Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the accompanying papers, we demonstrated that two murine ascites tumors (MOT and TA3/St) induced peritoneal lining blood vessels to become hyperpermeable to plasma proteins, leading to extravasation of fibrinogen and its clotting to cross-linked fibrin in peritoneal lining tissues (peritoneal wall, mesentery, and diaphragm). In solid tumors, vascular hyperpermeability and fibrin deposition lead to the generation of vascularized connective tissue. In order to determine whether fibrin had similar consequences in ascites tumors, the vasculature and stroma of peritoneal lining tissues were analyzed at successive intervals after i.p. tumor cell injection. In both MOT and TA3/St ascites tumors, the size and number of peritoneal lining microvessels increased significantly by 5-8 days. Subsequently, peritoneal lining vessels increased in cross-sectional area by as much as 15-fold and peritoneal vascular frequency increased by up to 11-fold. Incorporation of [3H]thymidine by mesenteric blood vessels was negligible in control animals but came to involve 20 and 40% of endothelial cells lining mesenteric vessels in MOT and TA3/St ascites tumor-bearing mice, respectively. After an early dramatic increase in cross-sectional area, peritoneal lining microvessels subsequently underwent a novel form of remodeling to smaller average size as the result of transvascular bridging by endothelial cell cytoplasmic processes. Thus, both of the ascites tumors studied here induced angiogenesis and stroma similar to that elicited when these same tumors were grown in solid form. However, stroma developed more slowly in ascites than in solid tumors and was entirely confined to a compartment (peritoneal lining tissues) that was distinct from that (peritoneal cavity) containing the majority of tumor cells and ascites fluid. These findings are consistent with the hypothesis that vascular hyperpermeability, induced in both solid and ascites tumors by tumor cell-secreted vascular permeability factor, is a common early step in tumor angiogenesis, resulting in fibrinogen extravasation, fibrin deposition, and likely other alterations of the extracellular matrix that together stimulate new vessel and fibroblast ingrowth.
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PMID:Pathogenesis of ascites tumor growth: angiogenesis, vascular remodeling, and stroma formation in the peritoneal lining. 752 35

Perfusion insufficiency, and the resultant hypoxia, often induces a compensatory neovascularization to satisfy the needs of the tissue. We have used multicellular tumor spheroids, simulating avascular microenvironments within a clonal population of glioma tumor cells, in conjunction with in situ analysis of gene expression, to study stress inducibility of candidate angiogenic factors. We show that expression of vascular endothelial growth factor (VEGF) is upregulated in chronically hypoxic niches (inner layers) of the spheroid and that expression is reversed when hypoxia is relieved by hyperoxygenation. Acute glucose deprivation--another consequence of vascular insufficiency--also activates VEGF expression. Notably, glioma cells in two distinct regions of the spheroid upregulated VEGF expression in response to hypoxia and to glucose starvation. Experiments carried out in cell monolayers established that VEGF is independently induced by these two deficiencies. Upon implantation in nude mice, spheroids were efficiently neovascularized. Concomitant with invasion of blood vessels and restoration of normoxia to the spheroid core, VEGF expression was gradually downregulated to a constitutive low level of expression, representing the output of nonstressed glioma cells. These findings show that stress-induced VEGF activity may compound angiogenic activities generated through the tumor "angiogenic switch" and suggest that stress-induced VEGF should be taken into account in any attempt to target tumor angiogenesis.
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PMID:Induction of vascular endothelial growth factor expression by hypoxia and by glucose deficiency in multicell spheroids: implications for tumor angiogenesis. 753 42

Angiogenesis, the induction of new capillaries and venules, has been associated with tumor growth. Increased tumor size and new vessel growth may further the opportunity for tumor cells to enter the circulation and potentiate metastatic disease. To investigate if tumor angiogenesis could serve as a prognostic factor in cervical carcinoma, we counted microvessels (capillaries and venules) in 29 patients with squamous cell carcinoma of the cervix. Surgical specimens were stained for endothelial cells specifically with Factor VIII to identify all vessels. The microvessels were counted by light microscopy (per 200 x field) in tumor sections with the highest population of microvessels. This was performed by two investigators without knowledge of patient outcome or extent of disease. Microvessel counts in patients with squamous cell carcinoma were significantly different from those of control subjects: 56 +/- 28.9 and 16.3 +/- 3.3 (P = 0.013). There was no correlation between microvessel count and node status, parametrial involvement, depth of invasion, or gross disease. Microvessel count was significantly correlated with vascular space involvement (P = 0.017). Four patients who developed recurrent disease within 1 year had high microvessel counts and yet were node negative and VSI negative at surgery. As shown by Folkman in breast cancer, angiogenesis may also be an independent predictor for recurrent disease in squamous cell carcinoma of the cervix. Microvessel counts could be of prognostic value in patients who do not have other risk factors for disease recurrence.
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PMID:Tumor angiogenesis as a prognostic factor in cervical carcinoma. 753 19

