UMLS:C0027627 - FACTA Search

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Query: UMLS:C0027627 (metastases)
103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human gallbladder cancer is highly malignant and its prognosis is usually poor depending on the extent of surrounding tissue invasion. We examined in vitro the invasive activity of four gallbladder cancer cell lines (GB-d1, GB-h3, GB-d2 and FU-GBC-1) in the absence or presence of hepatocyte growth factor (HGF). In type 1 collagen gel culture, HGF stimulated cell proliferation and induced an invasive phenotype of arborizing structures in GB-d1, GB-h3 and GB-d2. In a Matrigel invasion assay, invasion was also induced in three of these cell lines by HGF but not in FU-GBC-1. Cellular motility was, however, stimulated by HGF in all of the four cell lines to various extents. Zymography for proteolytic enzymes demonstrated high levels of type IV collagenase and urokinase-type plasminogen activator (u-PA) activity in GB-d1, GB-h3 and GB-d2 even in the absence of HGF. In the presence of HGF, the 72 kDa type IV collagenase (MMP-2) activity of GB-h3 and u-PA activities of GB-d1, GB-h3 and GB-d2 were enhanced. In contrast, the MMPs and PAs activities of FU-GBC-1 were faint irrespective of the addition of HGF. A Western blot analysis demonstrated higher levels of 190 kDa c-MET product (HGF receptor) of GB-d1, GB-h3 and GB-d2 than that of FU-GBC-1. The invasion in the Matrigel assay stimulated by HGF was inhibited by protease inhibitors, aprotinin and FOY-305, as well as by anti-HGF antibody. These results thus suggest that, in addition to the importance of the proteolytic activity, the cellular motility induced via the HGF/HGF-receptor system is essential for the invasive progression of gallbladder carcinoma cells.
Clin Exp Metastasis 1998 Jan
PMID:Hepatocyte growth factor stimulates the invasion of gallbladder carcinoma cell lines in vitro. 950 79

We have analysed the role of hepatocyte growth factor/scatter factor (HGF/SF) in the process of morphogenesis and metastasis of epithelial (carcinoma) cells. HGF/SF induces various morphogenic responses in epithelial cells that derive from different tissues when these are grown in three-dimensional gels, e.g. branching tubules in kidney, breast, and prostate epithelial cells, crypt-like structures with brush border in colon epithelial cells, and alveolar-like aggregates in lung and pancreas cells. Epithelial cells are thus able to form complex structures in vitro which resemble the structures formed in the organ they originate from. We also examined the response of human breast carcinoma cells to HGF/SF in vivo. MDA MB 435 cells transfected with HGF/SF were injected into the mammary fat pad of nude mice, where they form tumours which spontaneously metastasize to the lungs. We found that expression of HGF/SF promoted metastasis whereas expression of the cell adhesion molecule E-cadherin was inhibitory. Moreover, expression of E-cadherin reconstituted the ability of the cells to form complex structures in response to HGF/SF in vitro. These data demonstrate that the different responses to HGF/SF depend on the state of the epithelial cells: morphogenesis requires epithelial differentiation and cell polarity, whereas metastasis is observed when the cells have lost their epithelial characteristics. Moreover, we have recently identified Gab-1 as a direct-binding substrate of the c-Met receptor. Gab-1 binds to c-Met phosphorylated on tyrosine residues, but not to a number of other tyrosine kinases from different subfamilies. A newly identified proline-rich domain of Gab-1 is responsible for the binding to the bidentate docking site in c-Met. Expression of Gab-1 in epithelial cells is sufficient to induce c-Met-specific cellular responses which include the formation of branching tubules. Thus, Gab-1 seem to correspond to the substrate of the c-Met receptor tyrosine kinase that mediates the epithelial morphogenesis.
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PMID:Role of HGF/SF and c-Met in morphogenesis and metastasis of epithelial cells. 952 74

Rapid growth of recurrent disseminated tumor and/or metastases can occur in children after incompletely resected, non-pretreated malignant hepatoblastoma (HB). This accelerated tumor growth is observed during the first four postoperative weeks, which is the period of maximal liver regeneration. One key regulator of regeneration, the hepatocyte growth factor (HGF), may be responsible for the induction of tumor growth. We, therefore, investigated levels and sources of HGF in HB patients. With ELISA we measured elevated serum levels (> 1,000 pg/ml) of HGF in 10 of 23 HB patients in comparison with three healthy children (< 610 pg/ml). HGF values of non-pretreated children with HB ranged from 169-10,183 pg/ml (mean 889 pg/ml) while those of patients after primary chemotherapy reached 608-15,000 pg/ml (mean 4,556 pg/ml). An up to fourfold increase of HGF was detected in 10 of 12 children 24-72 hours after liver resection. With immunoenzymatic staining on cryostat sections and cytospin preparations of the tumors we could localize HGF to the fibroblasts of the mesenchymal tumor components. In contrast, its receptor (c-met) was found to be expressed on the epithelial HB cells. Our results indicate that HGF secretion is enhanced after liver resection in children with HB and thus could have a biological function for growth of HGF receptor-expressing tumor cells. The results of immunostaining further suggest that HB is able to produce HGF as its own growth factor in a local paracrine fashion.
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PMID:The occurrence of liver growth factor in hepatoblastoma. 967 93

