UNIPROT:P39060 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P39060 (endostatin)
2,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Linomide is a p.o. active antiangiogenic agent that has been demonstrated to be effective in suppressing the in vivo growth of rat and human prostatic cancer xenografts. The present studies were conducted to determine whether the angiogenic molecules, vascular endothelial growth factor/vascular permeability factor (VEGF/VPF) and basic fibroblast growth factor (bFGF) are expressed in vitro by DU-145, PC-3, TSU-PR1, and LnCaP human prostate cancer cell lines and whether Linomide inhibits the secretion of these angiogenic molecules. Additionally, two different androgen-responsive human prostatic cancer xenograft models (i.e., PC-82 and A-2) were used to determine whether androgen ablation-induced reduction in tumor growth is associated with a reduction in tumor VEGF and/or bFGF levels. These studies demonstrated that both VEGF and bFGF proteins are expressed to different degrees in the human prostatic cancer cell lines. The secretion of VEGF but not bFGF is up-regulated by hypoxia. Linomide is unable to inhibit either basal or hypoxia-induced secretion of VEGF. Linomide also has no effect on secreted bFGF levels. Castration inhibited tumor VEGF but had no effect on bFGF levels in both the androgen-responsive PC-82 and A-2 human prostatic cancers when grown in severe combined immunodeficient mice. When given in combination, castration potentiated the inhibition of tumor growth induced by Linomide alone. This potentiation is not due to a further inhibition in tumor VEGF levels induced by castration. Although both castration and Linomide inhibit angiogenesis, the former accomplishes it by inhibiting VEGF secretion, whereas the latter has multiple effects at several steps in the angiogenic process other than VEGF secretion. Based on their different but complementary mechanisms of action, simultaneous combination of androgen ablation with Linomide enhances the anti-prostatic cancer efficacy compared to either monotherapies alone and warrants testing in humans.
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PMID:Potentiation of the antiangiogenic ability of linomide by androgen ablation involves down-regulation of vascular endothelial growth factor in human androgen-responsive prostatic cancers. 906 70

Work begun more than 30 years ago at Children's Hospital in Boston led to the publication of an article on the antiangiogenic properties of two compounds, endostatin and angiostatin (J. Folkman, Nature 1997; 390:404-7). It only took weeks for the medias in the US and then in France and the rest of Europe to stimulate the fervor of patients for this new 'cure' for cancer. Insight into the fundamental role of angiogenesis in locoregional and metastatic development of cancer has been accumulated over the last decades. Factors stimulating tumoral angiogenesis include aFGF, bFGF, VEGF, angiogenin, and other more recently discovered substances. Likewise, factors inhibiting tumoral angiogenesis, including angiostatin, have been identified. Angiostatin is a specific inhibitor of endothelial cell growth that migh appear rapidly in the serum of patients with a primary tumor. Angiostatin could have both local and systemic effects and possibly protect against metastatic dissemination in vivo. The importance of angiogenesis inhibitors was emphasized at the recent meeting of the American Association for Cancer Research (New Orleans March 28-April 1, 1998). To date, at least eleven compounds are being tested. Currently, most are in phase 1 or 2; for the few in phase 3, marketing approval will undoubtedly require several years. It is interesting to note that neither endostatin nor angiostatin are among the list of drugs under clinical assessment, first because these small human proteins are not available in sufficient quantity for therapeutic trials and secondly, because the processes necessary to produce pure and safe compounds remain to be developed. Even after these steps have been accomplished, preclinical evaluations will have to be performed before the first clinical trials could be envisaged. For the time being, antiangiogenesis remains a promising avenue of anti-cancer research but neither endostatin nor angiostatin will be available for human research for several months at least.
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PMID:[Tumor angiogenesis inhibitors: media and scientific aspects]. 976 82

Tumor angiogenesis is critical for the growth of primary cancers above 1-2 mm in diameter. A major vascular growth factor is VEGF, and approaches to inhibit VEGF have shown encouraging results in pre-clinical studies. The mechanisms involved in switching on angiogenesis involve activation of oncogenes and upregulation of the hypoxia-sensing pathway. These provide novel targets for therapy. Many anti-angiogenic drugs are in clinical trial currently and there are problems in assessing these types of drugs if they only cause disease stabilisation. It will be important to develop methods to assess inhibition of vascular growth in vivo. New generations of anti-angiogenesis drugs such as endostatin of angiostatin, which are more potent, may cause tumor regression, but this has not yet been studied in patients. These approaches for advanced disease should be more successful when applied early in an adjuvant situation. This will also require careful monitoring of long-term toxicity.
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PMID:Anti-angiogenesis therapy and strategies for integrating it with adjuvant therapy. 992 71

