense immunostaining for HGF alpha and c-Met beta-chain was co-localized in dysplastic lesions and in primary and metastatic cancer cells. The levels of HGF alpha expression were similar among normal control, dysplastic and cancerous prostate tissues, as determined by western blot analysis. Immunoblot study for c-Met under reducing conditions identified two bands at 145 kDa (beta-subunit of c-Met) and 170 kDa (precursor form of c-Met) in rat liver extracts. However, two bands at approximately 220 and 245 kDa were detected in hormone-treated dysplastic prostate tissues and primary tumors. Overexpression of the 220 kDa band was observed in long-term (10-12 months) hormone-treated prostate and primary tumor extracts. Metastatic tumors consistently exhibited up-regulation of a single 245 kDa band. Under non-reducing conditions, however, protein bands of 220, 280 or 300 kDa were seen in the blots. The hormone-treated prostate tissues and metastatic tumors expressed the 220 and 300 kDa proteins, respectively. The majority of primary tumors expressed the 280 kDa protein. In summary, HGF and its receptor, c-Met, were co-expressed in dysplastic and tumor cells, suggesting that an autocrine mode of action may be involved in prostate carcinogenesis. The close correlation of expression of the high-molecular-weight isoforms of c-Met with different stages of carcinogenesis implicates that they might play differential roles in the onset, progression, growth and metastasis in prostate cancer.
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PMID:Aberrant expression of hepatocyte growth factor and its receptor, c-Met, during sex hormone-induced prostatic carcinogenesis in the Noble rat. 1113 7

The effect of HGF/SF on the association between the E-cadherin/catenin complex and the tyrosine kinase receptor c-Met, was examined in prostate cancer cells LNCap FGC. Stimulation by HGF/SF showed E-cadherin and beta-catenin to be co-precipitated and located at areas of cell-cell contact with the HGF/SF receptor c-Met, as detected by immunoprecipitation and immunofluorescence respectively. Furthermore, continued exposure to this motogen increased the level of co-precipitations between the E-cadherin/catenin complex with c-Met, and also increased tyrosine phosphorylation of c-Met. In contrast, continued stimulation by HGF/SF decreased the level of co-localised peripheral staining and increased the level of cytoplasmic staining. In conclusion, the association between the E-cadherin/catenin complex with the HGF/SF receptor c-Met, may influence or regulate intercellular adhesion in prostate cancer following stimulation by HGF/SF.
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PMID:HGF/SF modifies the interaction between its receptor c-Met, and the E-cadherin/catenin complex in prostate cancer cells. 1125 78

Our study examined the in vitro and in vivo responses of a newly discovered HGF/SF antagonist, NK4, on HGF/SF-promoted growth of human prostate cancer cells (PC-3). Nude mice were s.c. injected with either PC-3- and/or HGF/SF-producing fibroblasts (MRC5), and tumor size was measured over a 4-week period. rh-HGF/SF and/or NK4 were introduced by osmotic minipumps. An in vitro study found that NK4 significantly suppressed HGF/SF-induced invasion (HGF/SF; p < 0.01 vs. HGF/SF+NK4) and migration (HGF/SF; p < 0.05 vs. HGF/SF+NK4). Similarly, NK4 also suppressed the invasion (MRC5; p < 0.01 vs. MRC5+NK4) and migration (MRC5; p < 0.05 vs. MRC5+NK4) induced by MRC5 cells. NK4 also suppressed HGF/SF- and MRC5-induced tyrosine phosphorylation of the HGF/SF receptor Met as assessed by immunoprecipitation. Using a nude mouse model, prostate tumor volume (mm(3)) was significantly increased in both HGF/SF- (HGF/SF; p < 0.05 vs. control) and MRC5- (MRC5; p < 0.01 vs. control) treated groups compared to the control. In contrast, NK4 alone significantly reduced the growth of prostate tumors (NK4; p < 0.01 vs. control). In addition, NK4 also suppressed both HGF/SF- (HGF/SF; p < 0.01 vs. HGF/SF+NK4) and MRC5- (MRC5; p < 0.05 vs. MRC5+NK4) induced tumor growth in vivo by significantly reducing (p < 0.05) the degree of tumor angiogenesis using a recently discovered family of tumor endothelial markers (TEMs) by Q-RT-PCR analysis. In conclusion, NK4 suppresses both HGF/SF- and MRC5-induced invasion/migration of PC-3 cells in vitro. Furthermore, the HGF/SF antagonist NK4 significantly reduces prostate tumor growth in vivo by inhibiting the degree of tumor angiogenesis as determined by TEM-1 and TEM-8. Finally, our study provides evidence of the therapeutic potential of NK4 in prostate cancer development by antagonising HGF/SF-mediated events.
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PMID:The HGF/SF antagonist NK4 reverses fibroblast- and HGF-induced prostate tumor growth and angiogenesis in vivo. 1284 72

