UNIPROT:P15088 - FACTA Search

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

The ability of plasma proteinase inhibitors to inactivate human chymase, a chymotrypsin-like proteinase stored within mast cell secretory granules, was investigated. Incubation with plasma resulted in over 80% inhibition of chymase hydrolytic activity for small substrates, suggesting that inhibitors other than alpha 2-macroglobulin were primarily responsible for chymase inactivation. Depletion of specific inhibitors from plasma by immunoadsorption using antisera against individual inhibitors established that alpha 1-antichymotrypsin (alpha 1-AC) and alpha 1-proteinase inhibitor (alpha 1-PI) were responsible for the inactivation. Characterization of the reaction between chymase and each inhibitor demonstrated in both cases the presence of two concurrent reactions proceeding at fixed relative rates. One reaction, which led to inhibitor inactivation, was about 3.5 and 4.0-fold faster than the other, which led to chymase inactivation. This was demonstrated in linear titrations of proteinase activity which exhibited endpoint stoichiometries of 4.5 (alpha 1-AC) and 5.0 (alpha 1-PI) instead of unity, and SDS gels of reaction products which exhibited a banding pattern indicative of both an SDS-stable proteinase-inhibitor complex and two lower Mr inhibitor degradation products which appear to have formed by hydrolysis within the reactive loop of each inhibitor. At inhibitor concentrations approaching those in plasma where inhibitor to chymase concentration ratios were in far excess of 4.5 and 5.0, the rate of chymase inactivation by both serpin inhibitors appeared to follow pseudo-first order kinetics. The "apparent" second order rate constants of inactivation determined from these data were about 3000-fold lower than the rate constants reported for human neutrophil cathepsin G and elastase with alpha 1-AC and alpha 1-PI, respectively. This suggests that chymase would be inhibited about 650-fold more slowly than these proteinases when released into plasma. These studies demonstrate that although chymase is inactivated by serpin inhibitors of plasma, both inhibitors are better substrates for the proteinase than they are inhibitors. This finding along with the slow rates of inactivation indicates that regulation of human chymase activity may not be a primary function of plasma.
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PMID:Reaction of human skin chymotrypsin-like proteinase chymase with plasma proteinase inhibitors. 259 76

Mast cells at immature stages of development were identified in human tissues by electron microscopic techniques. General morphologic criteria of immaturity (such as a high apparent nuclear:cytoplasmic ratio and small cell size), the presence of few granules (those present being smaller than those in mature mast cells) and a lack of features of mast cell activation were used together to determine the level of maturity. Mast cells were identified as being of the T or TC type by immunogold staining with polyclonal rabbit IgG anti-chymase and murine monoclonal anti-tryptase primary antibodies and the appropriate gold-labeled secondary antibodies. Only those cells with tryptase-positive granules were recognized as mast cells. Immature T mast cell granules contained the same characteristic discrete scrolls found in their mature counterparts and all stained positive for tryptase. The presence of trace amounts of chymase in a minority of these granules, as in mature T mast cells, could not be ruled out. The majority of granules in immature TC mast cells had one or more amorphous electron-dense cores rather than the grating and lattice substructures characteristic of granules in mature TC mast cells. Secretory granules in immature TC mast cells stained positively for tryptase and chymase. Occasional immature TC mast cells contained a complete granule or a portion of a granule with the substructure characteristic of mature TC mast cells, favoring the concept that these TC mast cell forms are developmentally related. Essentially all mast cells in foreskin of newborns appeared immature, whereas 10, 5, 10, and 15% of the mast cells in adult lung, foreskin, bowel mucosa and bowel submucosa, respectively, appeared immature. The distribution of T and TC types of immature mast cells seemed to parallel that of the mature mast cell types. These compositional and ultrastructural differences between immature T and TC types of mast cells suggest that from the time granule formation begins, and possibly before this time, each type of human mast cell follows a distinct developmental pathway.
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PMID:Ultrastructural analysis of maturing human T and TC mast cells in situ. 264 87

