UMLS:C0344329 - FACTA Search

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Query: UMLS:C0344329 (collapse)
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Hypoxia is present in several areas of malignant tumours and is thought to result from an inadequate rate of tumour angiogenesis, vascular collapse, or both. The presence and extent of these hypoxic tumour microenvironments have recently been shown to influence tumour progression by regulating both tumour cell survival and the expression of key angiogenic molecules. Recent studies have suggested that mutations in the tumour suppressor gene, p53, may play an important role in regulating the adaptive response of tumour cells to hypoxia by enhancing their survival and release of proangiogenic factors such as vascular endothelial growth factor. It has even been suggested that hypoxia may select for the survival of the more malignant clones harbouring such genetic defects as mutations in p53. Recently, the transcription factor, NFkB, has also been implicated as a novel mediator of the effects of hypoxia and reoxygenation in tumour cells. This article reviews some of the molecular mechanisms subserving the responses of tumour cells to hypoxic stress, particularly the role and relation of NFkB and p53 in regulating this phenomenon.
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PMID:Response of tumour cells to hypoxia: role of p53 and NFkB. 971 87

Neuropilin-1 (NRP1) is a receptor for two unrelated ligands with disparate activities, vascular endothelial growth factor-165 (VEGF165), an angiogenesis factor, and semaphorin/collapsins, mediators of neuronal guidance. To determine whether semaphorin/collapsins could interact with NRP1 in nonneuronal cells, the effects of recombinant collapsin-1 on endothelial cells (EC) were examined. Collapsin-1 inhibited the motility of porcine aortic EC (PAEC) expressing NRP1 alone; coexpressing KDR and NRP1 (PAEC/KDR/NRP1), but not parental PAEC; or PAEC expressing KDR alone. The motility of PAEC expressing NRP1 was inhibited by 65-75% and this inhibition was abrogated by anti-NRP1 antibody. In contrast, VEGF165 stimulated the motility of PAEC/KDR/NRP1. When VEGF165 and collapsin-1 were added simultaneously to PAEC/KDR/NRP1, dorsal root ganglia (DRG), and COS-7/NRP1 cells, they competed with each other in EC motility, DRG collapse, and NRP1-binding assays, respectively, suggesting that the two ligands have overlapping NRP1 binding sites. Collapsin-1 rapidly disrupted the formation of lamellipodia and induced depolymerization of F-actin in an NRP1-dependent manner. In an in vitro angiogenesis assay, collapsin-1 inhibited the capillary sprouting of EC from rat aortic ring segments. These results suggest that collapsin-1 can inhibit EC motility as well as axon motility, that these inhibitory effects on motility are mediated by NRP1, and that VEGF165 and collapsin-1 compete for NRP1-binding sites.
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PMID:Neuropilin-1 mediates collapsin-1/semaphorin III inhibition of endothelial cell motility: functional competition of collapsin-1 and vascular endothelial growth factor-165. 1040 73

Despite a clinically recognized association between the lymphatics and metastasis, the biology of tumor-lymphatic interaction is not clearly understood. We report here that functional lymphatic capillaries are absent from the interior of a solid tumor, despite the presence within the tumor of the lymphangiogenic molecule vascular endothelial growth factor (VEGF)-C and endothelial cells bearing its receptor, VEGF receptor 3. Functional lymphatics, enlarged and VEGF receptor 3 positive, were detected in some tumors only at the tumor periphery (within 100 microm of the interface with normal tissue). We conclude that although lymphangiogenic factors are present, formation of functional lymphatic vessels is prevented, possibly due to collapse by the solid stress exerted by growing cancer cells.
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PMID:Absence of functional lymphatics within a murine sarcoma: a molecular and functional evaluation. 1096 69

Vascular endothelial growth factor (VEGF)-A stimulates formation of new blood vessels (angiogenesis). This process includes migration of endothelial cells from the preexisting vessel toward the source of the growth factor. We show that VEGF-A-induced migration of porcine aortic endothelial cells expressing VEGF receptor-2 (VEGFR-2) is dependent on activation of phosphoinositide 3-kinase (PI3-kinase). There is no direct interaction between VEGF receptor-2 and PI3-kinase; instead PI3-kinase is activated downstream of focal adhesion kinase (FAK) in VEGF-A-stimulated cells. Thus, VEGF-A stimulation leads to complex formation between FAK and PI3-kinase and overexpression of dominant-negative FAK decreases VEGF-A-induced PI3-kinase activation. FAK activation by VEGF-A increases with increasing concentration of growth factor, without apparent collapse of the cytoskeleton, in contrast to the effect of platelet-derived growth factor. FAK activation is mediated via the C-terminal tail of VEGFR-2 and loss of VEGF-A-induced FAK activation in cells expressing mutant VEGFR-2 correlates with loss of migration capacity. These data show that VEGF-A-induced FAK and PI3-kinase activation are required for migration of cells expressing VEGFR-2, via a pathway independent of direct interaction with the receptor.
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PMID:VEGF-induced activation of phosphoinositide 3-kinase is dependent on focal adhesion kinase. 1116 16