The "angiogenic switch" and tumor angiogenesis play a critical role in the growth and metastasis of solid tumors. Tumor angiogenesis is regulated by a balance of stimulators (e.g., VEGF, bFGF) and inhibitors of angiogenesis (e.g., angiostatin, endostatin, angiostatic steroids). Measuring angiogenesis (blood vessel density) and/or its main regulators such as VEGF and bFGF in solid tumors, or the levels of these growth factors in the serum or urine provides new and sensitive markers for tumor progression, metastasis and prognosis.
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PMID:The diagnostic and prognostic value of tumor angiogenesis. 1002 73

Endostatin, a C-terminal product of collagen XVIII, is a very powerful angiogenesis inhibitor. In vivo experiments in mice indicate that endostatin dramatically reduces tumor mass without causing the onset of any resistance to the treatment. Recently, a 12-aa shorter human endostatin has been purified from plasma, but is ineffective in in vitro angiogenesis assays. Here we report that the full-length human recombinant endostatin has a potent inhibitory activity in in vitro angiogenesis assays. Two powerful angiogenic factors were used to stimulate endothelial cells: FGF-2 and VEGF-165. Endostatin prevented cell growth both in the basal condition and after stimulation with FGF-2 or VEGF-165. Migration of microvascular endothelial cells toward FGF-2 or VEGF-165 was impaired, both when cells were pretreated with the inhibitor and when endostatin was added together with the growth factors. Furthermore, experiments of inhibition of proliferation performed on nonmicroendothelial cells showed that endostatin was ineffective. This study indicates that human endostatin is a potent angiogenesis inhibitor and suggests its use in human anticancer therapy.
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PMID:Inhibitory effect of full-length human endostatin on in vitro angiogenesis. 1049 Dec 94

Tumor angiogenesis is one of the most important fields of cancer research. It is important to identify the putative targets for antiangiogenic strategies. To date, a number of angiogenic agents have been identified: bFGF, the different VEGF isoforms, integrins, proteases (matrix metalloproteases and serine proteases),... Furthermore, several physiological anti-angiogenic agents have been isolated such as endostatin, angiostatin, 16 K prolactin,.... The recent development of mice deficient for one gene involved during angiogenesis gives a new insight into the molecular mechanisms regulating this process. It leads to the identification of plasminogen activator inhibitor-1 or PAI-1 as a new target for tumor treatment. Although, PAI-1 is very attractive as a target for new therapeutic strategies, a better understanding of its mechanism of action is needed urgently.
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PMID:[Preclinical features of anti-angiogenesis therapy]. 1098 53

A growing number of antiangiogenesis strategies have been investigated for the treatment of cancer and other angiogenesis-dependent diseases. One of the most promising strategies is to systemically administer one or more antiangiogenic proteins frequently enough to achieve a sufficient long-term steady state level of the protein(s) to achieve the maximum beneficial effect. However, the utility of this strategy is limited because of many technical difficulties, including obtaining both the quantity and quality of the protein(s) necessary for optimal therapeutic benefit. To overcome these difficulties, we hypothesized that a single administration of a replication-defective adenoviral vector expressing a secretable antiangiogenic protein could achieve an optimal long-term systemic concentration. We constructed a recombinant adenoviral vector, Av3mEndo, which encodes a secretable form of murine endostatin. We demonstrated secretion of endostatin from several cell lines transduced with Av3mEndo. Partially purified endostatin secreted from Av3mEndo-transduced mammalian cells was shown to potently inhibit endothelial cell migration in vitro. A single intravenous administration of Av3mEndo in mice was shown to result in (1) prolonged and elevated levels of circulating endostatin, (2) partial inhibition of VEGF-induced angiogenesis in a VEGF implant angiogenesis model, and (3) prolonged survival and in 25% of mice the complete prevention of tumor growth in a prophylactic human colon/liver metastasis xenograft murine model. These results support our contention that adenoviral vector-mediated expression of an antiangiogenic protein(s) represents an attractive therapeutic approach to cancer and other angiogenesis-dependent diseases.
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PMID:Antiangiogenic gene therapy for cancer via systemic administration of adenoviral vectors expressing secretable endostatin. 1102 Jul 98

