Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P15088 (mast cell)
14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the first part of the study we analyzed the morphology of mast cells in autoimmune thyroiditis of BB/W rats. In the early stage of thyroiditis mast cells showed exocytosis of granules into the interstitium; this was associated with disorganization of the extracellular matrix and the appearance of a translucent ground substance in stroma. Mast cells were not seen in the mononuclear infiltrates in the later stages of thyroiditis. In order to further study the effect of mast cells on the extracellular matrix, we evaluated the effect of mast cell lysate and purified chymase on the matrix of cultured thyroid cells. Mast cells were obtained from peritoneal cavity; mast cell chymase was purified by anion exchange chromatography. After exposure to chymase there was a reduction of pericellular fibronectin in cultured thyroid cells, while laminin in matrix remained unchanged. Similarly, as found by gel electrophoresis, soluble fibronectin and vitronectin were digested by chymase in the reaction mixture. Cell attachment on both fibronectin and vitronectin was significantly decreased upon exposure of matrix proteins to chymase. The effects of chymase were abolished by enzyme inhibitor phenylmethane sulfonyl fluoride. These data suggest that mast cells possess proteolytic enzymes capable of digesting different host proteins which may have a role in the thyroid cell interaction with the surrounding matrix.
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PMID:The effect of mast cell chymase on extracellular matrix: studies in autoimmune thyroiditis and in cultured thyroid cells. 128 41

The adhesive interactions of activated mast cells with the extracellular matrix play an important role in anchorage and cellular motility. In this report we demonstrate that IL-3-dependent bone marrow-derived mast cells adhere to plate-bound vitronectin with high affinity in a saturable and dose-dependent manner. This adhesion interaction is unique in that it does not require prior mast cell activation through Fc epsilon RI or after treatment with PMA. It is inhibited by divalent cation chelation and by competitive inhibition with a synthetic Arginine-Glycine-Aspartate-Serine tetrapeptide. Polyclonal antisera for alpha v beta 3, an integrin known to bind vitronectin, inhibits attachment to plate-bound vitronectin in a dose-dependent manner. Comparison of the adhesion interactions for vitronectin, fibronectin, and laminin indicate that adhesion to vitronectin is greater than that seen with either fibronectin or laminin, either in the presence or absence of PMA. FACS analysis using a monoclonal hamster anti-murine vitronectin receptor (alpha v) antibody followed by a fluorescein-conjugated rabbit anti-hamster IgG revealed no change in surface vitronectin receptor expression after Fc epsilon RI-mediated cell activation. Proliferation assays with correction for cell viability revealed a 25% increase in cell number above the maximal IL-3 response over a 24-h period of adhesion to a vitronectin-coated surface and a 41% increase over 96 h of adhesion to vitronectin. Binding to plate-bound vitronectin was not able to sustain cell viability in the absence of IL-3. Thus, IL-3-dependent bone marrow-derived mast cells adhere to vitronectin, an extracellular matrix protein present throughout connective tissues. This interaction generates a signal that results in the augmentation of the maximal IL-3-dependent mast cell proliferative response, thus demonstrating at least one way in which the interaction between mast cells and extracellular matrix alter the biologic responsiveness of the mast cell.
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PMID:IL-3-dependent mast cells attach to plate-bound vitronectin. Demonstration of augmented proliferation in response to signals transduced via cell surface vitronectin receptors. 138 29