We tested four synthetic substances for their histochemical value to demonstrate the catalytic activities of chymase or tryptase in mast cells in sections of human gut. Both Suc-Ala-Ala-Phe-4 methoxy-2-naphthylamide (MNA) and N-acetyl-L-methionine-alpha-naphthyl ester (alpha-N-O-Met) reacted with chymase but not tryptase in mast cells. Conversely, D-Val-Leu-Arg-MNA and Z-Ala-Ala-Lys-MNA were hydrolyzed by mast cell tryptase but not chymase. These results were confirmed by use of two inhibitors of chymotrypsin-like activity, chymostatin and Z-Gly-Leu-Phe-chloromethyl ketone (CK) and two inhibitors of trypsin-like activity, Tos-Lys-CK and D-Val-Leu-Arg-CK. Excellent staining reactions were obtained on cryostat sections of unfixed or aldehyde-fixed tissues and on paraffin sections of Carnoy-fixed tissues. For chymase, however, Suc-Ala-Ala-Phe-MNA is preferred on cryostat sections because it is more specific. On paraffin sections alpha-N-O-Met is preferred because other cells are not then stained. For tryptase, Z-Ala-Ala-Lys-MNA was more selective and more specific and is the preferred general purpose substrate on cryostat sections of aldehyde-fixed tissues and for paraffin sections. D-Val-Leu-Arg-MNA is the preferred substrate for cryostat sections of unfixed tissue. Only a limited number of mast cells showed a reaction for chymase, and these occurred mainly in the submucosa. All mast cells, however, gave a reaction for tryptase, and we recommend the use of either substrate for this enzyme for routine detection of mast cells in human tissues. Double staining for the two main mast cell proteases is most conveniently undertaken on paraffin sections of Carnoy-fixed tissues using MNA substrates for tryptase and alpha-N-O-Met for chymase.
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PMID:Enzyme histochemical discrimination between tryptase and chymase in mast cells of human gut. 264 38

The mast cell proteases tryptase and chymase have long been known to constitute one-fifth of the total protein in mast cells. However, their biological functions have not been easy to study because of the difficulty in obtaining sufficient amounts of the enzymes to study their biological functions. Recently, we have been fortunate to have available a permanent line of dog mastocytoma cells to purify both enzymes to homogeneity, and we have used the purified enzymes in two ways. First, in a series of biological studies, we have discovered unique and potent actions of the enzymes that may provide important insights into the pathogenesis of diseases such as asthma and cystic fibrosis. Important biological activities are also likely to exist in other tissues. Because of their structures, mast cell proteases are likely to act in proximity to their sites of release. Thus, the presence and amounts of tryptase and chymase in specific loci may play important roles in tissue responses. In diseases such as asthma and cystic fibrosis, there is evidence that the expression of these mast cell enzymes changes, and these changes have important pathogenetic implications. Second, we have begun to perform structural studies of the enzymes. The recent cloning of tryptase by our group should assist in the better understanding of its functions. Crystallography of the pure proteins should provide further insights and could be the basis of rational development of potent and selective drugs that will inhibit their actions.
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PMID:Roles of mast cell proteases in airways. 266 41

Mast cells are abundant and are widely distributed in airway tissues. They release their secretory products into microenvironments as diverse as epithelium, smooth muscle, and glands. The major secretory granule proteins of mast cells are proteases that are released outside of the cell with heparin, histamine, and other preformed mediators. In the past few years, investigations in a number of laboratories have rapidly increased our knowledge of the chemical and biological properties of the two major mast cell secretory proteases, tryptase and chymase. Recent experimental evidence suggests the possibility of biologically important roles for tryptase and chymase in the airways, particularly in the regulation of neuropeptide activity, bronchomotor tone, and submucosal gland secretion. The purpose of this commentary is to examine critically the evidence of participation of these mast cell proteases in molecular and physiological events in the airways.
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PMID:Roles of mast cell tryptase and chymase in airway function. 266 22

Rat peritoneal mast cell extract contains an activator of latent human granulocyte gelatinase. The activator has been partially purified and characterized. It shows a similarity to rat mast cell chymase in several properties including its molecular weight, substrate specificity and sensitivity to inhibitors. The activation of latent gelatinase with rat mast cell protease is dependent on protease concentration, incubation time and is mediated through the catalytic site of the activator. The significance of mast cell protease in the regulation of collagenolytic enzymes is discussed.
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PMID:Activation of latent human granulocyte gelatinase by rat mast cell protease. 302 42

In order to define further mast cell heterogeneity in the mouse, affinity-purified antibodies against a 28,000 MW serine proteinase from mouse intestinal mast cells (IMCP) and against rat mast cell proteinase I (RMCPI) were used to characterize mast cell cytoplasmic granules immunohistochemically. On Western blot, anti-IMCP cross-reacted with RMCPI and with a 25,000 MW antigen from isolated mouse serosal mast cells (SMC). Anti-RMCPI did not react with IMCP, although it identified the same 25,000 MW antigen from SMC. Isolated SMC (85-90% pure) lacked the 28,000 MW IMCP on Western blot, even though, immunohistochemically, the cells were stained with both anti-RMCPI and anti-IMCP. Anti-IMCP stained the granules of more than 85% of all mast cells detected with toluidine blue in the tongue or gastrointestinal mucosa. The specificity of anti-RMCPI which, in the rat, detects very few mucosal mast cells was almost identical to that of anti-IMCP for murine tongue and gastric and large intestinal mucosae, but a significant proportion of cells in distal jejunal, ileal and caecal mucosae were not stained with this antibody. The immunohistochemistry of the large numbers of mast cells recruited to jejunum following infection 10 days previously with 300 Trichinella spiralis muscle larvae was similar to that of uninfected control mice. The results show that considerable mast cell heterogeneity exists within the gastrointestinal mucosa of the mouse and indicate that there are both similarities and differences between mouse and rat in the distribution of mast cells and of their granule proteinases.
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PMID:Granule proteinases define mast cell heterogeneity in the serosa and the gastrointestinal mucosa of the mouse. 306 18

