UMLS:C1519670 - FACTA Search

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Query: UMLS:C1519670 (tumor angiogenesis)
6,052 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Monoclonal antibodies against the high affinity tyrosine kinase Fibroblast Growth Factor (FGF) receptor may help define receptor epitopes involved in FGF binding and signal transduction which mediate coronary and tumor angiogenesis (the development of blood vessels). Monoclonal antibodies against the FGF receptor were made by in vitro immunization. Receptor was PAGE-purified and transblotted to nitrocellulose. The nitrocellulose was dissolved with acetonitrile, and the receptor used as antigen in an in vitro immunization system. Screening for FGF receptor positive clones was done using membrane preparations from Coronary Venular Endothelial Cells (CVEC) expressing the FGF receptor, both by Enzyme Linked Immunosorbent Assay (ELISA) and Western blot. Culture supernatants of several clones tested positive for IgM or IgG monoclonal antibodies against the FGF receptor. Antibodies were affinity purified. Ascites fluid was produced in Balb/c mice primed with Incomplete Freund's adjuvant (IFA). The monoclonal antibodies were also found to be suitable for receptor immunoprecipitation. Immunocytochemistry was done on sections from a variety of species. Further characterization of these antibodies, as well as the production of the remainder of a panel of anti-FGF receptor monoclonal antibodies, is underway.
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PMID:Production of anti-fibroblast growth factor receptor monoclonal antibodies by in vitro immunization. 129 53

In primary malignant brain tumors increased vascularity and marked edema strongly suggest a possible role of the vascular endothelial growth factor/vascular permeability factor (VEGF/VPF). This was confirmed by earlier in situ hybridization studies, by analysis of the expression of the mitogen in different subsets of glioblastoma cells, and by the fact that the VEGF/VPF receptor flt-1 (fms-like tyrosine kinase) is up-regulated in tumor cells in vivo. To assess and quantify the expression of the VEGF/VPF gene and of the receptor gene, 26 surgical specimens of brain tumor tissue from 24 patients were analyzed. In most malignant gliomas, the expression level of the VEGF/VPF gene is elevated and can be increased up to 20- to 50-fold in comparison with low-grade tumors. Using polymerase chain reaction-based amplification, it could be shown that the messenger RNAs of three different VEGF/VPF forms are synthesized in tumor tissue samples. Northern blot studies revealed that in some samples a significant expression of the gene coding for placenta growth factor, a growth factor closely related to VEGF/VPF, was observed. In addition, using a radioreceptor assay it was possible to detect high VEGF/VPF-like activity in the cyst fluids of brain tumors, indicating the accumulation of the mitogen and permeability factor in brain tumor cysts. Further investigations revealed that astrocytoma and glioblastoma cells in culture express the VEGF/VPF gene and secrete the VEGF/VPF protein, whereas gene expression of the two known VEGF/VPF receptors, kinase insert domain-containing receptor and flt-1, could not be detected. These data support previous reports, which stated that VEGF/VPF acts as a paracrine growth and permeability factor in brain tumors and may contribute to tumor growth by initiating tumor angiogenesis.
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PMID:Detection and quantification of vascular endothelial growth factor/vascular permeability factor in brain tumor tissue and cyst fluid: the key to angiogenesis? 752 59

Intracranial tumor classification is paralleled by a grading system that empirically compares tumor entities with "progression stages" of supratentorial gliomas of the adult. This grading system is an integral part of the WHO classification. Glioma progression has originally been defined by descriptive morphology. In this respect, morphological key features of high-grade gliomas (WHO grades III and IV) are microvascular proliferation and the formation of tumor necroses. Glioma progression is now more accurately defined on the molecular genetic level by a stepwise accumulation of oncogene activation and/or tumor suppressor gene inactivation. Angiogenesis occurs during development and progression of glial tumors. Pathological vessels are a hallmark of malignant glioma and it has therefore been suggested that malignant glioma cells are able to induce neovascularization. Despite the exuberant neovascularisation, however, vascular supply may not be sufficient for tumor areas with high cell proliferation, and necroses may develop. Malignant transformation of blood vessel itself is a rare event but may be the underlying mechanism of gliosarcoma development. The recently purified vascular endothelial growth factor (VEGF) is at present the only mitogen known to selectively act on endothelial cells. Growing evidence suggests that VEGF is the key regulator of developmental and pathological angiogenesis. In vivo, VEGF mRNA is upregulated in a subpopulation of malignant glioma cells adjacent to necroses. Since VEGF is hypoxia-inducible, hypoxia may be an important regulator of VEGF mRNA expression and tumor angiogenesis in vivo. Two tyrosine kinase receptors for VEGF are expressed in vessels which invade the tumor, suggesting that tumor angiogenesis is regulated by a paracrine mechanism.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vascular morphology and angiogenesis in glial tumors. 758 Jan 12