The presence of circulating IgG, IgA and IgM antibodies to native cartilage collagens in some patients with rheumatoid arthritis (RA) suggests that an autoimmune response to cartilage collagens may be involved in the pathogenesis of RA. However, the relevance of such antibodies to the pathological process remains unclear, and it is likely that many humoral and cellular derived factors combined to trigger events leading to the chronicity of the rheumatoid lesion. Since histological and biochemical studies have suggested the involvement of mast cells in the rheumatoid joint, we have studied the frequency of IgE antibodies directed against the cartilage collagens type II, IX and XI in patients with active rheumatoid disease. Of the 91 patients' sera tested, 32 had significant levels of IgE anti-cartilage collagen antibodies when compared with non-arthritic controls. Total serum IgE levels did not correlate with the presence of IgE anti-collagen antibodies, nor were any patients positive for IgE antibodies to fibronectin, a widely distributed extracellular matrix component. These results are consistent with an allergic type I hypersensitivity reaction to cartilage antigens in RA involving mast cell and basophil degranulation.
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PMID:Serum IgE anti-cartilage collagen antibodies in rheumatoid patients. 186 71

The MCP-5 murine mast cell line, as well as primary bone marrow-derived cultured mast cells (BMCMC), are demonstrated to bind to fibronectin, a ubiquitous adhesion protein of the extracellular matrix. BMCMC required activation by phorbol myristate acetate (PMA) to adhere to fibronectin, whereas MCP-5 displayed spontaneous adherence. The binding of both MCP-5 and BMCMC was dose dependent, with maximal adhesion at a fibronectin concentration of 20 micrograms/ml. The 120,000 molecular weight (MW) proteolytic fragment of fibronectin containing the RGDS cell attachment site was able to substitute for the native fibronectin molecule in promoting mast cell attachment. Mast cell adhesion to fibronectin, in addition, could be inhibited by the RGDS peptide alone. These data suggest that, in addition to the previously described mast cell-laminin interactions, mast cells also adhere to fibronectin, thus providing further insight into their tissue localization and possible roles in processes such as wound healing and fibrosis.
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PMID:Mast cell adhesion to fibronectin. 191 99

Increased numbers of mast cells are commonly seen at sites of increased bone resorption and in osteoporosis. Long-term administration of heparin, a major component of mast cell granules, causes osteoporosis. We therefore tested the effect of heparin on bone resorption by osteoclasts disaggregated from neonatal rat long bones. We found that, in the absence of serum, heparin was without effect on osteoclast function. However, in the presence of newborn calf serum, rat serum, or bovine platelet-poor plasma-derived serum, heparin, in the range 25-100 micrograms/ml, induced an increase in osteoclastic bone resorption. Heparin appeared to act through binding and enhancement of an osteoclast resorption-stimulating activity (ORSA) present in serum. A number of known factors that show an affinity for heparin, including transforming growth factor-beta, platelet-derived growth factors, insulin-like growth factors I or II, acidic or basic fibroblast growth factors, fibronectin, or laminin, could not substitute for ORSA, suggesting that the activity may represent a novel heparin-binding factor. The ability of glycosaminoglycans (GAGs) and related molecules to enhance resorption was dependent on the degree of sulfation and on their size: The high molecular weight GAG heparan sulfate and polysaccharides fucoidan or dextran sulfate showed a similar effect, while low molecular weight heparin, chondroitin-2-sulfate, chondroitin-4-sulfate, and chondroitin-6-sulfate were without effect. We propose that mast cells or heparin therapy increases bone resorption through augmentation of the activity of a factor involved in the local and systemic regulation of osteoclastic bone resorption.
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PMID:Heparin augments osteoclast resorption-stimulating activity in serum. 204 Jun 55

In order to examine the biological relevance of known in vitro stimuli for mast cell growth, the following substances were injected at two day intervals into the skin of Wistar rats: Ascaris Ag, epidermal growth factor, basic fibroblast growth factor, fibronectin, phytohemagglutinin-stimulated spleen cell supernatants, L-cell fibroblast supernatants and horse serum alone or in combination with L-cell supernatants. In some experiments, rats were also injected with fresh or cultured peritoneal cells. Single injections of the different factors had no significant effect on mast cell numbers. After multiple injections (4-10 x), deep dermal and submuscular mast cell numbers increased most markedly in ascaris sensitized animals at sites of ascaris antigen injections and in normal animals in response to a combination of horse serum and L-cell supernatants. Less pronounced increases occurred with all other test substances except for epidermal growth factor which was inactive. Mast cell numbers were also increased at sites of injections of immature, cultured mast cells and less so after injections of mast cell precursors and mature cells. Taken together, these data show that in vivo growth and differentiation of cutaneous mast cells can be influenced by several fibroblast- and lymphocyte-derived growth factors.
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PMID:In vivo studies of factors influencing mast cell numbers in rat skin. 205 35

