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

VEGF mutants in which Cys51 or Cys60 are converted into a serine are poor inducers of proliferation in human umbilical vein endothelial cells, but they have wild-type activity in the Miles vascular permeability assay. To assess the contribution of proliferation vs. other VEGF activities such as vascular permeability, to tumor angiogenesis and growth, C127I cells, transfected with BPV-based expression plasmids carrying wild-type or mutated VEGF cDNAs, were injected subcutaneously in BALB/c nu/nu mice. From C127I cells expressing wtVEGF(165), intensely vascularized and invasive tumors developed within 2 to 3 weeks. From cells expressing VEGF-Cys51Ser or VEGF-Cys60Ser, tumors developed only after 2 to 3 months, comparable to the time of development of control tumors, i.e., tumors from cells transfected with empty vector. Despite the late take, the VEGF-Cys51Ser and VEGF-Cys60Ser tumors developed an extensive vascular bed with an architecture comparable to that of recombinant wtVEGF-producing tumors whereas control tumors had a considerably lower vascular density. No metastases were detected in mice carrying either wtVEGF or mutant VEGF expressing tumors. Thus, because proliferation-defective VEGF-mutants cannot induce angiogenesis, we conclude that the proliferation-inducing effect of VEGF is crucial for tumor angiogenesis and growth. The hypervasculature in the tumors expressing these VEGF-mutants suggests, however, that other VEGF-activities, such as the induction of vascular permeability, strongly affects vascular density and vascular structure. Furthermore, neither overexpression of VEGF or a high vascular density or hyperpermeability of tumor vasculature is necessarily followed by metastasis.
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PMID:In vivo activities of mutants of vascular endothelial growth factor (VEGF) with differential in vitro activities. 1116 55

A technique that can measure tumor blood flow easily, accurately and economically is required to study tumor angiogenesis and angiogenesis inhibition. Using dye extraction colored microspheres, we measured tumor blood flow in Sato lung carcinoma (SLC) and ascites hepatoma LY80 in rats. Colored microspheres were infused into tumor-bearing rats via a catheter in the left ventricle. After removal of the tumor and the liver, the tissue samples were dissolved, and the microspheres were isolated. Dye was extracted, and the dye concentration was quantified by spectrophotometry. The dye concentration per gram of tumor was compared with that per gram of liver as follows (AU = absorbency units): [AU per gram of tumor] / [AU per gram of liver] X 100 = (%). Tumor blood flow corrected for wet weight was calculated as follows: [blood flow to tumor] = [AU per gram of tumor] X [reference withdrawal rate] / [AU per gram of reference blood]. Tumor blood flow rate was divided by tumor weight to yield ml. min-1g-1. The tumors were also examined histologically, and casts of the tumor vasculature were prepared with silicone rubber. Blood flow 2 weeks after transplantation was equivalent to 1/10 and 1/2 at 1 week in SLC and LY80 tumors, respectively (SLC, P=0.009, n=10; LY80, P=0.05, n=10). These decreases in tumor blood flow were associated with underlying pathological and vascular change. Blood flow in LY80 tumors negatively correlated with tumor volume (P=0.009, n=10). We concluded that the colored microsphere method, initially developed to measure organ blood flow, is also useful for estimating tumor blood flow in rats.
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PMID:Measurement of tumor blood flow using colored dye extraction microspheres in two rat tumor models. 1117 86

The regulation of microvascular survival impacts both developmental remodeling of the vasculature, and various microvascular pathologies. In pathological settings of vascular insufficiency, molecular targets to affect stabilization of neovascularization are needed. Conversely, an important part of anti-tumor angiogenesis is the de-stabilization of the tumor vasculature. In the study of vascular remodeling, one difficult challenge is to understand the molecular controls that allow regression of one entire vessel segment and not another. This phenomenon requires coordination of the survival signaling pathways to successfully impact vascular structure. This review describes the known mechanisms and molecules involved in microvascular and endothelial cell survival. In particular the mechanisms of molecular signaling for survival in vitro are discussed in light of what is known about microvascular survival in vivo. Possible ways to bring these data together to explain the complex regulation of vessel survival are discussed.
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PMID:The controls of microvascular survival. 1119 Oct 67

