UMLS:C0027627 - FACTA Search

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Query: UMLS:C0027627 (metastases)
103,950 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We postulate that oncogenes and tumor suppressor genes may influence tumor angiogenesis not only directly (e.g. by upregulating vascular endothelial growth factor) but also through their impact on expression (and/or function) of tissue factor and other elements of the hemostatic system.
Cancer Metastasis Rev 2000
PMID:Impact of oncogenes and tumor suppressor genes on deregulation of hemostasis and angiogenesis in cancer. 1119 Oct 70

Ewing tumors are a clinically heterogeneous group of childhood sarcomas that represent a paradigm for understanding solid tumor biology, as they are the first group of sarcomas for which a chromosome translocation has been characterized at the molecular level. However, the biologic organization of the tumor, especially the processes that govern proliferation, differentiation, and metastasis of primitive tumor stem cells is poorly understood. Therefore, to develop a biologically relevant in vivo model, five different Ewing tumor cell lines and primary tumor cells from three patients were transplanted into immune-deficient mice via intravenous injection. NOD/scid mice that carry a complex immune deficiency and thus nearly completely lack the ability to reject human cells were used as recipients. Overall, 26 of 52 mice (50%) transplanted with VH-64, WE-68, CADO-ES1, TC-71, and RM-82 cells and 4 of 10 mice (40%) transplanted with primary tumor cells engrafted. Moreover, primary cells that did not grow in vitro proliferated in mice. The pattern of metastasis was similar to that in patients with frequent metastases in lungs (62%), bone marrow (30%), and bone (23%). Using limiting dilution experiments, the frequency of the engraftment unit was estimated at 1 Ewing tumor-initiating cell in 3 x 10(5) VH-64 cells. These data demonstrate that we have been able to establish an in vivo model that recapitulates many aspects of growth and progression of human Ewing tumors. For the first time, this model provides the opportunity to identify and characterize primitive in vivo clonogenic solid tumor stem cells. This model will, therefore, be instrumental in studying many aspects of tumor cell biology, including organ-selective metastasis and tumor angiogenesis.
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PMID:Establishment of an in vivo model for pediatric Ewing tumors by transplantation into NOD/scid mice. 1122 58

It is generally accepted that local growth of solid tumors and their ability to establish distant metastases are dependent on the formation of new blood vessels arising from preexisting ones (angiogenesis). The angiogenic response of the host is mediated by angiogenic molecules that are released from cancer and normal stroma cells, especially fibroblasts. The goal of the present study was to quantitatively compare the expression of the two most important angiogenic growth factors (VEGF, angiogenin) of cervical cancer cells (HeLa and Me-180) with that of cervical cancer-derived fibroblasts (from one tumor/patient) under defined normoxic and hypoxic conditions in vitro. The growth kinetics of cervical cancer cells (HeLa and Me-180) and tumor-derived fibroblasts were evaluated in vitro under normoxic and hypoxic conditions. Growth factor concentrations in the cell culture medium were measured by ELISA and the secretion rates per cell were calculated. Under normoxic conditions, both the cervical cancer cells as well as the tumor-derived fibroblasts released VEGF and angiogenin. The secretion rate of both angiogenic factors was significantly higher in the stroma cells than in the tumor cells (P < 0.05). VEGF and angiogenin secretion is significantly higher in the stroma cells under hypoxia than in the tumor cells investigated (P < 0.05). The presented data support the concept that in cervical cancer non-neoplastic fibroblasts could play a pivotal role in the complex process of tumor angiogenesis.
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PMID:Hypoxia-stimulated expression of angiogenic growth factors in cervical cancer cells and cervical cancer-derived fibroblasts. 1132 12

The quantitation of microvessels in breast cancer in sections immunolabeled for factor VIII, CD-34, or CD-31 currently is expressed as numbers of vessels/mm2. In an attempt to perform a more accurate method for counting microvessels, we determined the number of microvessels by 1,000 tumor cells (angiogenic index; AI). This new method minimizes the possible variations concerning the width of the microscopic fields, stroma/epithelium relations, and cellular tumor size. The present study compares the number of vessels determined by the traditional method (vessels/mm2) and AI in a series of 215 cases of ductal infiltrating carcinoma not otherwise specified. Also we studied the degree of correlation between both methods and with pathologic variables (tumor size, histologic grade, mitotic count, tumor necrosis, vascular invasion, skin infiltration, and axillary lymph node metastasis). Our results showed that the AI correlates more significantly than the classic microvessel density determination with other prognostic factors in breast cancer. In histologic grade III tumors, high AI correlates significantly with the presence of more than three axillary lymph nodes metastases. Therefore we recommend determining the degree of tumor angiogenesis by counting vessels per 1,000 tumor cells (AI) because of its reliable determination and significant correlation with other prognostic factors.
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PMID:Angiogenic Index: A New Method for Assessing Microvascularity in Breast Carcinoma with Possible Prognostic Implications. 1134 44