We have recently shown that vascular endothelial growth factor (VEGF) is produced by human malignant glioma cells and acts on tumor endothelial cells, which express VEGF receptors, suggesting that VEGF is a regulator of tumor angiogenesis. To investigate the feasibility of antiangiogenic brain tumor therapy, we developed an intracerebral (i.c.) rat glioma model. We used two transplantable rat glioma cells lines, C6 and GS-9L, to analyze VEGF regulation in vitro and expression of VEGF and its high affinity tyrosine kinase receptors, flt-1 and flk-1, in vivo. Glioma cells were transplanted i.c. or s.c. into syngeneic rats. C6 gliomas exhibit morphological characteristics of human glioblastoma multiforme such as necroses with palisading cells. Immunocytochemistry with von Willebrand factor showed that C6 gliomas are highly vascularized and therefore show another prominent feature of human glioblastoma. GS-9L gliosarcomas were less vascularized. In situ hybridization showed that VEGF is expressed in vivo in rat glioma cells which reside along necrotic areas and therefore closely mimicks the expression pattern of VEGF observed in human glioblastoma. flt-1 and flk-1 are specifically expressed in endothelial cells in the tumor and at the border between tumor and normal brain but are absent from endothelial cells in the normal brain proper. The action of VEGF may therefore be restricted to tumor endothelium. Upregulation of VEGF, but not acid fibroblast growth factor, basic fibroblast growth factor, and platelet-derived growth factor B messenger RNA was observed in hypoxic C6 and GS-9L cells in vitro. These observations are consistent with a role for VEGF in tumor- and hypoxia-induced angiogenesis. Since the expression pattern of VEGF and its receptors in rat glioma appears to be indistinguishable from human glioblastoma multiforme, this model provides an excellent tool to study anti-angiogenic therapy.
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PMID:Up-regulation of vascular endothelial growth factor and its cognate receptors in a rat glioma model of tumor angiogenesis. 769 95

Vascular endothelial growth factor (VEGF) may modulate vascular permeability, chemotaxis for monocytes, and protease activity. In addition, VEGF may play a role in embryonic and tumor angiogenesis. In fetal mouse kidney, VEGF mRNA and protein expression have been demonstrated. This finding led to the hypothesis that VEGF might be involved in renal growth and development. To further elucidate the role of VEGF in human kidney, expression of VEGF and its receptors, the specific tyrosine kinase receptors, fit-1 and KDR, were studied. In fetal (6-24 gestational wk; mesonephros and metanephros) and adult kidney, VEGF mRNA and protein could be colocalized in glomerular epithelia and collecting duct cells by in situ hybridization and immunohistology. By reverse transcription-polymerase chain reaction, mRNA of three VEGF isoforms, VEGF121, VEGF165, and VEGF189, were found in fetal kidney and cortex, isolated glomeruli, and medulla of adult human kidney. KDR and flt-1 mRNA were coexpressed in endothelia of glomeruli and in peritubular capillaries in fetal and adult kidney. These data support the assumption that VEGF and its receptors may influence renal ontogenesis. We speculate that the constitutive expression of VEGF in adult kidney may be required for the function of VEGF receptor positive-fenestrated endothelia in glomeruli and postglomerular vessels. The expression of VEGF in collecting duct and of its receptors in medullary capillaries may in addition be relevant for maintaining medullary osmolality.
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PMID:Expression of vascular endothelial growth factor and its receptors in human renal ontogenesis and in adult kidney. 786 62