Circulating endothelial cells (CECs) were evaluated by flow cytometry in immunodeficient mice bearing human lymphoma. A trend toward higher CEC values was observed on days 7 and 14 after transplant, and differences versus controls were highly significant on day 21 (P = 0.0061). A strong correlation was found between CEC and tumor volume (r, 0.942; P = 0.004) and between CEC and tumor-generated VEGF (r, 0.669; P = 0.02). In mice given cyclophosphamide, most of the circulating apoptotic cells were hematopoietic and not endothelial. Conversely, in mice given endostatin, all of the increase in apoptotic cells was in the endothelial cell compartment. CEC evaluation is promising as a noninvasive, surrogate angiogenesis marker.
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PMID:Kinetics and viability of circulating endothelial cells as surrogate angiogenesis marker in an animal model of human lymphoma. 1138 57

Malignant ascites is a common complication of advanced intraabdominal neoplasms for which standard treatments are suboptimal. Evidence suggests that tumor-mediated angiogenesis and enhanced vascular permeability in the peritoneal wall due to high levels of vascular endothelial growth factor play a fundamental role in the pathogenesis of malignant ascites. To explore the advantage of viral vector-mediated "targeted antiangiogenic therapy" in ascites formation, we constructed and administered adenoviral vectors encoding several different antiangiogenic proteins (angiostatin, endostatin, platelet factor 4, and a fusion protein between angiostatin and endostatin) alone or in combination intraperitoneally in mice with peritoneal carcinomatosis from breast cancer (TA3 cells) and ovarian cancer (SKOV-3 i.p. and ES-2 cell lines) to explore the potential of additive or synergistic activity. Our data demonstrated statistically significant downregulation of ascites formation, tumor growth, vascularity, and prolongation of animal survival after intraperitoneal treatment with antiangiogenic adenoviral vectors in three different ascites tumor models. Combined treatment proved to be more effective than treatment with one vector alone. Reduced ascites formation was accompanied by decreased microvascular density in the peritoneal wall and increased apoptosis of tumor cells after administration of antiangiogenic vectors in vivo. Of interest was the observation that AdPF4 caused a significant decrease in the level of VEGF secreted by tumor cells both in vitro and in TA3 ascites tumor-bearing animals in vivo. These data suggest that adenoviral vector-mediated delivery of genes encoding antiangiogenic proteins may represent a potentially new treatment modality for malignant ascites.
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PMID:Therapeutic effects of viral vector-mediated antiangiogenic gene transfer in malignant ascites. 1156 Jul 66

Fibrinolysis is a precisely orchestrated process in which fibrin-containing thrombi are solubilized. Several receptors regulate this process by localizing proteolytic activity to the cell surface. One such receptor is annexin II, a calcium and phospholipid-binding protein. Annexin II serves as a profibrinolytic coreceptor for both plasminogen and tissue plasminogen activator on the surface of endothelial cells and facilitates the generation of plasmin. The dysregulation of fibrinolytic assembly on endothelial cells may lead to atherothrombotic disease. In addition to its role in fibrinolysis at the surface of endothelial cells, annexin II may play other potential cellular roles. For example, the overexpression of annexin II on the surface of leukemic cells and cell lines derived from acute promyelocytic leukemia correlates with both the clinical manifestation of bleeding and the in vitro ability of the leukemic cells to generate plasmin. The abundant presence of annexin II on the surface of other cell types including monocytic cell lines and different cancer cells may contribute to their invasive potential through extracellular matrix either by generation of plasmin or, by plasmin-mediated proteolytic activation of other metalloproteinases. This dissolution of extracellular matrix may also cause the release of potent matrix-bound angiogenic factors such as VEGF and FGF. On the other hand, by increasing the pool of plasmin, a precursor to an important anti-angiogenic factor, angiostatin, and by fragmentation of collagen XVIII (a precursor to the anti-angigenic factor, endostatin) by plasmin-activated metalloproteases, annexin II could play a pivotal physiological role in the pro- and anti-angiogenic switch mechanism.
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PMID:Annexin II: a plasminogen-plasminogen activator co-receptor. 1181 88

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