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:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neoangiogenesis is a prerequisite for tumor growth and metastasis. In germ cell cancer patients with the disease limited to the testicle (stage A), tumor-associated neovascularization is predictive of metastatic disease (stage B). To investigate the molecular mechanisms underlying neovascularization in human germ cell tumors (GCTs), we analysed the expression of two angiogenic growth factors, vascular endothelial growth factor (VEGF) and placenta growth factor (P1GF), and of their receptors (FLT-1) and Flk-1/KDR) in a panel of testicular tumors. In this study we show a marked increase in VEGF expression in 36/44 (81.8%) primary testicular-derived GCTs, as compared to normal testis, that significantly correlates with a high density of intratumor microvessels (r = 0.72461, P < 0.001; n = 24). As determined by RT - PCR and/or Western blot, the predominant VEGF isoforms expressed in GCTs are the VEGF121 and VEGF165, which are more efficiently secreted by the cells, and thus more active in eliciting angiogenesis. Conversely, in the case of PIGF, only a weak correlation with the vascular density of tumors is observed (r = 0.26599, P < 0.05; n = 24). Northern blot analysis also revealed significant up-regulation of VEGF/ PIGF receptors in highly vascularized germ cell tumors, compared to normal testes. These findings suggest that VEGF may act in a paracrine manner to induce neovascularization, oedema extravasation and cyst formation in human germ cell tumors. The correlation between VEGF expression and the vascular density of tumors, suggest that the evaluation of VEGF expression may be of help in predicting patients at risk for metastatic diseases. Finally, we demonstrate that VEGF up-regulation may occur at the RNA level since no gene amplification is observed; conversely, in in vitro models such as the embryonal stem cell line NTERA-2 and the choricarcinoma JEG-3 cell line, VEGF (but not PIGF) mRNA expression is regulated by hypoxic stress.
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PMID:Neovascularization in human germ cell tumors correlates with a marked increase in the expression of the vascular endothelial growth factor but not the placenta-derived growth factor. 876 Feb 99

We took advantage of the anti-idiotypic strategy to design circulating probes mimicking the biological effects of VEGF (vascular endothelial growth factor) or FGF2 (fibroblast growth factor 2). The activation of the VEGF receptor KDR/flk-1 induced endothelial cell proliferation but not their migration, whereas that of the FGF receptor FGF-R1 gave opposite results. The long lasting delivery of KDR/flk-1 agonists, but not that of FGF-R1, in nude mice grafted with tumor fragments enhanced the tumor volume. Microscopic examination showed an increase in both the vascularization and the proliferation of cancer cells. In contrast, no difference in cell proliferation was observed within normal tissues.
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PMID:[Modulation of the tumoral progression by anti-idiotypic antibodies of angiogenesis factors]. 876 41

The formation of blood vessels through endothelial cell proliferation from extant vasculature (angiogenesis) is a prerequisite for the remodeling, regeneration and repair of tissue. In pathological processes, angiogenesis is a major limiting step in tumor growth and is necessary for tumor formation at metastatic sites. Angiogenesis consists of a sequence of events that include (i) dissolution of the basement membrane, (ii) migration and (iii) proliferation of endothelial cells, (iv) formation of the vascular loop, and (v) formation of a new basement membrane. A variety of factors control and regulate these multiple steps during which the endothelium gives rise to new vessels. Growth factors such as vascular endothelial growth factor or platelet-derived growth factor act directly on endothelial cells and/or activate inflammatory cells (monocytes and T lymphocytes) which in turn synthesize angiogenic factors. SPARC (Secreted Protein Acidic and Rich in Cytsteine), in conjunction with other known angiogenic factors, might act pleiotropically during angiogenesis. Recently, angiostatin, a novel endogenous inhibitor of metastasis, has been reported. This protein, a cleavage product of plasminogen, most likely acts through inhibition of angiogenesis. Current research is focused on the angiogenic and antiangiogenic properties of SPARC and angiostatin and will provide us with a better understanding of how these important factors regulate angiogenesis.
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PMID:Regulation of angiogenesis by SPARC and angiostatin: implications for tumor cell biology. 877 99