In allergic and nonallergic lung diseases, if intraluminal mast cells adhere to airway epithelium, inflammatory mediators released from activated mast cells may reach high local concentrations and thus greatly affect airway function. To determine whether mast cells adhere to airway epithelial cells, radiolabeled or unlabeled dog mastocytoma cells were incubated with cultured dog tracheal epithelial cells, with extracellular matrix substrates, and with cryostat-cut sections of dog trachea. Mast cells adhered well to cultured epithelial cells (35 +/- 13% adhesion, mean +/- 1 SD, n = 23) but adhered poorly to types I and IV collagen or to fibronectin (less than 7.5% mean adhesion in all cases). Similarly, in tracheal tissue sections, mast cells adhered preferentially to epithelial cells in surface epithelium or in submucosal glands but not to basal membrane or connective tissue. Adhesion to cultured epithelial cells was a characteristics of a subpopulation of mast cells, could persist for more than 48 h, did not require energy or the presence of divalent cations, and was not mediated by a known family of leukocyte-associated adhesion glycoproteins. Adhesion was completely abolished by pretreatment of mast cells with pronase E or proteinase K but not with trypsin (up to 10 micrograms/ml at 37 degrees C for 20 min each). In contrast, pretreatment of cultured epithelial cells with any of these proteinases had no effect on adhesion. It is concluded that dog mastocytoma mast cells adhere to dog tracheal epithelial cells and do so selectively. It is suggested that mast cell adhesion to airway epithelium may play a role in the effectiveness of mast cell-epithelial cell interactions, and thus, in certain lung diseases, airway function may be affected by intraluminal mast cells more than is currently appreciated.
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PMID:Selective adhesion of mast cells to tracheal epithelial cells in vitro. 245 Sep 14

We have identified a late, committed stage in the differentiation of the mast cell progenitor just before granulation. Mast cell committed progenitors (MCCP) are nongranulated cells with a density of 1.060 to 1.070 g/ml which can be harvested from the mesenteric lymph node of mice infected with Nippostrongylus brasiliensis. Mast cell-committed progenitors are able to proliferate and differentiate in the absence of IL-3 or IL-4 when cultured on a monolayer of embryonic skin or 3T3 fibroblasts and can form colonies in methylcellulose supplemented with fibroblast conditioned medium. Fibroblast conditioned medium appears to contain a soluble MCCP proliferation factor that maintains biologic activity when heated to 56 degrees C for 45 min but is destroyed by incubation with either trypsin or chymotrypsin. It can be selectively precipitated with 60 to 70% saturated ammonium sulfate. The factor is not absorbed by immobilized antibodies to nerve growth factor. The MCCP proliferation activity of the factor could not be mimicked by IL-1, IL-2, IL-4, granulocyte-macrophage-CSF, granulocyte-CSF, macrophage-CSF, IFN-alpha/beta, IFN-gamma, nerve growth factor, epidermal growth factor, serum fibronectin, heparin, or a number of glycosaminoglycans. At high salt concentrations, the factor passes through a 50-kDa membrane and can be concentrated above a 5-kDa membrane. MCCP acquire a connective tissue phenotype when cultured on a fibroblast monolayer and a mucosal phenotype when cloned in the presence of conditioned medium from PWM-stimulated spleen cells. When cultured in the absence of IL-3 on a monolayer of embryonic skin or 3T3 fibroblasts, mast cell-committed progenitors produce mast cells which stain with berberine sulfate suggesting a connective tissue phenotype; however, the mast cells that develop when mast cell-committed progenitors are cultured in the presence of IL-3 or conditioned media from PWM-stimulated spleen cells do not stain with berberine sulfate. MCCP intercalate into monolayers of embryonic skin or 3T3 fibroblasts, but T cells are not able to associate with the monolayer and can be completely washed away. Attempts to enrich mast cell-committed progenitors by intercalation and elution from embryonic skin monolayers proved unsuccessful, but some enrichment of mast cell-committed progenitors could be achieved by discontinuous Percoll gradients. Thus, we have identified a way to obtain late-stage, mast cell-committed progenitors in an environment that is virtually uncontaminated with other hematopoietic progenitors.
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PMID:The mast cell-committed progenitor. I. Description of a cell capable of IL-3-independent proliferation and differentiation without contact with fibroblasts. 278 62

