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

Vascular permeability factor (VPF), also known as vascular endothelial growth factor (VEGF), increases microvascular permeability and is a specific mitogen for endothelial cells. Expression of VPF/VEGF previously was demonstrated in a variety of tumor cells, in cultures of pituitary-derived cells, and in corpus luteum. Here we present evidence, by Northern analysis and in situ hybridization, that the VPF/VEGF gene is expressed in many adult organs, including lung, kidney, adrenal gland, heart, liver, and stomach mucosa, as well as in elicited peritoneal macrophages. The highest levels of VPF/VEGF transcripts were found in epithelial cells of lung alveoli, renal glomeruli and adrenal cortex, and in cardiac myocytes. The prominence of VPF/VEGF mRNA in these tissues suggests a possible role for VPF/VEGF in regulating baseline microvascular permeability, which is essential for tissue nutrition and waste removal. We also demonstrate particularly high VPF/VEGF mRNA levels in several human tumors, where it may be involved in promoting tumor angiogenesis and stroma generation, both as an endothelial cell mitogen and indirectly by its permeability enhancing effect that leads to the deposition of a provisional fibrin gel matrix.
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PMID:Vascular permeability factor (vascular endothelial growth factor) gene is expressed differentially in normal tissues, macrophages, and tumors. 155 Sep 62

Vascular permeability factor (VPF) is a highly conserved 34-42-kD protein secreted by many tumor cells. Among the most potent vascular permeability-enhancing factors known, VPF is also a selective vascular endothelial cell mitogen, and therefore has been called vascular endothelial cell growth factor (VEGF). Our goal was to define the cellular sites of VPF (VEGF) synthesis and accumulation in tumors in vivo. Immunohistochemical studies were performed on solid and ascites guinea pig line 1 and line 10 bile duct carcinomas using antibodies directed against peptides synthesized to represent the NH2-terminal and internal sequences of VPF. These antibodies stained tumor cells and, uniformly and most intensely, the endothelium of immediately adjacent blood vessels, both preexisting and those newly induced by tumor angiogenesis. A similar pattern of VPF staining was observed in autochthonous human lymphoma. In situ hybridization demonstrated VPF mRNA in nearly all line 10 tumor cells but not in tumor blood vessels, indicating that immunohistochemical labeling of tumor vessels with antibodies to VPF peptides reflects uptake of VPF, not endogenous synthesis. VPF protein staining was evident in adjacent preexisting venules and small veins as early as 5 h after tumor transplant and plateaued at maximally intense levels in newly induced tumor vessels by approximately 5 d. VPF-stained vessels were also hyperpermeable to macromolecules as judged by their capacity to accumulate circulating colloidal carbon. In contrast, vessels more than approximately 0.5 mm distant from tumors were not hyperpermeable and did not exhibit immunohistochemical staining for VPF. Vessel staining disappeared within 24-48 h of tumor rejection. These studies indicate that VPF is synthesized by tumor cells in vivo and accumulates in nearby blood vessels, its target of action. Because leaky tumor vessels initiate a cascade of events, which include plasma extravasation and which lead ultimately to angiogenesis and tumor stroma formation, VPF may have a pivotal role in promoting tumor growth. Also, VPF immunostaining provides a new marker for tumor blood vessels that may be exploitable for tumor imaging or therapy.
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PMID:Distribution of vascular permeability factor (vascular endothelial growth factor) in tumors: concentration in tumor blood vessels. 194 Aug 5

Human vascular permeability factor (hVPF) is a glycoprotein that promotes fluid and protein leakage from blood vessels. The function of hVPF is at present unknown, but the potent bioactivities of this protein suggest that it could act during inflammation, wound healing, and tumor angiogenesis. hVPF was purified from serum-free conditioned medium of the human histiocytic lymphoma cell line U937 as a disulfide-linked dimeric 40-kDa protein that promoted dermal blood vessel leakage in guinea pigs at a dose of 20 ng (3 x 10(-9) M) and promoted in vitro endothelial cell growth at concentrations as low as 50 PM. Multiple forms of hVPF with apparent pI values greater than 7.5 were resolved using pH gradient electrophoresis. Antibodies against guinea pig vascular permeability factor were found to cross-react with hVPF. The N-terminal amino acid sequence of hVPF was similar to, but not identical with, the N-terminal sequence of guinea pig vascular permeability factor.
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PMID:Human vascular permeability factor. Isolation from U937 cells. 258 5