The angiogenic response of a progressing malignancy is characterized by a shift in the balance of stimulatory and inhibiting factors of angiogenesis. Recognition of the regulated steps in tumor angiogenesis provides unique targets for developing anti-tumor therapy. Vitaxin is a humanized monoclonal antibody, which has specificity for the integrin alpha v beta 3 (vitronectin receptor). This antibody can impair the vascular response of endothelial cell growth factors in vitro and inhibit tumor cell mediated angiogenesis in pre-clinical animal models. Patients with metastatic cancer who failed standard therapy received intravenous doses of 10, 50 or 200 mg in cohorts of three patients. The unlabeled dose of Vitaxin was infused on days 0 and 21 of a treatment cycle. All patients received a pre-therapy imaging dose of 1 mg of Tc-99m Vitaxin with gamma camera imaging studies. There was no significant toxicity noted in these three dose levels. There were no objective anti-tumor responses. Three patients received two cycles of therapy and had stable disease at day 85 when taken off study. Radioimaging of tumor vasculature was unsuccessful although one patient with alpha v beta 3 positive melanoma had imaging of tumor sites. There was no immune response to Vitaxin in any patient. Patients receiving 10 mg doses of Vitaxin had poor plasma recovery of injected doses and brief circulation in plasma. Doses of 50 and 200 mg had plasma recovery that better approximated the predicted levels in plasma and circulation half-lives of approximately 7 days. This data suggests that an every three-week schedule of Vitaxin at doses of 200 mg (2.5-3.5 mg/kg) can maintain circulating levels of antibody with little or no toxicity. Future studies will be challenged to define anti-tumor activity in malignancy or appropriate surrogates of anti-tumor effect and explore escalating doses and alternate schedules of administration.
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PMID:A pilot trial of Vitaxin, a humanized anti-vitronectin receptor (anti alpha v beta 3) antibody in patients with metastatic cancer. 1138 59

A variety of strategies have been proposed to control tumor growth and metastasis by inhibiting tumor angiogenesis. To optimally combine such antiangiogenic approaches with conventional therapy, improved methods are needed to characterize the underlying pathophysiologic changes. The objective of the current work was to demonstrate the utility of a combination of recently developed immunohistochemical and image analysis techniques in quantitating changes in tumor vasculature and hypoxia. Murine MCa-35 mammary carcinomas were frozen after administration of two COX-2 inhibitors: meloxicam and celecoxib (Celebrex). Total blood vessels were visualized using anti-CD31 staining, perfused vessels by intravenous injection of DiOC7, and tumor hypoxia by EF5 uptake. Although both agents produced similar reductions in tumor volume compared with untreated tumors, varied effects on tumor vasculature and hypoxia were noted. Meloxicam reduced total vessel numbers significantly, whereas celecoxib had no effect. Both drugs substantially increased perfused vessel densities. Although mean hypoxic marker uptake was unchanged from matched controls, intratumor EF5 heterogeneities were significantly different between drugs. The results suggest that COX-2 inhibitors can have varying effects on tumor pathophysiology. Successful use of these drugs to enhance radiation response will likely require optimization of drug choice, dose schedule, and direct physiologic monitoring.
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PMID:Characterization of the effects of antiangiogenic agents on tumor pathophysiology. 1158 95

A recent target of cancer gene therapy is tumor angiogenesis. An appealing feature of gene therapy targeting the tumor vasculature is that it is readily accessible, particularly when the carrier and its gene are administered systemically. Several gene-based viral and nonviral therapies that target tumor angiogenesis have demonstrated the "proof of principle" of antiangiogenic therapy in preclinical models. The utility of antiangiogenic gene therapy in a clinical setting will depend in large part on developing vectors with minimal toxicity and with increased in vivo transfection efficiency. In this review, we discuss the current status and future directions of antiangiogenic gene therapy.
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PMID:Targeting tumor angiogenesis with gene therapy. 1159 9

Eph receptors are a unique family of receptor tyrosine kinases that play critical roles in embryonic patterning, neuronal targeting, vascular development and adult neovascularization. Engagement of Eph receptors by ephrin ligands mediates critical steps of angiogenesis, including juxtacrine cell-cell contacts, cell adhesion to extracellular matrix, and cell migration. Recent evidence from in vitro angiogenesis assays and analysis of mice deficient for one or more members of the Eph family establishes the role of Eph signaling in sprouting angiogenesis and blood vessel remodeling during vascular development. Furthermore, elevated expression of Eph receptors and ephrin ligands is associated with tumors and associated tumor vasculature, suggesting that Eph receptors and their ephrin ligands also play critical roles in tumor angiogenesis and tumor growth. This review will focus on the relevance of Eph receptor signaling in embryonic and adult neovascularization, and possible contributions to tumor growth and metastasis.
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PMID:The ephrins and Eph receptors in angiogenesis. 1175 Aug 81

