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

Tumor development, growth and progression depends on an adequate vascular supply, which derives from the host vasculature. This process involves complex interactions between tumor cells and nonneoplastic vasculature, the immune system, and the connective tissues. Tumor angiogenesis refers to the development of new vessels within the tumor. An imbalance between angiogenic growth factors and inhibitors released by the tumor cells and/or endothelial and inflammatory cells is necessary to produce tumor neovascularization. In the last two decades, several studies have clarified the main aspects of this phenomenon, although further analysis will be necessary to understand if tumoral neoangiogenesis can play a pivotal role as a potential target for innovative anticancer therapies. Here, I review and update the basic aspects of tumor angiogenesis, as well as the role of the quantitative analysis of tumor vasculature as an independent prognostic indicator in human cancers.
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PMID:Angiogenesis and Cancer. 1221 75

Tumor angiogenesis is an essential step in tumor progression and metastasis formation. Suppression of tumor angiogenesis results in the inhibition of tumor growth. Recent evidence indicates that vascular integrins, in particular alpha V beta 3, are important regulators of angiogenesis, including tumor angiogenesis. Integrin alpha V beta 3 antagonists, such as blocking antibodies or peptides, suppress tumor angiogenesis and tumor progression in many preclinical tumor models. The potential therapeutic efficacy of extracellular integrin antagonists in human cancer is currently being tested in clinical trials. Selective disruption of the tumor vasculature by high doses of tumor necrosis factor (TNF) and interferon gamma (IFN-gamma), and the antiangiogenic activity of nonsteroidal anti-inflammatory drugs are associated with the suppression of integrin alpha V beta 3 function and signaling in endothelial cells. Furthermore, expression of isolated integrin cytoplasmic domains disrupts integrin-dependent adhesion, resulting in endothelial cell detachment and apoptosis. These results confirm the critical role of vascular integrins in promoting endothelial cell survival and angiogenesis and suggest that intracellular targeting of integrin function and signaling may be an alternative strategy to extracellular integrin antagonists for the therapeutic inhibition of tumor angiogenesis.
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PMID:Suppression of tumor angiogenesis through the inhibition of integrin function and signaling in endothelial cells: which side to target? 1238 Jun 40

Antiangiogenesis therapy has become a potentially promising tool to inhibit tumor growth by targeting an essential yet untransformed tissue component. Identifying the factors involved and understanding the mechanisms required for tumor angiogenesis will facilitate efficient and specific targeting. In neurofibromas, tumor growth is facilitated by a genetically and cytologically diverse mixture of cell types, including Schwann cells, fibroblast, mast cells, and neurons where nf-/- Schwann cells are most likely the tumorigenic cell type. The matrix forming nf+/- cells may provide a permissive environment, facilitating tumor development, perhaps by providing landscaping factors such as the angiogenic molecules fibroblast growth factor-2, platelet-derived growth factor, endothelial growth factor, vascular endothelial growth factor, and midkine, which have been detected in neurofibromas. Systemic overexpression of specific factors such as midkine owing to loss of one nf allele might further lower the overall threshold for tumorigenesis and development of a tumor vasculature. Targeting these heparin-binding growth factors might inhibit not only angiogenesis but also proliferation of tumor cells because most of these factors also stimulate proliferation of neurofibroma-derived Schwann cells. We discuss the role of specific secreted molecules for angiogenesis in tumors of neurofibromatosis 1 and possible Approaches for their targeting. Furthermore, results are discussed that demonstrate the efficacy of antiangiogenesis targeting to inhibit growth of neurofibrosarcomas in experimental animal models.
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PMID:Antiangiogenesis in neurofibromatosis 1. 1240 56

Tumor cells cannot grow as a mass above 2 to 3 mm3 because diffusion is insufficient for oxygen and glucose requirements, unless the tumor induces a blood supply. This mechanism of induction of a new blood supply from pre-existing vascular bed is called angiogenesis. Furthermore, tumor invasiveness and metastasis require neovascularization. In fact, recent published studies suggest that acquisition of the angiogenic phenotype is a common pathway for tumor progression and neovascularization is linked with other molecular steps leading to tumor progression. Angiogenic process is a complex multi-step cascade under the control of positive and negative soluble factors. A paracrine interaction occurs between tumor and endothelial cells. Angiogenesis involves: endothelial cell proliferation, migration and tubule formation with associated changes in the extra-cellular matrix, allowing subsequent new vessel growth toward the tumor. Each of the above steps may represent a target for antiangiogenic therapy. Antiangiogenesis is to be distinguished from direct targeting and destruction of tumor vasculature (vascular targeting). Inhibition of angiogenesis represents one of the more promising, new approaches, to anticancer treatment and its already in early clinical trials. This review takes into consideration: (i) the biological mechanism underlining angiogenesis process; (ii) the method to assess tumor angiogenesis activity; (iii) inhibition of angiogenesis as an anticancer therapy; (iv) the methodology for the clinical development of angiogenesis inhibitors, that should be considered biological response modifiers; (v) some angiogenesis antagonists that are in development and leader compounds that are under clinical trial.
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PMID:Angiogenesis and angiogenesis inhibitors: a new potential anticancer therapeutic strategy. 1247 90