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

At the present time the occurrence of distant metastases in patients with head and neck squamous cell carcinoma means that lifespan is measured in months. In most instances treatment is purely palliative. Isolated lung metastasis can be successfully removed with long-term disease control in selected patients. Radiotherapy can be useful for palliation of bone metastases and occasionally lung or brain metastases. Chemotherapy does not have a major impact at the present time except for the treatment of metastases from nasopharyngeal cancer. Palliative symptomatic care, along with appropriate pain control, is essential since pain management is very important in these patients. A significant change in the survival of patients with head and neck cancer is only likely to occur by the development of new approaches to treatment. Blocking tumor angiogenesis and treatment based on genetic abnormalities or cell surface receptors offer the two strategies that are most likely to be successful.
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PMID:The treatment of distant metastases in head and neck cancer--present and future. 1140 25

Experimental studies performed prior to 1990 led to the widely held belief that matrix metalloproteinases (MMPs) produced by cancer cells are of critical importance in tumor invasion and metastasis. Based on this evidence, the pharmaceutical industry produced several well tolerated, orally active MMP inhibitors (MMPIs) which demonstrated efficacy in mouse cancer models. Phase III clinical trials initiated in 1997-98 using marimastat, prinomastat (AG3340), and BAY 12-9566 alone or in combination with standard chemotherapy in patients with advanced cancers (lung, prostate, pancreas, brain, GI tract) have recently been reported; no clinical efficacy was demonstrated. Bayer and Agouron have discontinued their ongoing Phase III drug trials of MMPIs in advanced cancer. In retrospect, the failure of MMPIs to alter disease progression in metastatic cancer might have been anticipated since MMPs appear to be important in early aspects of cancer progression (local invasion and micrometastasis) and may no longer be required once metastases have been established. Our understanding of MMP pathophysiology in cancer has expanded considerably in the past 10 years. Current views indicate that: (1) most MMPs in tumors are made by stromal cells, not carcinoma cells; (2) cancer cells induce stromal cells to synthesize MMPs using extracellular matrix metalloproteinase inducer (EMMPRIN) and cytokine stimulatory mechanisms; and (3) MMPs promote cell migration and the release of growth factors sequestered in the extracellular matrix. MMPs have a dual function in tumor angiogenesis: MMP-2 and MT1-MMP are required in breaking down basement membrane barriers in the early stage of angiogenesis, while other MMPs are involved in the generation of an angiogenic inhibitor, angiostatin. In spite of considerable recent progress in identifying multiple roles of MMPs in disease, our understanding of MMP function in cancer is far from complete (see Table 1). Based on accumulated data, it is recommended that future MMPI trials focus on: (1) patients with early stage cancer; (2) the use of MMPIs along with chemotherapy; (3) the measurement of MMPs in tumor tissue and blood as a means of identifying patients who are more likely to respond to MMPI therapy; and (4) identification of biomarkers that reflect activation or inhibition of MMPs in vivo.
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PMID:Critical appraisal of the use of matrix metalloproteinase inhibitors in cancer treatment. 1142 50