Neuropilin (NRP) is a 140 kDa membrane protein, with a large extracellular domain and a short cytoplasmic tail, that was isolated in 1987 from the optic tactum of Xenopus laevis. About 10 years after its isolation, NRP was identified as a receptor for semaphorin, a family of axonal chemorepellent proteins and for vascular endothelial growth factor (VEGF), a family of potent angiogenic factors. In the nervous system, NRP forms a high affinity semaphorin-binding complex with a receptor tyrosine kinase, plexin, that mediates semaphorin-induced growth cone collapse. On the endothelium, NRP is expressed together with KDR, a VEGF receptor tyrosine kinase. We have shown that NRP potentiated KDR-mediated endothelial cell migration and proliferation. Some tumor cells can express high levels of NRP, which is typically their only VEGF receptor, but do not seem to respond to VEGF directly. Possible use of NRP as a target for VEGF antagonists, in the context of antiangiogenic therapy, are described.
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PMID:Neuropilin in the midst of cell migration and retraction. 1131 12

The aim of this paper was to determine if growth factors, known to be upregulated in proliferative diabetic retinopathy, exerted combined effects on retinal endothelial cells. The authors explored the individual and collective actions of insulin-like growth factor I (IGF-I), vascular endothelial growth factor (VEGF), platelet-derived growth factor-BB (PDGF-BB), fibroblast growth factor-2 (FGF-2) and placenta growth factor (PlGF) on several parameters that reflect the angiogenic potential of endothelial cells. The effect of growth factors on cell migration and survival/proliferation was examined using primary cultures of bovine retinal endothelial cells (BREC). The authors also determined the growth factor action on capillary-like tube formation on a reconstituted basement membrane matrix and on the newly described phenomenon of secondary sprouting, in which endothelial cell colonies spontaneously survive, proliferate, migrate and invade the matrix after the original capillary-like tubes have collapsed. Sprouting cells were positive for von Willebrand factor and could aggregate into larger tubes with lumens. Incubation with VEGF+IGF-I or PlGF+FGF-2 enhanced tube stability by 40-50%, more than each growth factor alone or other combinations (5-20%). The concurrent addition of four growth factors did not improve the response seen with growth factor pairs. Surprisingly, PDGF-BB induced tube collapse. IGF-I and FGF-2 mildly enhanced BREC proliferation/survival (5-15%). However, VEGF+IGF-I or PlGF+FGF-2 increased BREC proliferation/survival by 25% under low serum conditions, whereas combinations of all four growth factors exerted a clearly synergistic effect (250% increase). PDGF-BB or FGF-2 stimulated secondary sprouting and were the only factors capable of exerting this effect alone. Even though VEGF, IGF-I or PlGF were not effective, if administered in pairs, they demonstrated increased responses. PDGF-BB was also able to enhance the effect of FGF-2+IGF-I+VEGF on BREC secondary sprouting, but not of any of them individually. No other growth factor tested was able to significantly improve the action of combinations of three other growth factors. VEGF increased cell migration in a wounded monolayer assay two-fold and PDGF-BB, 2.5 times, but other individual growth factors were ineffective. PlGF+FGF-2 enhanced cell migration more than each factor alone. VEGF+IGF-I+PlGF+FGF-2, however, increased cell migration four-fold. In summary, this study indicates that growth factors, overexpressed in diabetic retinopathy eyes, enhance the angiogenic characteristics of cultured cells (tube formation, proliferation, secondary sprouting and migration). Their effects, however, can be greatly augmented by other growth factors that alone exert little or no action. Therefore, diabetic retinal neovascularization may result from the additive or synergistic action of several growth factors.
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PMID:Effects of angiogenic growth factor combinations on retinal endothelial cells. 1207 96

Maintenance of endothelial cell tube integrity is dependent on an intact cytoskeleton. We present data indicating that rapid collapse of endothelial tubular networks in vitro occurs in a dose-dependent manner after administration of microtubule-depolymerizing reagents but not after actin depolymerization. Pretreatment of endothelial cell networks with C3 exoenzyme or recombinant adenoviruses expressing dominant negative RhoA resulted in complete blockade of tube collapse, indicating a role for RhoA in these events. Microtubule depolymerization also resulted in activation of RhoA, whereas increased expression of constitutively active RhoA induced cell rounding and apoptosis of endothelial cells. Furthermore, following treatment with the chemotherapeutic agent vinblastine, rapid capillary tube network collapse occurred followed by endothelial cell apoptosis. Vinblastine, but not control agents, induced cleavage of procaspase-3, procaspase-9, and procaspase-8, along with the known caspase targets p21-activated kinase-2 and gelsolin, indicating that tube collapse caused a defined apoptotic response. Using a model of vascular endothelial growth factor-stimulated angiogenesis in vivo, vinblastine treatment also resulted in collapse and apoptosis of angiogenic blood vessels. Apoptotic endothelial cells stained strongly for cleaved caspase-3, and terminal dUTP nick-end labeling staining revealed fragmented nuclei in vinblastine-treated but not control angiogenic areas. Together, these findings indicate that microtubule-depolymerizing agents directly induce endothelial network collapse in vitro and in vivo leading to endothelial cell apoptosis in a manner dependent on the small GTPase, RhoA. In addition, these findings reveal a novel function for microtubule disrupting chemotherapeutic agents, namely their ability to rapidly collapse newly formed angiogenic vessels, which may contribute to their effectiveness in limiting angiogenesis and tumor growth.
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PMID:Microtubule depolymerization rapidly collapses capillary tube networks in vitro and angiogenic vessels in vivo through the small GTPase Rho. 1469 32