The scatter factors, which include hepatocyte growth factor and macrophage stimulating protein, stand out from other cytokines because of their uncommon biological properties. In addition to promoting cell growth and protection from apoptosis, they are involved in the control of cell dissociation, migration into extracellular matrices, and a unique process of differentiation called 'branching morphogenesis'. Through the concerted regulation of these complex phenomena, scatter factors promote development, regeneration, and reconstruction of normal organ architecture. In transformed epithelia, scatter factors can mediate tumor invasive growth, a harmful feature of neoplastic progression in which cancer cells invade surrounding tissues, penetrate across the vascular walls, and eventually disseminate throughout the body, giving rise to systemic metastases. A much-debated issue in basic biology, which has strong implications for experimental medicine, is how to dissociate the favorable effects of growth factors from their adverse ones. Accordingly, to find agonists or antagonists with potential therapeutic applications is a crucial undertaking for current research. Domain-mapping analyses of growth factor molecules can help to isolate specific structural requirements for the induction of selective biological effects. Based on the observation that certain growth factors must undergo posttranslational modifications to exert a full response, it is possible to interfere with their activation mechanisms to modulate their functions. Finally, the identification of cell type-specific coreceptors able to potentiate their activity allows drawing of a functional body map, where some organs or tissues may be more responsive than others to growth factors. This review is focused on how, and to what extent, scatter factors can behave 'well' or 'badly' according to their molecular structure, the way they are activated, and the way they interact with cell surface receptors and coreceptors.
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PMID:Interactions between scatter factors and their receptors: hints for therapeutic applications. 976 71

The tyrosine kinase receptor Met and its ligand, hepatocyte growth factor (HGF)/scatter factor are involved in the etiology and progression of a number of human cancers. Coexpression of Met and HGF in mesenchymal cells increases the tumorigenic and metastatic potential of the cells. In the studies described here, we used differential display screening to identify changes in gene expression that are initiated by Met/HGF, and that may lead to these phenotypes. We learned that Met/HGF signaling resulted in greatly decreased fibronectin mRNA production in three different human and mouse tumor cell lines; these decreases in fibronectin mRNA were paralleled by decreases in fibronectin protein. We also found a progressive decrease in fibronectin in tumor explants and metastases derived from the Met/HGF transformed cells. The absence of fibronectin expression is a frequent cancer phenotype; our results indicate that decreases in fibronectin correlate with, but are not essential for, MetHGF/SF-mediated tumorigenesis.
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PMID:Decreased fibronectin expression in Met/HGF-mediated tumorigenesis. 976 29

The c-met oncogene encodes the receptor for hepatocyte growth factor/scatter factor, a potent mitogen for epithelial cells that also promotes cell motility and invasiveness. We have studied the changes of c-met gene expression that occur during the progression of colorectal tumors. Sixteen adenomas, 123 primitive carcinomas, and 25 liver metastases were examined. In several instances it was possible to compare same-patient samples of normal colon mucosa against primary tumor and primary carcinoma against synchronous metastasis. The expression of the c-met gene was increased from 5- to 50-fold in about 50% of tumors, at any stage of progression, and in 70% of liver metastases. Overexpression was associated with amplification of the c-met gene in only 10% of carcinomas, but in 8 of 9 metastases examined. These data suggest that overexpression of the c-met oncogene contributes a selective growth advantage to neoplastic colorectal cells at any stage of tumor progression. Moreover, amplification appears to give a further selective advantage for the acquisition of metastatic potential.
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PMID:Overexpression and amplification of the met/HGF receptor gene during the progression of colorectal cancer. 981 67

Hepatocyte growth factor (HGF) was first identified as a potent stimulator of hepatocyte growth and DNA synthesis. Later, it was shown that HGF can promote cell motility and cell proliferation in various types of cells, including tumor cells and endothelial cells. We have examined serum concentrations of HGF in breast cancer patients using an ELISA. Of 134 primary breast cancer patients, 49 (36.6%) showed a significant increase in the circulating level of HGF as compared to healthy controls. The increase in the HGF level was significantly associated with axillary lymph node metastases and histological evidence of venous invasion. No significant correlation between serum HGF concentrations and intratumoral HGF concentrations was found; however, the removal of the primary tumor clearly decreased the serum HGF level, suggesting that the elevation of HGF in the serum was tumor related. Twenty-nine (82.9%) of 35 patients with recurrent breast cancer had an increase in the serum HGF level. The HGF level was significantly higher in patients with liver metastases compared to those with other sites of metastases. Postoperative sequential examinations confirmed that the increase in the serum HGF level was associated with the appearance of relapse. In conclusion, the serum HGF level was significantly increased in breast cancer patients. Circulating HGF might play important roles in tumor progression in this malignancy.
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PMID:Serum concentrations of hepatocyte growth factor in breast cancer patients. 981 76