Growth and metastasis of solid tumors depend on the formation of new blood vessels which originate from the existing vascular system. These blood vessels grow into the tumor and thus provide the necessary nutrients and growth factors for tumor progression. At the same time, the newly formed blood vessels allow tumor cells to disseminate and form metastases in distant organs. Normally, vascular homeostasis is regulated by a balance of angiogenic and antiangiogenic mechanisms. Tumor-induced angiogenesis is mainly sustained by the production and secretion of angiogenic factors originating from tumor and stroma cells. The most prominent angiogenic factor is the vascular endothelial growth factor (VEGF). Recently, additional angiogenic factors and their respective receptors have been identified and related to tumor angiogenesis. Among these, the angiopoietins and their receptor TIE-2 have been investigated to some detail. Angiopoietin-1 which binds to and activates TIE-2 is obviously responsible for the stabilization of vessels under homeostatic conditions. Angiopoietin-2 binds to the same receptor as angiopoietin-1 but is antagonistic with respect to angiopoietin-1. It destabilizes blood vessels and, under appropriate conditions, induces complete regression. In the similar situation angiopoietin-2 induces the destabilization of blood vessels, and the angiogenic factor VEGF produced by the tumor induces the massive formation of new vessels. When human melanoma cells A375 are stably transfected to produce the soluble variant of the angiopoietin receptor TIE-2 (sTIE-2), they show a substantial inhibition of tumor growth on nude mice. Similar effects have been seen with the soluble variant of the VEGF receptor FLT-1 (sFLT-1). In both cases, the vessel density of the tumors is significantly reduced. These experiments show that the inhibition of the angiopoietin/TIE-2 system, similar to the inhibition of the VEGF/VEGF receptor system, has an antitumoral effect, most probably due to the inhibition of tumor angiogenesis. Thus, inhibition of both signalling systems seem to be a valid strategy for the development of novel antiangiogenic therapies. Recently, the inhibition of the VEGF receptor tyrosine kinase by the compound PTK787/ZK222584 has been shown to substantially inhibit tumor growth and metastases formation. This compound has now entered clinical trials at the Tumor Biology Center in Freiburg i.Br. A preliminary evaluation of phase I study shows a very promising clinical outcome.
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PMID:[Tumor angiogenesis: new approaches to cancer therapy]. 1144 5

Could a rational, hypothesis-driven and well-tolerated therapy drive tumor progression? This scenario can be foreseen for antiangiogenic therapy, despite it is one of the most elegant anticancer strategies. Antiangiogenic agents inhibit growth of endothelial cells resulting in tumor hypoxia and starvation which in turn inhibit tumor growth. On the other hand, it is known that hypoxia selects for a highly aggressive and metastatic cancer and is associated with unfavorable prognosis. This review attempts to reconcile these opposite notions and to revisit the thesis that antiangiogenic therapy is "resistant to resistance". The latter logical paradigm is based on the notion that endothelial cells cannot become drug resistant. Although endothelial cells may not acquire drug-resistance, cancer cells can acquire hypoxia-resistance which is also associated with the resistance to growth arrest and apoptosis as well as high metastatic potentials. Hypoxia-inducible factor (HIF-1) renders cells capable of surviving hypoxia and stimulating endothelial growth. Disruption of the HIF-1 pathway inhibits tumor growth, indicating HIF-1 as a potential anticancer target. Furthermore, inhibition of HIF-1 is a mechanism-based antiangiogenic strategy because it is the HIF-mediated response that drives tumor angiogenesis. Pharmacological approaches to HIF-1 inhibition are discussed.
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PMID:Hypoxia-inducible factor: Achilles' heel of antiangiogenic cancer therapy (review). 1144 36

The pivotal role of vascular endothelial growth factor (VEGF-A) in the regulation of angiogenesis, in particular in the onset and maintenance of tumor angiogenesis, has been demonstrated repeatedly in experimental model systems and, more recently, in clinical trials. Experimental evidence has also suggested that up-regulated expression of VEGF-A may cooperate with other genetic or epigenetic changes to induce or accelerate tumor progression to invasive and metastatic cancers. Here we report the generation of transgenic mouse lines that express human VEGF-A165 under the control of the rat insulin promoter in the beta cells of pancreatic islets of Langerhans (Rip1VEGF-A). These mice do not exhibit detectable changes in islet development, vascularization, or physiology. Intercrosses of these mice with a transgenic mouse model of pancreatic beta cell carcinogenesis (Rip1Tag2) result in an earlier onset of tumor angiogenesis and with it accelerated tumor growth and mortality. The transition from benign tumors (adenoma) to malignant tumors (carcinoma) is modestly accelerated; however, tumor metastases are not observed. Our findings indicate that in beta-cell tumorigenesis, overexpression of VEGF-A165 accelerates the onset of tumor angiogenesis and with it tumor progression but is not sufficient to induce tumor metastasis.
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PMID:Overexpression of vascular endothelial growth factor-A165 enhances tumor angiogenesis but not metastasis during beta-cell carcinogenesis. 1180 16

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