UMLS:C0003873 - FACTA Search

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Query: UMLS:C0003873 (rheumatoid arthritis)
53,068 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pannus formation characterized by neovascularization is a prominent pathologic finding in both rheumatoid arthritis (RA) and rat collagen-induced arthritis (CIA). CIA is a T-cell-dependent process induced by immunization of inbred LOU rats with native type II collagen in incomplete Freund's adjuvant. AGM-1470 is a highly specific inhibitor of new blood vessel formation by its effects on endothelial cell migration, endothelial cell proliferation, and capillary tube formation. Cyclosporin A (CSA) is an immunomodulating agent that inhibits IL-2 and other cytokine production involved in early antigen activation of T-cells. In this study the effects of single and combination therapy with AGM-1470 (27 mg/kg alternate days) and low-dose CSA (4 mg/kg/day continuous infusion via osmotic pump) on established CIA (total n = 62) were examined. At Day 18 post arthritis onset, clinical arthritis was significantly reduced in rats treated with single-agent AGM-1470 (1.88 +/- 0.33) or combination therapy (1.13 +/- 0.32) (P < 0.00001 and 0.000001, respectively) versus control. Single-agent CSA-treated rats, even if given CSA beginning on the day of immunization, did not attenuate arthritis severity. THe longitudinal mean arthritis score of combination-treated rats was significantly lower than that of rats receiving AGM-1470 (P < 0.0001), reflecting a more moderate early disease course in combination-treated rats. Disease severity in rats treated with single-agent CSA was not significantly different from control rats. Mean WBC counts, differentials, and delayed-type hypersensitivity responses were similar in all groups. CII antibody levels were lower in AGM-1470 protocols compared to CSA or controls. Flow cytometry of peripheral blood, spleen, and lymph nodes demonstrated decreased levels of CD4+ cells in rats given CSA. TNF-alpha levels remained elevated, even in treated rats, while vascular endothelial growth factor levels were reduced in rats receiving AGM-1470 compared to both arthritic controls and naive rats. Both single-agent and combination therapies were well tolerated. This is the first study to examine the effects of AGM-1470 together with CSA. Combination therapy was more effective than single-agent therapy. The results suggest that the use of interventions with distinct mechanisms of action may be efficacious in the treatment of RA.
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PMID:Suppression of collagen-induced arthritis by an angiogenesis inhibitor, AGM-1470, in combination with cyclosporin: reduction of vascular endothelial growth factor (VEGF). 749 21

The proliferation of new blood vessels (angiogenesis) is a process that accompanies many pathological conditions including rheumatoid arthritis and solid tumor growth. Among angiogenic cytokines that have been identified to date, vascular endothelial growth factor (VEGF) is one of the most potent. We used SELEX [systematic evolution of ligands by exponential enrichment; Tuerk, C., & Gold, L. (1990) Science 249, 505-510] to identify RNA ligands that bind to VEGF in a specific manner with affinities in the low nanomolar range. Ligands were selected from a starting pool of about 10(14) RNA molecules containing 30 randomized positions. Isolates from the affinity-enriched pool were grouped into six distinct families on the basis of primary and secondary structure similarities. Minimal sequence information required for high-affinity binding to VEGF is contained in 29-36-nucleotide motifs. Binding of truncated (minimal) high-affinity ligands to VEGF is competitive with that of other truncated ligands and heparin. Furthermore, truncated ligands from the six ligand families inhibit binding of [125I]VEGF to its cell-surface receptors. Oligonucleotide ligands described here represent an initial set of lead compounds in our ongoing effort toward the development of potent and specific VEGF antagonists.
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PMID:Inhibition of receptor binding by high-affinity RNA ligands to vascular endothelial growth factor. 752 Jul 55

Vascular permeability factor/vascular endothelial growth factor (VPF/VEGF) is a cytokine that is overexpressed in many tumors, in healing wounds, and in rheumatoid arthritis. VPF/VEGF is thought to induce angiogenesis and accompanying connective tissue stroma in two ways: 1), by increasing microvascular permeability, thereby modifying the extracellular matrix and 2), as an endothelial cell mitogen. VPF/VEGF has been reported in animal corpora lutea and we investigated the possibility that it might be present in human ovaries and have a role in corpus luteum formation. We here report that VPF/VEGF mRNA and protein are expressed by human ovarian granulosa and theca cells late in follicle development and, subsequent to ovulation, by granulosa and theca lutein cells. Therefore, VPF/VEGF is ideally positioned to provoke the increased permeability of thecal blood vessels that occurs shortly before ovulation. VPF/VEGF likely also contributes to the angiogenesis and connective tissue stroma generation that accompany corpus luteum/corpus albicans formation. Finally, VPF/VEGF was overexpressed in the hyperthecotic ovarian stroma of Stein-Leventhal syndrome in which it may also have a pathophysiological role.
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PMID:Expression of vascular permeability factor/vascular endothelial growth factor by human granulosa and theca lutein cells. Role in corpus luteum development. 753 45