Angiogenic activity and formation of a vascular network facilitate tumor perfusion and play a critical role in tumor growth and metastasis. Tumor vasculature may be visualized by means of parametric imaging of specific morphological and physiological characteristics that collectively describe its properties. In this review, we describe advanced magnetic resonance imaging (MRI) techniques that have been developed in order to image and quantify the distribution of tumor vasculature throughout the tumor and characterize its function. These techniques have been used to monitor changes in the magnetic resonance signal intensity of tissue water hydrogens generated by intrinsic effects, as well as by exogenous contrast agents administered into the blood circulation. We further describe specific applications of magnetic resonance imaging using a contrast agent, gadolinium diethylene triamine penta-acetic acid (GdDTPA), which has long been approved for clinical use. Examples include studies of the vascular properties of breast cancer tumors and metastases in animal models, as well as of breast cancer vasculature in patients. We also discuss the use of MRI to improve breast cancer diagnosis in humans by quantifying the permeability of the tumor vasculature. By maximizing the spatial resolution of the images in both animal and human studies, the capacity of magnetic resonance imaging to enhance our understanding of the processes regulating tumor angiogenesis, and improve the diagnosis of cancer, could be clearly demonstrated.
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PMID:Magnetic resonance imaging of tumor vasculature. 1254 Sep 50

Vascular endothelial growth factor (VEGF) is a primary stimulant of tumor angiogenesis. We previously raised a neutralizing anti-VEGF monoclonal antibody 2C3 that blocks the interaction of VEGF with VEGFR2 (KDR/Flk-1) but not with VEGFRI (FLT-1/flt-1). Here, we describe the therapeutic effects of 2C3 on tumor growth in an orthotopic model of MDA-MB-231 human breast carcinoma implanted in the mammary fat pads (MFP) of nude mice. Administration of 2C3 to mice with 100-150 mm3 tumors inhibited tumor growth by 75%, as compared to recipients of the isotype-matched irrelevant control IgG, C44. Treatment with 2C3 also inhibited the establishment of tumor colonies and reduced tumor burden in the lungs of mice injected intravenously with MDA-MB-231 cells. No toxicity was observed in these studies. The mean microvascular density (MVD) of tumors in 2C3-treated mice was 55 +/- 5 per mm2, as compared to 188 +/- 5 per mm2 in the C44-treated control group. The decrease in MVD closely correlated with the degree of inhibition of tumor growth. Treated tumors mostly contained mid-size and large vessels. Microvessels were mainly confined to the peripheral layer of tumor that bordered on the normal MFP epithelium. Tumor vessels had decreased expression of VEGFR2, indicating that neutralization of tumor-derived VEGF by 2C3 down-regulates the expression of VEGFR2 on tumor vasculature. This, in turn, may limit reinitiation of angiogenesis by either tumor-derived or stromal VEGF. These findings suggest that 2C3 is a candidate for treating primary cancer and for preventing the outgrowth of tumor metastases in cancer patients.
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PMID:A monoclonal antibody that blocks VEGF binding to VEGFR2 (KDR/Flk-1) inhibits vascular expression of Flk-1 and tumor growth in an orthotopic human breast cancer model. 1254 58

The emergence of angiogenesis as an important target for cancer therapy has led to increased research aimed at understanding the mechanisms underlying the development, maintenance, and destruction of tumor vasculature. Concurrently, molecular imaging technologies have been developed and are being incorporated as integral components of biomedical research due to their ability to noninvasively monitor in vivo molecular events. With the evaluation of numerous anti-angiogenic agents in clinical trials, the adaptation and validation of molecular imaging modalities for monitoring angiogenesis is actively being pursued. The importance of selecting appropriate molecular targets in the study of angiogenesis has become increasingly complex due to the pleiotropy of vascular phenotypes. Furthermore, due to both the relatively low abundance of endothelial cells in tumor tissue and the inherent difficulties of detecting molecular events, molecular imaging of vasculature necessitates continued improvements in achieving higher sensitivity. While several studies have been published that set the groundwork for imaging angiogenesis, much has yet to be accomplished. Various tumor models and transgenic mice provide an excellent resource for developing molecular imaging technologies for the understanding of angiogenesis. This research may play a particularly crucial role in evaluating mechanism and efficacy during pre-clinical testing of anti-angiogenic drugs. Due to practical limitations, however, the implementation of angiogenesis-directed molecular imaging may not extend beyond highly specialized clinical trials. That is, imaging modalities that evaluate angiogenesis at a functional level may prove more appropriate. Despite future technical challenges, molecular imaging will become an important research and clinical tool in evaluating tumor angiogenesis.
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PMID:Molecular imaging of tumor angiogenesis. 1255 5