Scatter factor (hepatocyte growth factor) is a mesenchyme-derived cytokine that stimulates motility, proliferation, and morphogenesis of epithelia. These responses are transduced through the c-met protooncogene product, a transmembrane tyrosine kinase that functions as the SF receptor. SF is a potent angiogenic molecule, and its angiogenic activity is mediated primarily through direct actions on endothelial cells. These include stimulation of cell motility, proliferation, protease production, invasion, and organization into capillary-like tubes. SF is chronically overexpressed in tumors, suggesting that it may function as a tumor angiogenesis factor. SF production in tumors may be due, in part, to an abnormal tumor-stroma interaction, in which the tumor cells secrete factors (SF-IFs) that stimulate SF production by tumor-associated stromal cells. Studies suggest a link between tumor suppressors (antioncogenes) and inhibition of angiogenesis. We hypothesize that tumor suppressor gene mutations may contribute to the activation of an SF-IF-->SF-->c-met pathway, leading to an invasive and angiogenic tumor phenotype. Modulation of this pathway may, ultimately, provide clinically useful methods of enhancing or inhibiting angiogenesis.
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PMID:Scatter factor and angiogenesis. 857 17

A novel receptor-type tyrosine kinase gene flt (fms-like tyrosine kinase, flt-1) was isolated from human placenta cDNA library. Flt-1 receptor carries a ligand binding domain which contains seven immunoglobulin-like stretches. Further, Flt-1 tyrosine kinase domain is separated by an approximately 70 amino acid-insert region similar to the cases of Fms/Kit/PDGF-R (fms family). However, unlike the fms family members, Flt-1 insert region does not contain "Tyr-X-X-Met" motif, which is known to be important for signal transduction and for the binding of P13 kinase to the receptor. Thus, a unique structure of Flt-1 suggests that a signal transduction pathway from Flt receptor is different from that in the fms family. The expression of flt-1 gene is detectable in a variety of normal tissues, and cell fractionation studies indicate that the flt-1 mRNA is highly expressed in endothelial cell-enriched fraction. VEGF, which has recently been reported as a ligand for Flt-1 receptor, dramatically stimulated growth of endothelial cells in culture. Many human tumors were found to express VEGF mRNA but not Flt-1 message, suggesting a paracrine mechanism for tumor angiogenesis. Interestingly, VEGF could not stimulate proliferation of Flt-1-overexpressing NIH3T3 fibroblast cells. These results suggest that Flt-1 is an endothel-specific growth factor receptor and that the signal transducing pathway through Flt-1 receptor is inactive in the fibroblast background.
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PMID:Possible involvement of VEGF-FLT tyrosine kinase receptor system in normal and tumor angiogenesis. 898 73

Scatter factor (SF) (also known as hepatocyte growth factor) is a plasminogen-related growth factor that induces tumor cell motility, invasion, and angiogenesis. Its receptor is a tyrosine kinase encoded by c-met, a protooncogene. Human breast cancer cells express SF and c-met in vivo; but human breast cancer cell lines do not produce SF in vitro. To determine whether SF can modulate the in vivo growth of human breast cancers within a natural mammary environment, we studied the orthotopic growth of SF-transfected (SF+) versus control (SF-) clones of MDAMB231 human mammary carcinoma cells in the mammary fat pads of athymic nude mice. SF+ clones expressed SF mRNA and produced very high titers of SF protein, whereas SF- clones did not express SF mRNA or produce detectable SF protein. Two SF+ clones (21 and 29) showed significantly increased tumor growth rates, reaching 3- to 4-fold larger primary tumor volumes and weights by time of killing (p < 0.001), as well as higher rates of axillary lymph node metastasis (p < 0.02), as compared with two SF- clones (32 and 34). In contrast, in vitro proliferation rates, two-dimensional colony formation, and soft agar colony formation were no greater in SF+ than in SF- clones. We performed further studies to investigate the discrepancy between the in vivo and in vitro growth results. Tumor extracts from SF+ clone (21 + 29) tumors had 50-fold higher SF content than did SF- clone (32 + 34) tumors, confirming high-level SF expression in vivo in SF+ tumors. Immunostaining of tumor sections for proliferating cell nuclear antigen revealed only a modest increase in the proportion of cycling cells in SF+ versus SF- tumors (70% versus 60%, respectively). The terminal deoxytransferase-labeling index was equally low (approximately 1%) in SF+ and SF- tumors, suggesting that apoptosis was not responsible for the slower growth of SF- tumors. However, SF+ tumors had significantly higher tumor microvessel densities than SF- tumors (p < 0.001). Moreover, there were much higher titers of chemotactic activity for microvascular endothelial cells in cell-conditioned media and primary tumor extracts from SF+ clones as compared with SF- clones. As demonstrated using the rat cornea assay, there was more angiogenic activity in SF+ tumor extracts than in SF- extracts. The increased chemotactic and angiogenic activities in SF+ tumor extracts were not explained by secondary alterations in the content of the angiogenic mediator, vascular endothelial growth factor, or the antiangiogenic glycoprotein, thrombospondin-1; and those activities were neutralized using an anti-SF monoclonal antibody. These findings suggest that SF promotes the orthotopic growth of human breast cancers, at least in part, by stimulating tumor angiogenesis.
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PMID:Scatter factor stimulates tumor growth and tumor angiogenesis in human breast cancers in the mammary fat pads of nude mice. 912 Nov 17