We have previously suggested that tumor angiogenesis in human gliomas is regulated by a paracrine mechanism involving vascular endothelial growth factor (VEGF) and flt-1 (VEGF-receptor 1). VEGF, an endothelial-cell-specific mitogen, is abundantly expressed in glioma cells which reside along necrotic areas, whereas flt-1, a tyrosine-kinase receptor for VEGF, is expressed in tumor endothelial cells, but not in endothelial cells in normal adult brain. Recently, a second tyrosine-kinase receptor which binds VEGF with high affinity, designated KDR or flk-1, has been described. We performed in situ hybridization for VEGF mRNA, flt-1 mRNA and KDR mRNA on serial sections of normal brain, low-grade and high-grade glioma specimens. We show that KDR mRNA is co-expressed with flt-1 in vascular cells in glioblastoma but not in low-grade glioma. Since flt-1 and KDR are not expressed in endothelial cells in the normal adult brain, the coordinate up-regulation of 2 receptors for VEGF appears to be a critical event which controls tumor angiogenesis. Immunocytochemistry with a monoclonal anti-VEGF antibody revealed significant amounts of VEGF protein in the same glioma cells that expressed VEGF mRNA. The largest amount of VEGF immunoreactivity, however, was detected on the vasculature of glioblastomas, the site where VEGF exerts its biological functions. These findings suggest that VEGF is produced and secreted by glioma cells and acts on tumor endothelial cells which express VEGF receptors. To further characterize VEGF-producer cells in vivo, we investigated cellular proliferation, immunoreactivity to the p53 tumor-suppressor gene product and epidermal-growth-factor-receptor (EGFR) expression on serial sections by immunocytochemistry. VEGF-producer cells did not show increased cellular proliferation, p53 immunoreactivity or EGFR immunoreactivity as compared with glioma cells which did not express VEGF. Our studies therefore do not demonstrate evidence for a growth advantage of VEGF-producer cells in vivo or VEGF induction by p53 mutation or EGFR over-expression.
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PMID:Vascular endothelial growth factor and glioma angiogenesis: coordinate induction of VEGF receptors, distribution of VEGF protein and possible in vivo regulatory mechanisms. 752 92

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

In the accompanying papers, we demonstrated that two murine ascites tumors (MOT and TA3/St) induced peritoneal lining blood vessels to become hyperpermeable to plasma proteins, leading to extravasation of fibrinogen and its clotting to cross-linked fibrin in peritoneal lining tissues (peritoneal wall, mesentery, and diaphragm). In solid tumors, vascular hyperpermeability and fibrin deposition lead to the generation of vascularized connective tissue. In order to determine whether fibrin had similar consequences in ascites tumors, the vasculature and stroma of peritoneal lining tissues were analyzed at successive intervals after i.p. tumor cell injection. In both MOT and TA3/St ascites tumors, the size and number of peritoneal lining microvessels increased significantly by 5-8 days. Subsequently, peritoneal lining vessels increased in cross-sectional area by as much as 15-fold and peritoneal vascular frequency increased by up to 11-fold. Incorporation of [3H]thymidine by mesenteric blood vessels was negligible in control animals but came to involve 20 and 40% of endothelial cells lining mesenteric vessels in MOT and TA3/St ascites tumor-bearing mice, respectively. After an early dramatic increase in cross-sectional area, peritoneal lining microvessels subsequently underwent a novel form of remodeling to smaller average size as the result of transvascular bridging by endothelial cell cytoplasmic processes. Thus, both of the ascites tumors studied here induced angiogenesis and stroma similar to that elicited when these same tumors were grown in solid form. However, stroma developed more slowly in ascites than in solid tumors and was entirely confined to a compartment (peritoneal lining tissues) that was distinct from that (peritoneal cavity) containing the majority of tumor cells and ascites fluid. These findings are consistent with the hypothesis that vascular hyperpermeability, induced in both solid and ascites tumors by tumor cell-secreted vascular permeability factor, is a common early step in tumor angiogenesis, resulting in fibrinogen extravasation, fibrin deposition, and likely other alterations of the extracellular matrix that together stimulate new vessel and fibroblast ingrowth.
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PMID:Pathogenesis of ascites tumor growth: angiogenesis, vascular remodeling, and stroma formation in the peritoneal lining. 752 35

We studied the expression of the angiogenic factor vascular permeability factor) (VPF, also called vascular endothelial growth factor), in human melanoma cells in vitro and in vivo. Melanoma lines that develop tumors with a low metastatic potential in nude mice were found to have low expression levels of VPF in vitro, and the VPF expression levels in melanoma lines that yield highly metastatic xenografts were high. However, in vivo the correlation between VPF mRNA levels and the frequency of metastasis was lost; in all xenografts equally high levels of VPF mRNA were found, independent of the parental cell line. Hence, in vivo VPF gene expression was upregulated in the low expressing lines. The external factor responsible for this induction may be hypoxia, given that we found that low oxygen tension caused a (reversible) increase in the VPF mRNA levels in otherwise low expressing melanoma lines in vitro. A melanoma line with an inducible VPF expression was engineered into a line with a constitutive VPF expression. In the xenografts from this line a change in the vascular architecture was seen, indicating that the pattern or the level of VPF expression is important for tumor angiogenesis in melanoma xenografts.
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PMID:Vascular permeability factor expression influences tumor angiogenesis in human melanoma lines xenografted to nude mice. 753 47