Macrophages possess a number of surface receptors that are capable of mediating the internalization of lipoproteins. The low-density lipoprotein (LDL) receptor of human monocyte macrophages recognizes apolipoprotein B-100 and apolipoprotein E and is rapidly regulated in response to changes in intracellular cholesterol levels. In contrast, in J774 macrophages LDL receptor regulation is defective and LDL can cause massive cholesterol accumulation. The beta migrating very low density lipoprotein (beta-VLDL) receptor is poorly regulated by cellular cholesterol concentrations, readily recognizes apolipoprotein E, poorly recognizes apolipoprotein B-100, and is immunologically related to the LDL receptor. The scavenger receptor (acetyl-LDL receptor) appears to have a molecular weight of 250,000 and is not regulated by cellular cholesterol levels. This receptor recognizes LDL that has been chemically or biologically altered. LDL complexes can also enter macrophages and cause cholesterol accumulation. Examples of such complexes are LDL-dextran sulphate complexes, LDL-proteoglycan aggregates, LDL-mast cell granule complexes, LDL-heparin-fibronectin-denatured collagen complexes, and LDL-antibody complexes. The entry of lipoprotein into macrophages by a pathway that is poorly regulated or is not regulated by cellular cholesterol concentrations appears to be a prerequisite for the formation of arterial foam cells.
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PMID:Macrophage lipoprotein receptors. 285 2

Normally the daily volume of lower respiratory tract secretions, in man, is probably less than 100 ml. In hypersecretory disease the volume increases sufficiently to cause cough and expectoration of secretions as sputum. The proportions which are sol or gel vary in disease as does the way in which constituent molecules partition in each phase. The constituent molecules and the cells which produce them (indicated in parentheses) may be classified as follows: 1. Mucus-glycoproteins present as droplets, or sheets (produced by mucous cells), periciliary fluid (serous or ciliated cell or a transudate), surface muco-substance (all epithelial cells) or surfactant hypophase (Clara or type II alveolar cells). 2. Proteins and peptides such as lysozyme (serous cell and macrophage), lactoferrin (serous cell and neutrophil), secretory piece (surface epithelium and submucosal glands), regulatory neuropeptides (dense-core granulated cell and both motor and sensory nerves) and fibronectin (alveolar macrophages). 3. Glycosaminoglycans such as heparan sulphate (epithelial membranes), heparin (mast cell), chondroitin sulphates and hyaluronate (connective tissue constituents). 4. Lipids including triglycerides (stored in cells) glycolipids (cell membrane), phospholipids (type II alveolar cells), sphingolipids (cell membrane), steroids (? Clara cells) and terpenes (cell membrane). 5. Anti-proteases and anti-oxidants such as bronchial protease inhibitors (serous anc Clara cells), alpha-2-macroglobulin (macrophage), alpha-1-antitrypsin (transudate) and anti-oxidants (type II alveolar cell and macrophage). 6. Other 'secretions' including ions and water (surface epithelium and submucosal glands), mediators of inflammation (migratory cell granules and their membranes), and serum proteins (present in transudate/exudate).
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PMID:The origins of secretions in the lower respiratory tract. 332 67


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