Vascular endothelial growth factor (VEGF) and its tyrosine kinase receptors VEGFR-1 (flt-1) and VEGFR-2 (flk-1/KDR) are key mediators of physiological and pathological angiogenesis. They are expressed in most tissues during embryonic development but are down-regulated in the adult, when angiogenesis ceases. Up-regulation of VEGFR-2 and of VEGF are observed in many pathological conditions under which angiogenesis is reinduced. A major regulator of VEGF expression is hypoxia. Although the temporal expression pattern of VEGFR-2 parallels VEGF expression to a high extent, little is known about its regulation. Here, we show that VEGFR-2 is highly expressed in early postnatal mouse brain but is down-regulated commencing at postnatal day 15 (P15) of mouse brain development and is hardly detectable in P30 mouse brain. Using P30 mouse brain slices, we observed that hypoxia up-regulates VEGFR-2 in the slices but not in human umbilical vein endothelial cells, suggesting the presence of a hypoxia-inducible factor in the murine neuroectoderm that up-regulates VEGFR-2. To identify the factors involved, normoxic P30 cerebral slices were cultured with growth factors that are either hypoxia-inducible (e.g., PDGF-BB, erythropoietin, and VEGF) and/or are known to act on endothelial cells (e.g., PDGF-BB, VEGF, and PIGF). Exogenously added recombinant VEGF led to an up-regulation of VEGFR-2 expression, which could be inhibited by preincubation with a neutralizing anti-VEGF antibody. Addition of PDGF-BB, PIGF, and erythropoietin had no effect on VEGFR-2 expression. Our results suggest a differential but synergistic regulation by hypoxia of VEGF and VEGFR-2: a direct induction of VEGF that subsequently up-regulates VEGFR-2 in endothelial cells. This autoenhancing system may represent an important mechanism of tumor angiogenesis.
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PMID:Up-regulation of flk-1/vascular endothelial growth factor receptor 2 by its ligand in a cerebral slice culture system. 928 99

Vascular endothelial cell growth factor (VEGF) plays a pivotal role in the regulation of angiogenesis by binding to its cognate receptor molecule type II (VEGFr-II, KDR). VEGFr-II is an endothelial cell-specific transmembrane tyrosine kinase important for vascular endothelial cell development and differentiation during embryogenesis, angiogenic processes under physiological conditions, and various diseases. An increasing number of reports indicate that VEGF/VEGFr-II also play a fundamental role for tumor angiogenesis. We present the generation and in vitro characterization of the monoclonal antibodies 2-7-9 and 2-10-1. Both antibodies are highly specific for VEGFr-II as demonstrated by Western blotting and immunoprecipitation. MAbs 2-10-1 and 2-7-9 bind to a disulphide bridge-stabilized epitope within domains 6 and 7 of the human VEGFr-II with an affinity of 8 and 80 nM, respectively. Furthermore, the antibodies are suitable for immunohistochemistry and ELISA techniques. Because both antibodies recognize their epitope on living cells, they also have the potential for drug targeting and diagnostic purposes.
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PMID:Novel antibodies directed against the extracellular domain of the human VEGF-receptor type II. 938 30

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