Capillary hemangioblastomas and hemangiopericytomas are highly vascular central nervous system tumors of controversial origin. Of interest in their pathogenesis are mechanisms regulating endothelial cell growth. The endothelial cell mitogen vascular endothelial growth factor (VEGF) stimulates angiogenesis, and together with its two receptor tyrosine kinases VEGFR-1(FLT1) and VEGFR-2(KDR), is up-regulated during the malignant progression of gliomas. We have analyzed the expression of VEGF and its receptors, the related placental growth factor (PlGF) and the endothelial receptors FLT4 and Tie by in situ hybridization in capillary hemangioblastomas and hemangiopericytomas. VEGF mRNA was up-regulated in all of the hemangiopericytomas studied and highly expressed in the stromal cells of hemangioblastomas. In addition, some hemangioblastoma tumor cells expressed high levels of PlGF. Significantly elevated levels of Tie mRNA, Tie protein, VEGFR-1, and VEGFR-2 but not FLT4 mRNAs were observed in the endothelia of both tumor types. In hemangioblastomas, however, the receptors were also highly expressed by a subpopulation of stromal cells. Consistent results were obtained for a human hemangioblastoma cell line in culture. Up-regulation of the endothelial growth factors and receptors may result in autocrine or paracrine stimulation of endothelial cells and their precursors involved in the genesis of these two vascular tumors.
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PMID:Vascular growth factors and receptors in capillary hemangioblastomas and hemangiopericytomas. 877 32

Localization of activated natural killer (A-NK) cells in the microvasculature of growing tumors is the result of recognition of the intracellular and vascular cell-adhesion molecules ICAM-1 and VCAM-1 on the tumor endothelium, mediated by lymphocyte function-associated protein LFA-1 and vascular lymphocyte function-associated protein VLA-4. In vitro and in vivo studies of A-NK cell adhesion to endothelial cells showed that vascular endothelial growth factor (VEGF) promotes adhesion, whereas basic fibroblast growth factor (bFGF) inhibits adhesion through the regulation of these molecules on tumor vasculature. Thus, some angiogenic factors may facilitate lymphocyte recognition of angiogenic vessels, whereas others may provide such vessels with a mechanism that protects them from cytotoxic lymphocytes.
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PMID:During angiogenesis, vascular endothelial growth factor and basic fibroblast growth factor regulate natural killer cell adhesion to tumor endothelium. 878 49

Many tumors produce vascular endothelial growth factor (VEGF), a paracrine factor acting selectively on endothelial cells. VEGF has many effects on cultured endothelial cells and mediates angiogenesis and enhanced vascular permeability in vivo. The endothelial signal transduction pathways of VEGF represent novel targets for cancer therapy because they are readily accessible to systemically administered drugs. We have examined VEGF-stimulated signals generated in HUVEC to identify potential targets for therapeutic intervention. The transphosphatidylation reaction has been used to monitor phospholipase D (PLD) activity; total inositol phosphates have been measured after prelabeling of cells with [3H]myoinositol; and intracellular free calcium has been measured using Fura-2 fluorescence. After HUVEC-stimulation with VEGF, there is an early influx of calcium (maximal by 100 seconds) followed by activation of PLD (half maximal by 100 seconds, EC50 70 pm). The PLD activity was inhibited by reducing extracellular calcium (150 nM, 50% inhibition), exposure to 12-O-tetradecanoylphorbol 13 acetate (200 nM, 24 hours, 100% inhibition), Roche 31,8220 (10 microM, 15 minutes, 72% inhibition), or genestein (100 microM, 30 minutes, 56% inhibition), which suggests a dependence on both protein kinase C and tyrosine phosphorylation. Activation of phospholipase C-catalyzed hydrolysis of phosphatidylinositol-4,5-bisphosphate was inferred from the production of inositol phosphates, although this response was slower (half maximal by 3 minutes). The phospholipase C activity was also dependent on influx of calcium and was partially inhibited by low (150 nM) extracellular calcium. PLD may be involved in mediating a number of endothelial responses to tumor-secreted VEGF, notably cytoskeleton-dependent effects such as the cell migration involved in angiogenesis. This signal transduction pathway could represent an accessible and vulnerable target for cancer therapeutic intervention and has the novelty of being located within normal cells rather than tumor cells.
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PMID:Vascular endothelial growth factor stimulates protein kinase C-dependent phospholipase D activity in endothelial cells. 880 65

There is considerable evidence that vascular endothelial growth factor is involved in the vascularization and growth of primary tumors and in the formation of metastases. The expression of vascular endothelial growth factor depends on activated oncogenes and inactivated tumor-suppressor genes as well as several other factors, e.g., growth factors, hypoxia, and tumor promoters. Substantial expression of vascular endothelial growth factor receptors is mainly restricted to tumor vessels. The causal involvement of this angiogenic factor in the progression of the disease has been successfully evaluated using monoclonal antibodies against vascular endothelial growth factor, dominant negative receptor mutants, and antisense oligonucleotides against the messenger RNA of vascular endothelial growth factor. Thus, the vascular endothelial growth factor-signaling system seems to be an appropriate target for inhibition of tumor angiogenesis and metastasis formation.
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PMID:Tumor angiogenesis: the pivotal role of vascular endothelial growth factor. 880 95