We examined the in vivo anti-tumor activity of the benzoic acid derivative, TAC-101 (4-[3,5-bis(trimethylsilyl)benzamido] benzoic acid), for intrahepatic spread of JHH-7 human hepatocellular carcinoma (HCC) cells and its mechanism of action. Oral administration of TAC-101 markedly inhibited liver tumor of JHH-7 cells and prolonged the life-span of tumor-bearing mice without affecting the body weight. The life-prolonging effect of TAC-101 was more effective than that of other anti-cancer agents including CDDP, 5-FU, and CPT-11 (T/C (%) of life-span; 181 to 219, 128, 133, and 142%, respectively). In vitro, TAC-101 at the concentration of more than 10 microM showed direct cytotoxicity against JHH-7 cells caused by induction of apoptosis. Hepatocyte growth factor (HGF) enhanced the invasive ability of JHH-7 cells without affecting the cell viability. Non-cytotoxic concentrations of TAC-101 inhibited the JHH-7 invasion induced by HGF and down-regulated the expression of c-MET protein in a concentration-dependent manner. In summary, these results suggest that TAC-101 would be useful for a new class of therapeutic agents and that it may improve the prognosis of patients with liver-tumors including metastasizing tumor and HCC.
Clin Exp Metastasis 1998 Oct
PMID:4-[3,5-Bis(trimethylsilyl)benzamido] benzoic acid (TAC-101) inhibits the intrahepatic spread of hepatocellular carcinoma and prolongs the life-span of tumor-bearing animals. 993 10

Angiostatin is an inhibitor of angiogenesis that is known to reduce endothelial cell proliferation and consequently prevent the progression of tumor metastases. However, the modest effect of angiostatin on endothelial cell proliferation raises the possibility that angiostatin might exert its effects on other cells. To determine the cellular distribution of angiostatin binding in tissues with neovasculature (atherosclerotic coronary arteries), we developed a fusion protein consisting of placental alkaline phosphatase and the first 3 kringles of plasminogen. Angiostatin binding colocalized with smooth muscle cells and could be inhibited by a 50-fold molar excess of plasminogen and 10 mmol/L epsilon-amino-n-caproic acid. The fusion protein also bound to smooth muscle cells in culture. Angiostatin inhibited hepatocyte growth factor-induced proliferation and migration of smooth muscle cells, suggesting that they are a target for the antiangiogenic effect of angiostatin.
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PMID:Angiostatin binds to smooth muscle cells in the coronary artery and inhibits smooth muscle cell proliferation and migration In vitro. 1047 44

The MET protooncogene, c-MET, encodes a cell surface tyrosine kinase receptor. The ligand for c-MET is hepatocyte growth factor (HGF), also known as scatter factor (SF), which is known to affect proliferation and motility of primarily epithelial cells. Recently, HGF/SF was also shown to affect haemopoiesis. Studies with epithelial and transfected NIH3T3 cells indicated that the HGF/SF-c-MET interaction promotes invasion in vitro and in vivo. We previously demonstrated that HGF/SF induces adhesion of c-MET-positive B-lymphoma cells to extracellular matrix molecules, and promoted migration and invasion in in vitro assays. Here, the effect of HGF/SF on tumorigenicity of c-MET-positive and c-MET-negative human B-lymphoma cell lines was studied in C.B-17 scid/scid (severe combined immune deficient) mice. Intravenously (i.v.) injected c-MET-positive (BJAB) as well as c-MET-negative (Daudi and Ramos cells) B-lymphoma cells formed tumours in SCID mice. The B-lymphoma cells invaded different organs, such as liver, kidney, lymph nodes, lung, gonads and the central nervous system. We assessed the effect of human HGF/SF on the dissemination of the B-lymphoma cells and found that administration of 5 microg HGF/SF to mice, injected (i.v.) with c-MET-positive lymphoma cells, significantly (P = 0.018) increased the number of metastases in lung, liver and lymph nodes. In addition, HGF/SF did not significantly influence dissemination of c-MET-negative lymphoma cells (P = 0.350 with Daudi cells and P= 0.353 with Ramos cells). Thus the effect of administration of HGF/SF on invasion of lymphoma cells is not an indirect one, e.g. via an effect on endothelial cells. Finally, we investigated the effect of HGF/SF on dissemination of c-MET-transduced Ramos cells. In response to HGF/SF, c-MET-transduced Ramos cells showed an increased migration through Matrigel in Boyden chambers compared to wild-type and control-transduced Ramos cells. The dissemination pattern of c-MET-transduced cells did not differ from control cells in in vivo experiments using SCID mice. Also no effect of HGF/SF administration could be documented, in contrast to the in vitro experiments. From our experiments can be concluded that the HGF/SF-c-MET interaction only plays a minor role in the dissemination of human B-lymphoma cells.
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PMID:HGF/SF and its receptor c-MET play a minor role in the dissemination of human B-lymphoma cells in SCID mice. 1048 11

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