Angiogenesis is very important not only for embryogenesis and wound healing but also for tumor growth in vivo because vessels supply oxygen and nutrition to the tumor mass. In this study, we focused on Vascular Endothelial Growth Factor (VEGF), a newly characterized endothel-specific growth factor and investigated the expression of VEGF in 13 ovarian tumors and 3 normal ovaries by using polymerase chain reaction (PCR) analysis and Northern blot analysis. Further, we examined the expression pattern of 4 alternatively spliced forms of VEGF in these tissues. The level of VEGF mRNA was higher in 77% of ovarian tumors when compared with that in normal ovaries. Among subtypes of VEGF, 121-, 165- and 189-amino acid types were detected but 206-amino acid type was not observed in ovarian tumors. The most abundant form of VEGF was 121-amino acid type and the relative amounts of the various forms of VEGF were 121-amino acid type > 165-amino acid type >> 189-amino acid type. Expression of flt-1, a receptor for VEGF was detectable by PCR but not by Northern blot analysis. These results suggest that like other epithelial cell-derived carcinomas, ovarian tumors use the VEGF/flt-1 system for tumor angiogenesis.
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PMID:[Expression and subtype analysis of vascular endothelial growth factor (VEGF) and its receptor (flt-1) in human ovarian tumors]. 753 33

The growth of solid tumors in vivo beyond 1-2 mm in diameter requires induction and maintenance of an angiogenic response. This can occur through the release of various angiogenic growth factors from tumor cells. One such factor is vascular endothelial growth factor/vascular permeability factor (VEGF/VPF), a secreted and specific mitogen for vascular endothelial cells. We show that one of the most commonly encountered genetic changes detected in human cancer, i.e., expression of mutant ras oncogenes, is associated with marked up-regulation of VEGF/VPF in transformed epithelial cells. Thus, elevation of the levels of both VEGF/VPF mRNA and secreted functional protein were detected in human and rodent tumor cell lines expressing mutant K-ras or H-ras oncogenes, respectively. Genetic disruption of the mutant K-ras allele in human colon carcinoma cells was associated with a reduction in VEGF/VPF activity. Furthermore, pharmacological disruption of mutant RAS protein function in H-ras transformed rat intestinal epithelial cells by treatment with L-739,749 (a protein farnesyltransferase inhibitor) caused a significant suppression of VEGF/VPF. The results suggest that dominantly acting ras oncogenes may contribute to the growth of solid tumors in vivo not only by a direct effect on tumor cell proliferation but also indirectly, i.e., by facilitating tumor angiogenesis. Hence, pharmacologically targeting mutant ras oncogenes could conceivably suppress solid tumor growth in vivo, in part, by inhibiting tumor-induced angiogenesis.
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PMID:Mutant ras oncogenes upregulate VEGF/VPF expression: implications for induction and inhibition of tumor angiogenesis. 755 32

Vascular endothelial growth factor (VEGF)--also known as vascular permeability factor--has been implicated in the regulation of blood vessel formation, i.e., vasculogenesis and angiogenesis. High amounts of VEGF mRNA and protein have been detected during embryonic and tumor angiogenesis, but it remained unclear whether the level of VEGF correlated with the extent of vascularization in a given organ or tissue. We examined the role of VEGF and the high affinity, signal-transducing VEGF receptor-2 (flk-1) in the avian embryo. In a gain of function transgene-like approach the retroviral expression vector RCAS was used to increase the level of quail VEGF during critical periods of avian limb bud growth and morphogenesis. In contrast to basic fibroblast growth factor, which recently was demonstrated to induce morphogenetic alterations when overexpressed in this system, overexpression of VEGF in the limb bud exclusively resulted in hypervascularization as reflected by an increase in vascular density. However, cartilage expressing the construct was not vascularized prematurely. Thus hypervascularization was probably due to the augmentation of the VEGF signaling mechanism in a permissive environment. In addition to hypervascularization, vascular permeability was dramatically increased, leading to local and in some cases to general edema. This is the first indication of a link between the functions of VEGF as a vascular growth factor and as a permeability factor. VEGF receptor-2 (flk-1) was found to be upregulated only in those areas where VEGF was overexpressed. This implies a positive feedback system of the VEGF receptor on its own synthesis and would provide a basis for a paracrine system in which ligand concentration is critical for the extent of tissue vascularization. Our results show that the VEGF/VEGF-receptor system is specific and sufficient for the formation of new blood vessels. They also have implications for somatic gene therapy of diseases which are characterized by a lack of blood vessels such as chronic ischemic diseases of heart and brain.
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PMID:Overexpression of vascular endothelial growth factor in the avian embryo induces hypervascularization and increased vascular permeability without alterations of embryonic pattern formation. 755 23


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