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Query: UNIPROT:P15088 (mast cell)
 14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human mast cells can be divided into two subsets based on serine proteinase composition: a subset that contains the serine proteinases tryptase and chymase (MCTC), and a subset that contains only tryptase (MCT). In this study we examined both types of mast cells for two additional proteinases, cathepsin G and elastase, which are the major serine proteinases of neutrophils. Because human mast cell chymase and cathepsin G are both chymotrypsin-like proteinases, the properties of these enzymes were further defined to confirm their distinctiveness. Comparison of their N-terminal sequences showed 30% nonidentity over the first 35 amino acids, and comparison of their amino acid compositions demonstrated a marked difference in their Arg/Lys ratios, which was approximately 1 for chymase and 10 for cathepsin G. Endoglycosidase F treatment increased the electrophoretic mobility of chymase on SDS gels, indicating significant N-linked carbohydrate on chymase; no effect was observed on cathepsin G. Immunoprecipitation and immunoblotting with specific antisera to each proteinase revealed little, if any, detectable cross-reactivity. Immunocytochemical studies showed selective labelling of MCTC type mast cells by cathepsin G antiserum in sections of human skin, lung, and bowel. No labeling of mast cells by elastase antiserum was detected in the same tissues, or in dispersed mast cells from lung and skin. A protein cross-reactive with cathepsin G was identified in extracts of human skin mast cells by immunoblot analysis. This protein had a slightly higher Mr (30,000) than the predominant form of neutrophil cathepsin G (Mr 28,000), and could not be separated from chymase (Mr 30,000) by SDS gel electrophoresis because of the size similarity. Using casein, a protein substrate hydrolyzed at comparable rates by chymase and cathepsin G, it was shown that about 30% of the caseinolytic activity in mast cell extracts was sensitive to inhibitors of cathepsin G that had no effect on chymase. Hydrolytic activity characteristic of elastase was not detected in these extracts. These studies indicate that human MCTC mast cells may contain two different chymotrypsin-like proteinases: chymase and a proteinase more closely related to cathepsin G, both of which are undetectable in MCT mast cells. Neutrophil elastase, on the other hand, was not detected in human mast cells by our procedures.
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PMID:Identification of a cathepsin G-like proteinase in the MCTC type of human mast cell. 221 56

Two types of mast cells were previously defined based on neutral protease composition and ultrastructurally distinguished by granule morphology. The MCT cell contains tryptase with little, if any, chymase and was noted to have varying numbers of irregularly-shaped granules with discrete scrolls or particulate or beaded material. The MCTC cell contains both tryptase and chymase and was noted to have more regularly-shaped electron-dense granules with characteristic grating or lattice substructures. This study reports the use of electron microscopy and immunogold staining with antibodies against tryptase and chymase to demonstrate in mature unstimulated MCTC cells in situ, the focal occurrence of discrete or complete scrolls in peripheral regions of certain granules where chymase is deficient. these scrolls often appeared to be protruding from the granule. Granules containing discrete scrolls were observed in 10 of 340 mature MCTC cells, accounting for less than 1% of MCTC granules. Other granules in such cells as well as other regions of the granule under consideration, showed strong staining for both tryptase and chymase. These results strengthen the association of morphology with protease composition in human mast cell secretory granules, but weaken the use of morphology alone to identify the MCTC and MCT types of human mast cells. Whether the uncommon occurrence of focal absence of chymase in MCTC cells arises by chance or as a result of factors relating to mast cell development, interconversion, activation, or regranulation will require further clarification. In conclusion, the appearance of grating or lattice structures in mast cells indicates the presence of chymase and tryptase, characteristic of the MCTC phenotype, whereas multiple discrete scrolls in irregularly shaped granules suggests the MCT phenotype.
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PMID:Human MCTC type of mast cell granule: the uncommon occurrence of discrete scrolls associated with focal absence of chymase. 223 9

The distribution of the rat mast cell granule proteinases, rat mast cell proteinase I and II (RMCPI and II respectively) has been determined in rat tissues with the aid of highly sensitive and specific enzyme-linked immunosorbent assays (ELISA) and paired immunofluorescence. The major source of RMCPII is the gastrointestinal tract, although low concentrations were also detected in non-mucosal sites including thymus, mesenteric lymph nodes, liver, bone marrow, heart, kidney and spleen. Cellular localization by paired immunofluorescence showed that most cells contained either RMCPI or RMCPII, although a minor subpopulation in which individual cells contained both proteinases was also identified in a few tissues. RMCPII-containing cells predominated at mucosal surfaces but were also found in non-mucosal tissues. Individual cells expressing both RMCPI and II were present in lung, liver mesenteric lymph node and submucosa of stomach and were occasionally represented amongst serosal cells from the peritoneal cavity. Connective tissue mast cells of skin and tongue were identified as major sources of RMCPI, although this proteinase was widely distributed in all tissues examined. The present study demonstrates the heterogeneity of mast cell proteinase phenotypes in the rat and emphasises the difficulties in determining mast cell subtypes on tissue location alone.
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PMID:Mapping of the rat mast cell granule proteinases RMCPI and II by enzyme-linked immunosorbent assay and paired immunofluorescence. 224 13