Angiogenesis is very important not only for embryogenesis and wound healing but also for tumor growth in vivo because vessels supply oxygen and nutrition to the tumor mass. In this study, we focused on Vascular Endothelial Growth Factor (VEGF), a newly characterized endothel-specific growth factor and investigated the expression of VEGF in 13 ovarian tumors and 3 normal ovaries by using polymerase chain reaction (PCR) analysis and Northern blot analysis. Further, we examined the expression pattern of 4 alternatively spliced forms of VEGF in these tissues. The level of VEGF mRNA was higher in 77% of ovarian tumors when compared with that in normal ovaries. Among subtypes of VEGF, 121-, 165- and 189-amino acid types were detected but 206-amino acid type was not observed in ovarian tumors. The most abundant form of VEGF was 121-amino acid type and the relative amounts of the various forms of VEGF were 121-amino acid type > 165-amino acid type >> 189-amino acid type. Expression of flt-1, a receptor for VEGF was detectable by PCR but not by Northern blot analysis. These results suggest that like other epithelial cell-derived carcinomas, ovarian tumors use the VEGF/flt-1 system for tumor angiogenesis.
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PMID:[Expression and subtype analysis of vascular endothelial growth factor (VEGF) and its receptor (flt-1) in human ovarian tumors]. 753 33

The emergence of new cytotoxic agents and techniques for treatment of systemic disease as single modalities or in combination with irradiation and surgery will impact on the use of such agents in the management of systemic breast cancer. Metastatic breast carcinoma, unlike other solid tumors, is highly responsive to chemotherapy, response rates of 50 to 70% have been reported consistently, although there has not been a significant improvement on long-term survival of these patients in the last ten years. New therapeutic approaches include cytotoxic and hormonal agents, growth and differentiation factors, monoclonal antibodies, hematopoietic stem cell support, conquest of tumor cell resistance by MDR-modulation, genetic manipulation, identification of new targets on the tumor surface, synthesis of target-oriented designer-drugs and inhibition of tumor angiogenesis. In breast cancer the tumor growth correlates with vascularization and angiogenesis. Tumor angiogenesis is stimulated by the vascular endothelial growth factor (VEGF). Microvessel density is a significant predictor of survival among node-negative women, who are at risk for having occult metastases at presentation. These patients could then be given systemic adjuvant therapy. Animal experiments show promising inhibition of tumor growth in nude mice after application of antibodies against VEGF. Other methods of manipulation of molecular mechanisms of angiogenesis are under investigation.
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PMID:[Are there alternative forms of therapy in breast carcinoma? Status and perspectives for the treatment of metastasized breast carcinoma]. 753 44

Linomide, a quinoline-3-carboxamide, has growth-inhibitory effects against a series of Dunning R-3327 rat prostatic cancers in vivo [Ichikawa et al.: Cancer Res 52:3022-3028, 1992]. In addition, we have demonstrated that daily linomide treatment can inhibit angiogenic responses in nontumor-bearing rats and reduce tumor blood flow in tumor-bearing rats [Vukanovic et al.: Cancer Res 53:1833, 1993]. In the present study we have demonstrated that the reduced tumor blood flow is due to linomide's ability to inhibit tumor angiogenesis, as documented by decreased number of blood vessels in prostatic carcinomas growing in rats treated daily with linomide. Due to linomide's ability to inhibit tumor angiogenesis, and since tumor angiogenesis is required not only for the growth of the primary cancer but also for its ability to metastasize, the effect of linomide on metastasis was directly tested using a quantitation metastasis assay. These in vivo experiments demonstrated that daily linomide treatment decreased by 3-fold the extent of dissemination of cancer cells to the lungs. To test if this antimetastatic response is due to direct effects of linomide on the metastatic cells themselves as well as an induced effect upon inhibition of tumor angiogenesis, additional studies were performed. These studies demonstrated that linomide is not converted in vivo to metabolite(s) which are directly cytotoxic or cytostatic to the prostatic cancer cells themselves. These studies also demonstrated that linomide does not decrease the attachment, migration, or invasive abilities of metastatic cancer cells. These results suggest that the major mechanism for the antitumor and antimetastatic effects of linomide is via its inhibition of tumor angiogenesis. Additional studies have demonstrated that in vivo linomide treatment results in the apoptotic death of thymocytes. This cytotoxic effect is not required for linomide's antitumor effect, nor is it due to elevated plasma levels of glucocorticoid.
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PMID:Inhibition of tumor angiogenesis and the therapeutic ability of linomide against rat prostatic cancers. 753 63