Targeting of tumor vasculature is a promising strategy for cancer treatment. Among endothelial cell markers, Endoglin, a cell membrane glycoprotein, is emerging as an attractive therapeutic target on angiogenetic blood vessels, and it currently represents a powerful marker to quantify tumor angiogenesis. In normal human tissues, Endoglin is weakly expressed on erytroid precursors, stromal cells and activated monocytes, whereas it is strongly expressed on proliferating endothelial cells. In human neoplasias of different histotype, Endoglin is mainly present on endothelial cells of both peri- and intra-tumoral blood vessels, while it is weakly expressed or absent on neoplastic cells. Endoglin is an accessory component of the receptor complex of Transforming Growth Factor (TGF)-beta, a pleiotropic cytokine that modulates angiogenesis by the regulation of different cellular functions including proliferation, differentiation and migration. Interestingly, the over-expression of Endoglin antagonizes several cellular responses to TGF-beta1, while its down-regulation potentiates cellular responses to TGF-beta1. In animal models, administration of radiolabeled anti-Endoglin monoclonal antibodies (mAb) efficiently images primary tumors, and naked or conjugated anti-Endoglin mAb suppress angiogenesis and tumor growth. In this review we will summarize the complex of experimental evidences pointing to Endoglin as a vascular target to design innovative bioimmunotherapeutic strategies in human neoplasias.
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PMID:Endoglin (CD105): a target for anti-angiogenetic cancer therapy. 1269 49

ST1481 (gimatecan) is a novel lipophilic camptothecin with a promising preclinical pharmacological profile. On the basis of its high antitumor efficacy when delivered by the oral route, the compound is suitable for prolonged administration. This schedule of treatment has been reported as the most appropriate to exploit the antiangiogenic effects of cytotoxic drugs. The aim of the study was to investigate the antiangiogenic and antitumor effects of oral ST1481 in human tumor xenografts. In spite of a marginal drug effect against the s.c. growing A549 lung carcinoma following administration with an intermittent schedule (q4dx4 times, maximum tolerated dose: 2 mg/kg), tumor growth was strongly inhibited by a daily low-dose (0.5 mg/kg) prolonged administration. Immunohistochemical analysis showed a reduced number of microvessels in tumors of both treated groups versus controls and a significantly higher reduction in the daily versus the q4dx4-treated tumors (P < 0.0001, by Student's t test). In our experimental model, the relation between microvessel density and tumor size (r = 0.738, by the Spearman rank test) suggests a role of inhibition of tumor vasculature in tumor response. Significant inhibition of tumor angiogenesis (P < 0.0001 versus control tumors) was observed even with a very low drug dose (0.06 mg/kg) in the orthotopically implanted (i.d.) MeWo melanoma, under conditions causing minimal tumor growth inhibition. Additional evidences of the antiangiogenic activity of ST1481 were provided by antimotility effects on endothelial cells, in vivo inhibition of vascularization in the Matrigel assay, and down-regulation of the expression of the proangiogenic basic fibroblast growth factor in A549 tumor cells associated with inhibition of the pathway involving Akt. In conclusion, the available results support the possibility that the antiangiogenic properties of ST1481 contribute to its antitumor potential and that this effect might be enhanced by the continuous low-dose treatment.
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PMID:Antiangiogenic effects of the novel camptothecin ST1481 (gimatecan) in human tumor xenografts. 1457 87

Until recently, it was generally accepted that the vascularization of solid tumors occurred exclusively through the sprouting and co-option from pre-existing blood vessels. Growing evidence now suggests that bone marrow-derived endothelial progenitor cells (EP) circulate in the blood and may play an important role in the formation of new blood vessels in certain tumors. Whether endothelial progenitors participate in the vascularization of brain tumors has not yet been evaluated. In this study, we examined the contribution of EP to tumor angiogenesis in a murine glioma tumor model. Donor bone marrow cells obtained from transgenic mice constitutively expressing beta-galactosidase or GFP either ubiquitously or transcriptionally regulated by an endothelial specific promotor Tie-2 were injected into lethally irradiated adult mice. After bone marrow reconstitution by donor cells, mice were implanted with syngeneic GL261 murine glioma cells. Morphological and confocal 3-dimensional analysis showed that the majority of the engrafted donor marrow cells were expressing hematopoietic and/or microglia markers, but did not appreciably contribute to the tumor vasculature. Implantation of glioma cells genetically engineered to overexpress VEGF produced highly vascularized tumors. However, the number of endothelial progenitors incorporated in the tumor vasculature did not increase. These data strongly suggest that neovascularization in the brain might fundamentally be regulated by the sprouting of pre-existing vessels and implicate that circulating endothelial progenitors do not play a significant role in this process.
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PMID:Minor contribution of bone marrow-derived endothelial progenitors to the vascularization of murine gliomas. 1465 62


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