Hepatocyte growth factor (HGF) has been proposed to be an autocrine/paracrine growth factor for carcinomas of various organs. We recently demonstrated that HGF produced by prostate-derived stromal cells was a paracrine growth factor that stimulated the growth of androgen-independent prostate cancer cells in vitro and in vivo. To assess possible involvement of HGF in prostate cancer, we examined the immunohistochemical expression and localization of HGF and c-Met/HGF receptor in benign and malignant human prostate tissues. In benign glands, columnar cells generally were negative for c-Met, but basal cells were stained uniformly at a high level. In high-grade prostatic intraepithelial neoplasia (PIN) and carcinoma, more than 50% of these foci were stained uniformly. There was no difference in the frequency of positively stained cells by Gleason score. The prostate stroma stained diffusely for HGF, and the staining intensity varied depending upon the amounts of smooth-muscle cells that were stained more intensely than the connective-tissue matrix. A great majority of benign columnar cells were negative for HGF whereas high-grade PIN and carcinoma foci stained focally for HGF. Hormonal ablation therapy prior to prostatectomy did not seem to alter the expression of HGF/c-Met in carcinoma cells. These results indicate that, as the degree of neoplasia progresses, epithelial cells begin to express c-Met protein, that PIN and carcinoma may have developed a c-Met-HGF paracrine loop with the stroma, and that in some carcinoma foci an autocrine loop may operate with HGF expressed by carcinoma cells themselves.
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PMID:Immunohistochemical expression of hepatocyte growth factor and c-Met/HGF receptor in benign and malignant human prostate tissue. 1288 72

Men who die from prostate cancer do so from uncontrolled metastatic disease. A better understanding of the mechanisms involved in the progression and metastasis of prostate cancer may lead to novel therapeutic approaches to prevent its natural progression. Hepatocyte Growth Factor / Scatter factor (HGF/SF) has been demonstrated to elicit a number of key functions in numerous tissues that are important in the progression, invasion and metastasis of cancer. Studies have demonstrated that the activity of HGF/SF and its receptor c-Met are linked to disease progression in numerous cancers. However, research into these functions, which include activities as a mitogen, a motogen and an anti-apoptotic and angiogenic factor in prostate cancer are limited. This article reviews the published evidence of the roles HGF/SF plays in prostate cancer progression and highlights the clinical and therapeutic potential of research into this pleiomorphic cytokine.
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PMID:Hepatocyte growth factor/scatter factor and prostate cancer: a review. 1613 15

KAI1/CD82, a tetraspanin protein, was first identified as a metastasis suppressor in prostate cancer. How loss of CD82 expression promotes cancer metastasis is unknown. Restoration of CD82 expression to physiological levels in the metastatic prostate cell line PC3 inhibits integrin-mediated cell migration and invasion, but does not affect integrin expression. Integrin-dependent activation of the receptor kinase c-Met is dramatically reduced in CD82-expressing cells, as is c-Met activation by its ligand HGF/SF. CD82 expression also reduced integrin-induced activation and phosphorylation of the cytoplasmic tyrosine kinase Src, and its downstream substrates p130Cas and FAK Y861. Inhibition of c-Met expression or Src kinase function reduced matrigel invasion of PC3 cells to the same extent as CD82 expression. These data indicate that CD82 functions to suppress integrin-induced invasion by regulating signaling to c-Met and Src kinases, and suggests that CD82 loss may promote metastasis by removing a negative regulator of c-Met and Src signaling.
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PMID:Tetraspanin KAI1/CD82 suppresses invasion by inhibiting integrin-dependent crosstalk with c-Met receptor and Src kinases. 1633 Dec 63

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