Tissue mast cells play a central role in immediate hypersensitivity reactions. The clinical manifestations of these reactions appear to be dependent, in large part, on the anatomic location of the stimulated mast cells and the type of mediators released. In vivo and in vitro studies indicate that the tissues in which mast cells reside may greatly influence their biochemical composition, expression of surface receptors, and response to potential stimuli. Although all human mast cells in different organs store similar concentrations of histamine, heparin, and tryptase, cutaneous mast cells appear to be the predominant source of mast cell-derived chymase. Furthermore, at the time of stimulation, human skin mast cells predominantly form PGD2, whereas lung and intestinal mast cells generate LTB4, LTC4, and PGD2. Functional studies indicate that human cutaneous mast cells differ from human lung, heart, and intestinal mast cells. Skin mast cells are responsive to a variety of immunologic and nonimmunologic stimuli in vitro, whereas human pulmonary, cardiac, and intestinal mast cells are relatively refractory to many of these stimulatory signals. Taken together, these observations indicate that mast cells may assume different, and possibly specialized, functions within a specific tissue. Such site-to-site variation potentially could have important clinical significance, to the extent that information gained from mast cells in one organ may not be applicable to a mast cell population in a different tissue. Furthermore, these differences among human mast cells may not be confined to their biochemical composition and responses to various stimuli, but also may extend to the effectiveness of different anti-allergic preparations. Therefore, these observations underscore the importance of continued detailed investigation of human mast cells from different anatomic sites.
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PMID:IgE and immediate hypersensitivity. 224 56

Lesional (n = 15) and non-lesional (n = 10) skin of subjects with mastocytosis was analysed for the distribution and concentration of trypase positive, chymase negative mast cells (MCT) and tryptase positive, chymase positive mast cells (MCTC) cells and compared to normal skin (n = 23) and non-lesional skin of subjects with unexplained anaphylaxis or flushing episodes (n = 6). Skin biopsies were fixed in Carnoy's fluid and subjected to double immunohistochemical staining with biotinylated mouse monoclonal anti-chymase antibody followed by alkaline phosphatase-conjugated mouse monoclonal anti-tryptase antibody. MCTC cells were the only type of mast cells seen in all specimens analysed and in each case were more numerous in superficial compared to deep regions of dermis. The concentration (mean +/- s.d.) of mast cells in the superficial dermis of mastocytosis lesions (40 985 +/- 21 772 mast cells/mm3) was significantly increased over that in corresponding areas of non-lesional skin from subjects with mastocytosis (7178 +/- 3607 mast cells/mm3), skin from subjects with idiopathic anaphylaxis or flushing episodes (6974 +/- 3873 mast cells/mm3) and normal skin (7347 +/- 2973 mast cells/mm3). The exclusive presence of MCTC cells in skin lesions of mastocytosis which are characterized by non-malignant hyperplasia of mast cells suggests involvement of local tissue factors in mast cell recruitment and differentiation.
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PMID:Mast cells in cutaneous mastocytosis: accumulation of the MCTC type. 231 Sep 82

Exogenous addition of purified chymase, a rat serosal mast cell (RSMC) chymotryptic enzyme, results in RSMC degranulation at 37 degrees, but not at 1 degree. Chymase can cause an active site-dependent inducing event at 1 degree such that RSMC degranulation occurs if the cells are later incubated at 37 degrees. RSMC exposed to chymase or other stimuli were surface radiolabelled using 125I and Iodo-Gen, solubilized with 1% Nonidet-40, and the resulting 25,000 g supernatants analysed by SDS-PAGE and autoradiography. A 125I-labelled RSMC membrane protein of approximate 90,000 MW decreased upon exposure to either chymase or alpha-chymotrypsin (alpha-CT) for 5 min at 37 degrees or to chymase for 60 min at 1 degree. Exposure of RSMC to the secretagogues ionophore A23187, compound 48/80, and anti-IgE for 5 min at 37 degrees resulted in beta-hexosaminidase (a secretory granule enzyme) release, but did not cause a detectable change in the 90,000 MW surface-labelled protein. Lima bean trypsin inhibitor, which inhibits both the esterase and RSMC degranulation activities of chymase and alpha-CT, prevented the disappearance of the 125I-labelled 90,000 MW band when added with chymase or alpha-CT. Exposure of RSMC to chymase at 1 degree for 0-10 min, prior to addition of LBTI, led to a progressive disappearance of the 90,000 MW band, which corresponded to the kinetics of priming for subsequent RSMC degranulation at 37 degrees. When RSMC were exposed to trypsin (2.5 micrograms/ml) for 0-120 min at 1 degree, a progressive disappearance of the 90,000 MW band occurred, in association with a loss of sensitivity to subsequent activation by chymase at 37 degrees. The disappearance of the 90,000 MW determinant in association with chymase-mediated priming for degranulation and the inability of chymase to mediate degranulation of trypsin-treated RSMC, which lack this membrane protein, suggests that it is involved in chymase-mediated RSMC degranulation.
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PMID:Cleavage of a rat serosal mast cell membrane component during degranulation mediated by chymase, a secretory granule protease. 231 65