Although a great deal has been learned about the mediators produced by mast cells, the ultimate biologic function(s) of mast cell remains a mystery. Histamine, LTC4, PAF, and possibly tryptase (C3a generation) all enhance vasopermeability. Mediators with anticoagulant activities such as heparin and tryptase (fibrinogenolysis) and antithrombotic activity, PGD2, would appear to facilitate dispersion in tissues of the plasma ultrafiltrate brought there by the subgroup of mediators that enhance vasopermeability. In contrast, PAF causes platelet aggregation and chymase may cause arteriolar vasoconstriction (decreasing the volume of plasma reaching venules) by generation of angiotensin II. Assessment of any differential production of mediators by different types of mast cells will be of obvious importance in sorting out the physiologic responses to mast cell activation as well as the pathophysiology of allergic reactions.
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PMID:Mediators of human mast cells and human mast cell subsets. 310 66

A tryptic protease with the characteristics of a mast cell tryptase was purified from dog mastocytoma cells propagated in nude mice. Partial amino acid sequence of the mastocytoma tryptase revealed unexpected differences in comparison with other mast cell and leukocyte granule protease sequences. Extraction from mastocytoma homogenates at high ionic strength, followed by gel filtration and benzamidine affinity chromatography yielded a product with several closely spaced bands (Mr 30,000-32,000) on gel electrophoresis and a single N-terminal sequence. Nondenaturing analytical gel filtration revealed an apparent Mr of 132,000, suggesting noncovalent association as a tetramer. Studies with peptide p-nitroanilides indicated pronounced substrate preferences, with P1 arginine preferred to lysine. Benzoyl-L-Lys-Gly-Arg-p-nitroanilide was the best of the substrates screened. Inhibition by diisopropyl fluorophosphate and tosyllysine chloromethyl ketone indicated that the enzyme is a serine protease. Like the tryptases of human mast cells, mastocytoma tryptic protease was inhibited by NaCl, resistant to inactivation by alpha 1-proteinase inhibitor and plasma, and stabilized by heparin. Comparison of the N-terminal 24 residues of mastocytoma tryptase revealed 80% identity with the more limited sequence reported for human lung tryptase, and surprisingly, closer homology to serine proteases of digestion and clotting than to other leukocyte granule proteases sequenced to date, including mast cell chymase. The N-terminal isoleucine is the homolog of trypsinogen Ile-16 which becomes the new N-terminus upon cleavage of the activation peptide. Thus, the tryptase N-terminus is related to the catalytic domain of activated serine proteases, and lacks the N-terminal regulatory domains found in most clotting and complement serine proteases. These findings provide further evidence that tryptases are unique serine proteases and that they may be less closely related in evolution and function than are other leukocyte granule proteases described to date.
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PMID:Dog mastocytoma tryptase: affinity purification, characterization, and amino-terminal sequence. 311 12

Mast cell secretory granules contain unique tryptic and chymotryptic serine proteases that differ between species and tissues. Direct comparison of these proteases in single-cell types has been hindered by the difficulty of obtaining adequate numbers of pure mast cells. In this study, we were able to compare tryptic and chymotryptic enzyme activity in cells of presumed monoclonal origin, using two stable lines ('BR' and 'G') of dog mastocytomas. The gel-filtration profiles, inhibitor susceptibilities and substrate preferences of tryptic and chymotryptic mastocytoma protease activities established their close resemblance to the tryptases and chymases of human and rodent mast cells. Striking heterogeneity was observed in the amounts and solubilities of the tryptic and chymotryptic activity in the two different mastocytoma cell lines. Incubation of cells from both lines with calcium ionophore A23187 caused non-cytotoxic release of protease activity. In contrast to chymase from rat connective tissue mast cells, protease activity that was insoluble after extraction at low ionic strength became soluble following ionophore-stimulated release. Neither tryptic nor chymotryptic activity was activated during degranulation, suggesting the absence of inactive precursors. Cells of the 'BR' line released both tryptic and chymotryptic activity in parallel with the granule marker histamine; cells of the 'G' line released a much smaller proportion of tryptic activity than of either chymotryptic activity or histamine. These differences in release of granule constituents from cells of common origin could be explained by developmental variations in the production of performed mediators or by differential regulation of preformed mediator release. We conclude that the differences in protease content, solubility and release in these mastocytoma lines are useful in evaluating the potential pathophysiological significance of the contribution of proteases to mast cell heterogeneity.
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PMID:Tryptase and chymase: comparison of extraction and release in two dog mastocytoma lines. 312 30

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