CM101, a polysaccharide isolated from the culture medium of Group B streptococcus, a neonatal pathogen, targets pathological angiogenesis and inhibits tumor growth in mice and humans. CM101 also targets neonatal lung and adult sheep lung endothelial cells. A gene encoding a transmembrane protein that interacts with CM101 was isolated from a sheep lung endothelial cell cDNA library. The gene, termed sp55, encodes a 495-amino acid polypeptide. COS-7 cells transfected with a vector containing sp55 express the SP55 protein-bound CM101 in a concentration-dependent manner. Stably transfected CHO cells also bound CM101. The corresponding human gene, hp59, was isolated from a human fetal lung cDNA library and had a predicted identity to SP55 of 86% over 495 amino acids. HP59 protein was shown by immunohistochemistry to be present in the pathological tumor vasculature of the lung, breast, colon, and ovary, but not in the normal vasculature, suggesting that the protein may be critical to pathological angiogenesis. The hp59 gene and/or the HP59 protein was not expressed in a variety of normal tissues, but was significantly expressed in human fetal lung, consistent with the pathophysiology of Group B streptococcus infections in neonates. Mice immunized with HP59 and SP55 peptides showed significant attenuation of tumor growth. Immunization effectively inhibited both the tumor angiogenesis and vasculogenesis processes, as evidenced by lack of both HP59- and CD34-positive vessels. These results and the immunohistochemistry data suggest a therapeutic potential for the CM101 target protein HP59 both as a drug target and as a vaccine against pathoangiogenesis.
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PMID:Identification of a novel membrane protein, HP59, with therapeutic potential as a target of tumor angiogenesis. 1175 19

Angiogenesis is widely accepted to play a central role in tumor growth and spreading. Therefore, anti-angiogenic agents appear as promising tools in cancer therapy, and great efforts have been devoted to their identification in recent years. Despite fast progress in this area, a quantitative and objective system for rapid anti-angiogenic testing is not currently available. In this work, we describe a new platform for the large-scale screening of agents with potential anti-angiogenic activity. This involved the miniaturization of an in vitro two-dimensional assay model of vascular morphogenesis to run in a high-density format (384- or 1536-well microplates) and the development of a specific digital image-analysis system for the automated and quantitative evaluation of biological activity. To test the efficacy and reproducibility of the platform, we used a wide variety of well-characterized angiogenesis inhibitors, including antibodies against components of the extracellular matrix, peptides, and chemicals. The system proved to be a reproducible, polyvalent, and powerful tool for massive screening of agents with potential application in cancer therapy. Ongoing developmental work, directed toward optimizing this system for use with a fully automated high-throughput screening platform, should accelerate research into the mechanisms of tumor angiogenesis and the development of drugs that target the essential tumor vasculature.
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PMID:Development of a computer-assisted high-throughput screening platform for anti-angiogenic testing. 1196 10

Vascular endothelial-cadherin (VE-cadherin) is an endothelial cell-specific adhesion molecule that is localized exclusively at cell-cell contacts referred to as adherens junctions. VE-cadherin-mediated adhesion is crucial for proper assembly of vascular structures during angiogenesis as well as for maintenance of a normal vascular integrity. We have shown previously that a monoclonal antibody (BV13) to VE-cadherin not only inhibits the formation of vascular tubes during tumor angiogenesis but also disrupts adherens junctions of normal vasculature with a concomitant increase in vascular permeability. The goal of the current studies was to block VE-cadherin function during angiogenesis without disrupting existing junctions on normal endothelium. Using in vitro screening assays to test for functional blocking of adherens junction formation and in vivo assays to detect antibody effects on vascular permeability in normal tissues, we have identified a novel blocking antibody (E4G10) that inhibits VE-cadherin function during angiogenesis but does not disrupt existing adherens junctions on normal vasculature. E4G10 inhibited formation of vascular tubes in vivo in the Matrigel plug and corneal micropocket assays. E4G10 also inhibited tumor growth in three models of mouse and human tumors via an antiangiogenic mechanism. Examination of normal mouse and tumor tissues showed that E4G10 bound to endothelial cells in a subset of tumor vasculature but not to normal vasculature. Bromodeoxyuridine labeling experiments showed that E4G10 specifically targeted a subset of tumor endothelium that is undergoing active cell proliferation, which likely reflects the activated, angiogenic endothelium. These findings indicate that VE-cadherin can be selectively targeted during states of pathological angiogenesis, despite its ubiquitous distribution throughout the entire vasculature. Our data also suggest that antibody E4G10 recognizes VE-cadherin epitopes that are only accessible on endothelial cells forming new adherens junctions, such as in angiogenic tumor vasculature.
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PMID:Selective targeting of angiogenic tumor vasculature by vascular endothelial-cadherin antibody inhibits tumor growth without affecting vascular permeability. 1198 Jun 51


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