Hypoxia induces an increase in the stability of the mRNA encoding vascular endothelial growth factor (VEGF). We have previously demonstrated that a 500-base region of the 3'-untranslated region of VEGF mRNA that is critical for stabilization of VEGF mRNA in an in vitro degradation assay forms a RNA-protein complex in a hypoxia-inducible fashion. We report here the identification of three adenylate-uridylate-rich RNA elements within this region that form an identical or closely related hypoxia-inducible RNA-protein complex. This complex is constitutively elevated in a tumor cell line lacking the wild type von Hippel-Lindau tumor suppressor gene and in which VEGF mRNA is constitutively stabilized. Furthermore, the glucose transporter-1 mRNA, which is also stabilized by hypoxia, forms a hypoxia-inducible RNA-protein complex with similar sequence and protein binding characteristics to that described for VEGF mRNA. Finally, RNA affinity purification and UV cross-linking were used to identify three proteins of 32, 28, and 17 kDa that are derived from this hypoxia-inducible RNA-protein complex.
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PMID:Hypoxia-inducible protein binding to vascular endothelial growth factor mRNA and its modulation by the von Hippel-Lindau protein. 881 Mar 20

To elucidate the phenotype of the blood vessels and the expression of the growth factors involved in angiogenesis in metastatic liver cancers, we carried out an immunohistochemical study of 57 surgically resected livers with metastatic cancer. Blood vessels in the metastatic liver cancers frequently expressed von Willebrand factor (vWF), Ulex europaeus agglutinin I (UEA I)-binding sites, alpha-smooth muscle actin (alpha-SMA), type IV collagen and laminin. Sinusoidal endothelial cells around the metastatic liver cancers were positive for vWF in 33.3% of the specimens examined and for UEA I in 28.1%. alpha-SMA-positive perisinusoidal cells accumulated in the vicinity of the metastatic liver cancers in 68.4% of the specimens. Type IV collagen was detected in the perisinusoidal space close to the metastatic cancers as well as distant from them (91.2%). Laminin was detected in the perisinusoidal space in only one specimen (1.8%). Tumour cells of the metastatic liver cancers were positive for vascular endothelial growth factor, basic fibroblast growth factor (bFGF), and acidic fibroblast growth factor (aFGF) in 78.9%, 38.4% and 7.0% of the specimens, respectively. Hepatocytes close to the metastatic liver cancers expressed bFGF more strongly than those distant from the metastatic liver cancers, and their expression of bFGF was more intense than that in the tumour cells. These results suggest that: (1) tumour vessels in metastatic liver cancers consist of endothelium, basement membrane and pericytes, (2) the sinusoids adjacent to tumours undergo capillarization, and (3) vascular endothelial growth factor may contribute to angiogenesis in metastatic liver cancer. Basic fibroblast growth factor may be responsible for the sinusoidal capillarization and the peritumoral fibrosis.
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PMID:An immunohistochemical study of tumour vessels in metastatic liver cancers and the surrounding liver tissue. 881 92

Dominantly acting transforming oncogenes are generally considered to contribute to tumor development and progression by their direct effects on tumor cell proliferation and differentiation. However, the growth of solid tumors beyond 1-2 mm in diameter requires the induction and maintenance of a tumor blood vessel supply, which is attributed in large part to the production of angiogenesis promoting growth factors by tumor cells. The mechanisms which govern the expression of angiogenesis growth factors in tumor cells are largely unknown, but dominantly acting oncogenes may have a much greater impact than hitherto realized. An example of this is the induction of expression of vascular endothelial growth factor/vascular permeability factor (VEGF/VPF) by mutant H- or K-ras oncogenes, as well as v-src and v-raf, in transformed fibroblasts or epithelial cells. Besides VEGF/VPF, mutant ras genes are known to upregulate the expression of a variety of other growth factors thought to have direct or indirect stimulating effects on angiogenesis, e.g. TGF-beta and TGF-alpha. This effect may be mediated through the ras-raf-MAP kinase signal transduction pathway, resulting in activation of transcription factors such as AP1, which can then bind to relevant sites in the promoter regions of genes encoding angiogenesis growth factors. In principle, similar events could take place after activation or overexpression of many other oncogenes, especially those which can mediate their function through ras-dependent signal transduction pathways. The regulatory effect of oncogenes on mediators of angiogenesis has some potentially important therapeutic consequences. For example, it strengthens the rationale of pharmacologically targeting oncogene products, such as mutant RAS proteins, as an anti-tumor therapeutic strategy. Such drugs may attack the source of one or more angiogenic growth factors and by doing so, function, at least in part, as anti-angiogenic agents in vivo.
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PMID:Oncogenes as inducers of tumor angiogenesis. 882 Oct 90


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