The antioxidant N-acetyl-cysteine (NAC) has been shown to be chemopreventive in clinical studies, and in recent studies, has shown promise in preventing tumor progression. Although the effects of NAC on tumorigenesis have been associated with decreased angiogenesis, the mechanism of the anti-angiogenic activity has not been determined. In the following study, we describe a novel mechanism whereby NAC therapy blocks MDA-MB-435 breast carcinoma cell proliferation and metastasis in an in vivo tumorigenic model. Athymic nude mice bearing MDA-MB-435 xenografts were treated with systemic NAC daily for 8 weeks. NAC treatment resulted in endothelial cell apoptosis and reduction of microvascular density within the core of the tumor leading to significant tumor cell apoptosis/necrosis. Angiostatin accumulated in tumors from NAC-treated but not control animals. Additional studies using a vascular endothelial growth factor-dependent chicken chorioallantoic membrane angiogenic assay recapitulated NAC-induced endothelial apoptosis and coordinate production of angiostatin, a potent endothelial apoptotic factor. In vitro studies showed angiostatin was formed in endothelial cultures in a vascular endothelial growth factor- and NAC-dependent manner, a process that requires endothelial cell surface plasminogen activation. These results suggest that systemic NAC therapy promotes anti-angiogenesis through angiostatin production, resulting in endothelial apoptosis and vascular collapse in the tumor.
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PMID:N-acetyl-cysteine promotes angiostatin production and vascular collapse in an orthotopic model of breast cancer. 1511 15

The mechanism of tumor cell killing by OXI4503 was investigated by studying vascular functional and morphological changes post drug administration. SCID mice bearing MHEC5-T hemangioendothelioma were given a single dose of OXI4503 at 100 mg/kg. Tumor blood flow, measured by microsphere fluorescence, was reduced by 50% at 1 hr, and reached a maximum level 6-24 hr post drug treatment. Tumor vascular permeability, measured by Evan's blue and hemoglobin, increased significantly from 3 hr and peaked at 18 hr. The elevated tumor vessel permeability was accompanied by an increase in vascular endothelial growth factor (VEGF) from 1 hr post drug treatment. Immunohistochemical staining for CD31 and laminin showed that tumor blood vessels were affected as early as 3 hr but more prominent from 6 hr. From 12 hr, the vessel structure was completely destroyed. Histopathological and double immunohistochemical staining showed morphological change and induction of apoptosis in endothelial cells at 1-3 hr, followed by tumor cell necrosis from 6-72 hr. There were no statistically significant changes of Evan's blue and hemoglobin contents in liver tissue over the time course. These results suggest that OXI4503 selectively targets tumor blood vessels, and induces blood flow shutdown while it enhances tumor blood vessel permeability. The early induction of endothelial cell apoptosis leads to functional changes of tumor blood vessels and finally to the collapse of tumor vasculature, resulting in massive tumor cell necrosis. The time course of the tumor vascular response observed with OXI4503 treatment supports this drug for development as a stand alone therapy, and also lends support for the use of the drug in combination with other cancer therapies.
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PMID:Combretastatin family member OXI4503 induces tumor vascular collapse through the induction of endothelial apoptosis. 1523 40

Avascular necrosis of bone is a relatively common clinical condition caused by inflammatory conditions, steroid or other drug use, and trauma that affect many different sites in man. Revascularization of the necrotic bone is slow to occur, often resulting in bone resorption and eventual collapse of the involved bone. Rapid revascularization and subsequent bone remodeling may lead to improved outcomes. Surgical revascularization with arterovenous bundles (AV bundles) or vascularized bone grafts results in neoangiogenesis and bone remodeling. Gene transfer of an angiogenic factor to the vessel wall may be an additional strategy to further accelerate this process. In this study, we examined the effectiveness of vascular endothelial growth factor (VEGF) gene transfer to augment surgical revascularization of necrotic bone. An adenoviral vector, either with the VEGF gene (VEGF-A) or identical virus without the cDNA VEGF insert (ADV-DeltaE1) was used to transduce endothelial cells in rabbit saphenous arteries. The artery was then placed with its venae comitantes as an AV bundle into necrotic iliac crest bone in vivo. Angiogenesis in the necrotic bone was quantified by bone blood flow measurement and assessment of vessel density following microangiography. The extent of neoangiogenesis was significantly greater in the VEGF group than the control group at 1 week postoperatively.
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PMID:Vascular endothelial growth factor (VEGF) gene transfer enhances surgical revascularization of necrotic bone. 1573 64

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