Vascular permeability factor (VPF), also known as vascular endothelial growth factor (VEGF), is a multifunctional cytokine that is overexpressed in many transplantable animal and autochtonous human cancers, in healing wounds, and in chronic inflammatory disorders such as psoriasis and rheumatoid arthritis. All of these entities are characterized by angiogenesis, altered extracellular matrix, and variable degrees of hypoxia. In addition, two VPF/VEGF receptors, flt-1 and kdr, are overexpressed by endothelial cells that line the microvessels that supply these tumors/inflammatory reactions. On the basis of these and other data, we have proposed a model of angiogenesis in which VPF/VEGF plays a central role: this model is applicable to tumors and also to the angiogenesis that occurs in non-neoplastic processes.
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PMID:Vascular permeability factor/vascular endothelial growth factor: an important mediator of angiogenesis in malignancy and inflammation. 754 74

Vascular permeability factor (VPF/VEGF) is a highly conserved multifunctional cytokine that acts directly on endothelial cells (ECs) to activate phospholipase C and induce [CA2+]i transients. Two high-affinity receptors, both tyrosine kinases, have been described. VPF/VEGF has at least two important roles in tumor biology: (1) it potently increases microvascular permeability to plasma proteins, thereby modifying the tumor extracellular matrix to promote the ingrowth of fibroblasts and new blood vessels, and (2) it is a selective EC mitogen. VPF/VEGF is also involved in several other nonmalignant processes with a pathogenesis analogous to that of tumor stroma generation, including wound healing and rheumatoid arthritis.
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PMID:Vascular permeability factor, tumor angiogenesis and stroma generation. 754 75

Delayed hypersensitivity (DH) is a T cell-mediated form of immune response characterized by a predominantly perivascular, mononuclear cell infiltrate. The venules in DH reactions are hyperpermeable to plasma proteins, leading to extravasation of plasma fibrinogen and its extravascular clotting to form a fibrin gel that promotes induration and angiogenesis. The mechanisms responsible for microvascular hyperpermeability in DH are unknown. Recently, a cytokine named vascular permeability factor (VPF, also known as vascular endothelial growth factor or VEGF) has been implicated in the chronic vascular hyperpermeability and angiogenesis of solid and ascites tumors, healing wounds, rheumatoid arthritis, and psoriasis. These findings suggested that VPF/VEGF might also have a role in the pathogenesis of DH. Two model systems were studied: allergic contact dermatitis to poison ivy in human volunteers and classical tuberculin hypersensitivity in rats. In both, in situ hybridization revealed that the mRNAs encoding VPF/VEGF were strikingly overexpressed in keratinocytes of the epidermis; scattered mononuclear cells infiltrating the dermis also overexpressed VPF/VEGF mRNA, to a greater extent in rat tuberculin than in human contact reactions. In contact reactions, mRNAs for two VPF/VEGF vascular endothelial cell receptors, flt-1 and KDR, were also strikingly overexpressed. Abundant fibrin deposition in both models confirmed that dermal microvessels were indeed hyperpermeable to plasma fibrinogen. These results implicate VPF/VEGF as a potentially important mediator in the pathogenesis of cell-mediated immunity and provide further evidence that products of epithelial cells may regulate the inflammatory response.
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PMID:Overexpression of vascular permeability factor (VPF/VEGF) and its endothelial cell receptors in delayed hypersensitivity skin reactions. 787 50

Vascular permeability factor (VPF, also known as vascular endothelial growth factor or VEGF), is a potent microvascular permeability enhancing cytokine and a selective mitogen for endothelial cells. It has been implicated in tumor angiogenesis and ascites fluid accumulation. Since development of the destructive synovial pannus in rheumatoid arthritis (RA) is associated with changes in vascular permeability (synovial fluid accumulation), synovial cell hyperplasia, and angiogenesis, we examined synovial fluids (SFs) and joint tissue for the expression and local accumulation of VPF/VEGF. VPF/VEGF was detected in all of 21 synovial fluids examined and when measured by an immunofluorimetric assay, ranged from 6.9 to 180.5 pM. These levels are biologically significant, since < 1 pM VPF/VEGF can elicit responses from its target cells, endothelial cells. Levels of VPF/VEGF were highest in rheumatoid arthritis fluids (n = 10), with a mean value (+/- SEM) of 59.1 +/- 18.0 pM, vs. 21.4 +/- 2.3 pM for 11 SFs from patients with other forms of arthritis (p = 0.042). In situ hybridization studies that were performed on joint tissues from patients with active RA revealed that synovial lining macrophages strongly expressed VPF/VEGF mRNA, and that microvascular endothelial cells of nearby blood vessels strongly expressed mRNA for the VPF/VEGF receptors, flt-1 and KDR. Immunohistochemistry performed on inflamed rheumatoid synovial tissue revealed that the VPF/VEGF peptide was localized to macrophages within inflamed synovium, as well as to microvascular endothelium, its putative target in the tissue. Together, these findings indicate that VPF/VEGF may have an important role in the pathogenesis of RA.
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PMID:Vascular permeability factor/endothelial growth factor (VPF/VEGF): accumulation and expression in human synovial fluids and rheumatoid synovial tissue. 800 92