Studies over the past 20 years have established that the development of new capillaries from an existing vascular network (a process called angiogenesis) is an essential component of tumor growth. Malignant tumors do not grow beyond 2-3 mm3 in size unless they stimulate the formation of new blood vessels and thus provide a route for the increased inflow of nutrients and oxygen and outflow of waste products. Tumor angiogenesis also provides an essential exit route for metastasizing tumor cells from the tumor to the bloodstream. Indeed, extensive neovascularization is a poor prognostic factor in several forms of human cancer. Angiogenesis is a complex, multistep process driven by many local signals within the tumor. This involves the degradation of the extracellular matrix around a local venule after the release of collagenases and proteases, the proliferation and migration of capillary endothelial cells, and their differentiation into functioning capillaries. Cytokines produced by various cell types present within the microenvironment of solid tumors form a complex, dynamic network in which they have multiple effects on tumor progression. Herein we review our work on the presence, and possible regulatory influence on tumor angiogenesis, of a number of these cytokines within invasive breast carcinomas. We have combined immunocytochemistry with a single cell cytokine release assay called the reverse hemolytic plaque assay to investigate the cellular sources of the key angiogenic cytokines, vascular endothelial growth factor, basic fibroblast growth factor, and tumor necrosis factor-alpha. Tumor-associated macrophages in the stromal compartment of these tumors and/or malignant epithelial cells were seen to be a major producer cell for these cytokines, whereas tumor necrosis factor-alpha receptors were expressed by leukocytes, malignant cells, and endothelial cells in tumor blood vessels.
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PMID:Cytokine regulation of angiogenesis in breast cancer: the role of tumor-associated macrophages. 753 28

Neovascularization of tumor tissue (tumor angiogenesis) is considered essential for tumor growth, proliferation and eventually metastasis. Microvessel density or count, a measure of tumor angiogenesis, correlates with clinical outcome in skin, breast, lung and prostate carcinomas. To determine whether an association of tumor angiogenesis and nodal metastasis exists in invasive bladder cancer, microvessel counts in 41 primary invasive stages (T2 to 4,NX,M0) bladder cancers were assessed. Microvessels were identified by immunostaining of endothelial cells for factor VIII-related antigen. Microvessels were scored in selected areas showing active neovascularization, either counting a 200 x field (0.74 mm.2) or by using a 10 x 10 square ocular grid (0.16 mm.2). The microvessel count correlated with the presence of occult lymph node metastases (p < 0.0001) by both techniques. The mean microvessel count in 27 patients without lymph node metastases was 56.2 microvessels per 200 x field (standard deviation [SD] 29.5, range 7 to 130) or 28.6 microvessels per grid (SD 14.4, range 4 to 65). The 14 patients with histologically proved lymph node metastases showed mean 138.1 microvessels per 200 x fields (SD 37.9, range 82 to 202) or 74.7 microvessels per grid (SD 14.4, range 43 to 115). Good correlation was noted between area and grid counting (r = 0.97). Tumor T stage, grade and the presence of vascular or lymphatic invasion did not correlate with the presence of lymph node metastases (p = 0.41, 0.59 and 0.26, respectively). Microvessel count may provide important information regarding the risk of occult metastasis in patients with invasive bladder carcinomas.
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PMID:Tumor angiogenesis correlates with lymph node metastases in invasive bladder cancer. 753 69

We have developed methods to use anticyclin A, B, and E antibodies as reagents to specifically detect proliferating cells in specific phases of the cell cycle in formalin-fixed, paraffin-embedded sections of tissues and cells. Staining of 48 archival cases of breast cancer showed that these antibodies estimate the tumor proliferation fraction and therefore are potentially useful for the prediction of prognosis. A subset of cancers had a high frequency of tumor cells expressing cyclins A and E, out of proportion to other proliferation markers, suggesting that these tumors may have deregulated cyclin expression. In addition to recognizing authentic cyclin E in the nucleus of proliferating cells, anticyclin E antibody cross-reacted with a cytoplasmic protein in nonproliferating endothelial cells. This cross-reaction allows the simultaneous visualization and quantitation of microvessels in the tumors, measuring a second potential predictor of breast cancer prognosis, tumor angiogenesis.
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PMID:Cyclins as markers of tumor proliferation: immunocytochemical studies in breast cancer. 753 16

In the last decade a considerable amount of research has been dedicated to studying the process of angiogenesis. In the field of tumor biology angiogenesis is a relevant subject of investigation as well, since newly formed blood vessels are required for the growth of tumors and provide an exit route for metastasizing tumor cells. In this review we discuss some aspects of tumor angiogenesis with emphasis on the role that growth factors bFGF and VPF play in this process. A number of biochemical characteristics and biological properties of the two factors and their receptors are reviewed, and the expression of bFGF and VPF in both normal tissues and in tumors is discussed. Finally, we speculate on the use of bFGF and VPF expression as a diagnostic parameter and on possible clinical applications.
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PMID:The role of vascular permeability factor and basic fibroblast growth factor in tumor angiogenesis. 754 Aug 44


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