Skin mast cells release the neutral protease chymase along with histamine during degranulation. To test the hypothesis that chymase modulates histamine-induced plasma extravasation, we measured wheal formation following intradermal injection of purified mast cell chymase and histamine into the skin of ragweed-allergic dogs. We found that chymase greatly augments histamine-induced wheal formation. The magnitude of the potentiating effect increases with increasing doses of chymase and becomes maximal approximately 30 min after administration. Injection of chymase without histamine does not evoke wheal formation. The chymase potentiation of histamine-induced skin responses is prevented completely by pretreatment with the H1-receptor antagonist pyrilamine, and is prevented by inactivation of chymase with soybean trypsin inhibitor, suggesting that both histamine and preserved catalytic activity are required for the effects of chymase. To examine the effects of histamine and chymase released in situ in further experiments, we measured wheal size following local degranulation of mast cells by intradermal injection of ragweed antigen or compound 48/80. We found that pretreatment with either soybean trypsin inhibitor or pyrilamine markedly reduces ragweed antigen- or 48/80-induced wheal formation, supporting the results obtained by injection of exogenous chymase and histamine. These findings suggest a novel and important proinflammatory role for chymase in modulating the effects of histamine on vascular permeability during mast cell activation.
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PMID:Mast cell chymase potentiates histamine-induced wheal formation in the skin of ragweed-allergic dogs. 238 2

The low-molecular-weight inhibitor of chymase, chymostatin, and F(ab')2 fragments of anti-chymase markedly inhibited histamine release induced by anti-rat immunoglobulin E (IgE) but not that induced by compound 48/80. Inhibitors with molecular weights of more than 6,000, such as alpha 1-antichymotrypsin and aprotinin, and non-immunized F(ab')2 had no effect on histamine release. These results suggest that chymase in mast cell granules plays an essential role in the process of IgE-mediated degranulation. After degranulation, released chymase was associated with the cell surface while released tryptase was present in the extracellular milieu as a complex with a protein associated with tryptase (trypstatin).
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PMID:Antibody and inhibitor of chymase inhibit histamine release in immunoglobulin E-activated mast cells. 241 58

An antiserum was produced against a chymotryptic proteinase purified from human skin. The antiserum did not cross-react with human leukocyte cathepsin G and elastase, rat mast cell proteinase I, and human skin tryptase. Indirect immunofluorescent staining of frozen skin sections to localize the proteinase showed cytoplasmic staining of cells scattered about the papillary dermis and around blood vessels and appendages. Restaining these sections with toluidine blue revealed that the fluorescently stained cells contained metachromatically staining granules, the major distinguishing feature of mast cells. A similar correlation was found in lung tissue. Ultrastructural studies employing the ferritin bridge technique to immunologically identify the proteinase additionally localized the proteinase to mast cell granules. Biochemical and immunochemical characterization of chymotryptic activity solubilized from isolated human lung mast cells identified a chymotryptic proteinase that may be identical to the skin chymotryptic proteinase. These studies establish that human skin mast cells contain a chymotrypsin-like proteinase that is a granule constituent and provide evidence that indicates a comparable proteinase is also present in lung mast cells.
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PMID:Identification of a chymotrypsin-like proteinase in human mast cells. 242 94

Alkaline proteinase (chymase) was localized in skeletal muscle tissues from seven day streptozotocin-diabetic rats. Extruded mast cell granules containing proteinase were visible in the extracellular space and inside certain myofibers from both extensor digitorum longus (EDL) and soleus muscles. Additional diffuse staining was present in the cytoplasm of many EDL fibers. This evidence provides support for a possible role of muscle cells in the endocytosis of mast cell granules.
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PMID:Immunofluorescent localization of an alkaline proteinase in skeletal muscles from diabetic rats. 242 59


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