Angiogenesis, the development of new blood vessels, is an important process in tissue development and wound healing but becomes pathologic when associated with solid tumor growth, proliferative retinopathies, and rheumatoid arthritis. To date, there has not been a physiologically relevant in vitro model for human angiogenesis that can be used to screen for enhancers and inhibitors of human angiogenesis and allow further investigation of this process. Initially, culture conditions were established for the induction of human angiogenesis in vitro using fragments of human placental blood vessel. Once the assay was validated, it was examined for its ability to detect known inhibitors and enhancers of angiogenesis. The role of endogenous acidic fibroblast growth factor (aFGF), basic fibroblast growth factor (bFGF), and vascular endothelial growth factor (VEGF) in the angiogenic response was also assessed by performing RT-PCR on both the parent vessel and microvessel outgrowths. In addition, neutralizing antibodies against the three growth factors were used to quantify the relative importance of each growth factor in the angiogenic response. A fragment of human placental blood vessel was embedded in a fibrin gel in microculture plates and was found to give rise to a complex network of microvessels during a period of 7 to 21 days in culture. The response did not require the addition of exogenous growth factors, and thus provides a convenient system for testing substances for their ability to stimulate or inhibit a human in vitro angiogenic response. The ability of the well known angiogenesis antagonist, hydrocortisone, in the presence and absence of heparin, and suramin to significantly inhibit the angiogenic response indicated that the model could be used as an efficient in vitro assay for screening inhibitors of human angiogenesis. The presence of mRNA for aFGF, bFGF, and three isoforms of VEGF, as well as their receptors, FGFR1, FGFR2, Flt-1, and KDR, in vessel outgrowths and the parent vessel, as identified by RT-PCR, strongly implicated aFGF, bFGF, and VEGF as having an important role in this neovascularization response. This was further confirmed by the ability of neutralizing antibodies to aFGF, bFGF, and VEGF to inhibit the angiogenic response to varying extent. Furthermore, the response could be enhanced by the addition of these growth factors in serum-starved cultures. Finally, a stimulatory effect was observed when matrigel was incorporated into the fibrin gel, which indicates that components of the extracellular matrix also play an important role in governing the strength of the angiogenic response. A physiologic angiogenic response relevant to wound healing can be generated by culturing fragments of human placental blood vessels in fibrin gels. The growth factors aFGF, bFGF, and VEGF were shown to play an important role in stimulating this spontaneous angiogenic response. This assay, which can be performed in microcultures, was also shown to be an excellent method for screening for potential inhibitors and enhancers of human angiogenesis.
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PMID:A novel in vitro assay for human angiogenesis. 887 85

Angiogenesis, the sprouting of new blood vessels from pre-existing vessels, is a complex, multicellular phenomenon involving capillary endothelial cell (EC) proliferation, migration, and tissue infiltration. The elucidation of the biochemical and molecular factors which control angiogenesis is fundamental to our understanding of normal blood vessel development, as well as of the pathogenesis of abnormal blood vessel formation. Angiogenesis is associated with numerous physiological processes, including embryogenesis, wound healing, organ regeneration, and the female reproductive cycle. However, abnormal angiogenesis also plays a major role in the pathogenesis of tumor growth, rheumatoid arthritis, atherosclerosis and various retinopathies. The cellular and molecular mechanisms underlying both physiological and pathophysiological angiogenesis are only now beginning to be understood. Vascular endothelial growth factor was initially discovered as an unidentified tumor-derived factor which increased microvascular permeability (vascular permeability factor, VPF). Subsequently, it was determined that the protein exhibited mitogenic effects on endothelial cells, but not other cell types. Multiple receptor subtypes have been described which may in part explain the multiplicity of biological actions that have been ascribed to VEGF/VPF in the literature. In this overview, we briefly summarize what is currently known about VEGF and VEGF receptor biology, as well as VEGF receptor signal transduction mechanisms in endothelial cells.
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PMID:Vascular endothelial growth factor, a multifunctional polypeptide. 899 81

In adult tissues, capillary growth (angiogenesis) occurs normally during tissue repair, such as in the healing of wounds and fractures. Inappropriate capillary growth is associated with various pathological conditions, including tumour growth, retinopathies, haemangiomas, fibroses and rheumatoid arthritis in the case of rampant capillary growth, and nonhealing wounds and fractures in the case of inadequate capillary growth. The female reproductive organs exhibit marked, periodic growth and regression, accompanied by equally striking changes in their rates of blood flow. It is not surprising, therefore, that they are some of the few adult tissues in which angiogenesis occurs as a normal process. Ovarian follicles and corpora lutea have been shown to contain and produce angiogenic factors. These angiogenic factors appear to be heparin-binding and to belong to the fibroblast growth factor (FGF) and vascular endothelial growth factor (VEGF) families of proteins. In addition, factors regulating gap junctional communication may play a critical role in coordinating the interactions between luteal vascular and nonvascular tissues. Further elucidation of the specific physiological roles of these factors in follicular and luteal growth, development and function will ultimately lead to improved methods for regulating fertility in mammals.
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PMID:Angiogenesis in the ovary. 941 56

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