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)

Rat mast cell protease 1 (RMCP-1) is a chymotrypsin-like serine protease (chymase) that is specifically expressed by connective-tissue-type mast cells. It is stored in the secretory granules of the cells in a complex with heparin proteoglycan, and the chymase/heparin proteoglycan complexes are released following mast cell activation. The present study was undertaken to examine if the association with heparin proteoglycan influenced the regulation of RMCP-1 by various macromolecular protease inhibitors. Endogenous mast cell heparin proteoglycan was shown to significantly block the inhibition of RMCP-1 by the serpins alpha 1-protease inhibitor and alpha 1-antichymotrypsin, as well as the inhibition by alpha 2-macroglobulin, soybean trypsin inhibitor and plasma. The blocking of protease inhibition showed an optimum at a RMCP-1/proteoglycan ratio of 5:1 (by mass), corresponding to approximately 80 RMCP-1 molecules bound/proteoglycan molecule. Chymase activity present on intact peritoneal mast cells, i.e. present in its native complex with heparin proteoglycan, was also shown to be largely resistant to inhibition by alpha 1-antichymotrypsin and alpha 1-protease inhibitor. Heparin 10-saccharides and 20-saccharides were inefficient in preventing the interaction of RMCP-1 with alpha 1-antichymotrypsin, whereas pig mucosal heparin (approximately 50 monosaccharide units) blocked protease inhibition. We have previously shown that heparin potentiates the catalytic activity of RMCP-1 and, in the present study, we show that the mechanism for chymase activation involves a sixfold reduction of the Km,app value of RMCP-1 for the chromogenic substrate S-2586. Thus, the association of mast cell chymase with heparin proteoglycan may serve both to potentiate the catalytic activity of the enzyme and to increase the life-span of the chymases by preventing their inhibition after exocytosis.
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PMID:Regulation of rat mast cell protease 1 activity. Protease inhibition is prevented by heparin proteoglycan. 758 46

Fluticasone propionate is a new corticosteroid based on the androstane nucleus. It is more lipophilic than beclomethasone dipropionate (BDP) and budesonide, and binds more avidly to human lung tissue. It has an absolute affinity (KD) of 0.5 nM for the glucocorticoid receptor and a relative receptor affinity 1.5- and 3.0-times greater than that of beclomethasone-17-monopropionate (17-BMP) and budesonide, respectively. The rate of association with the receptor is faster and the rate of dissociation slower than with standard corticosteroids. As a result, the half-life of the corticosteroid-receptor complex is > 10 h. Fluticasone propionate is also highly selective for the glucocorticoid receptor, with little or no activity at other steroid receptors. Pretreatment with fluticasone propionate significantly inhibits the increase in mast cell numbers in the nasal mucosa of rats chronically exposed to toluene di-isocyanate (TDI), and suppresses TDI-induced mast cell degranulation. It is more potent in vitro than dexamethasone, BDP and budesonide in inhibiting anti-CD3-induced human T-lymphocyte proliferation, in attenuating tumour necrosis factor-alpha-induced endothelial cell adhesion molecule expression, and in increasing secretory leucocyte protease inhibitor levels in airway epithelial cells. It is also more potent and longer-acting than other corticosteroids in inhibiting oedema formation, interleukin-5 (IL-5)-induced blood eosinophilia, and IL-5- or platelet activating factor-stimulated eosinophil accumulation in the lung. Fluticasone propionate therefore has increased intrinsic glucocorticoid potency and high topical anti-inflammatory activity.
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PMID:The anti-inflammatory profile of fluticasone propionate. 760 48

Previously, we characterized murine mast cell procarboxypeptidase A (MC-proCPA) as an inactive zymogen. To investigate the mechanisms for this lack of enzymatic activity and the processing of the zymogen to the active form, we now have performed molecular modeling of the tertiary structure of murine MC-proCPA based on the x-ray crystallographic structures of porcine pancreatic procarboxypeptidases A and B. Our model predicts that MC-proCPA retains a high degree of structural similarity to its pancreatic homologues. The globular propeptide physically blocks access to the fully formed active site of the catalytic domain and contains a salt bridge to the substrate-binding region that precludes docking of even small substrates. Based on consideration of the predicted tertiary structure and charge field characteristics of the model, the activation site (between GluA94 and Ile1) appears to be highly exposed even after MC-proCPA binds to secretory granule proteoglycans. Based on the steady-state levels of MC-proCPA versus MC-CPA, cycloheximide inhibition of protein synthesis, and brefeldin A blockage of protein sorting, we show that MC-proCPA is processed rapidly in murine mast cell line KiSV-MC14 with a half-life of 26 +/- 5 min (mean +/- S.D., n = 3), and the processing occurs within the secretory granules. The enzyme responsible for this processing may be a thiol protease since treatment of the KiSV-MC14 with 200 microM E-64d, a selective thiol-protease inhibitor, increases MC-proCPA by 2.7 +/- 0.2-fold (mean +/- S.D., n = 3) within 6 h of application.
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PMID:Mast cell procarboxypeptidase A. Molecular modeling and biochemical characterization of its processing within secretory granules. 783 95

Cleavage after Met596 of the beta-amyloid precursor protein to generate the N-terminus of beta-protein indicates the activity of a protease having chymotrypsin-like specificity. A chymotrypsin-like protease is further implicated in Alzheimer's disease by the increased synthesis of the protease inhibitor alpha 1-antichymotrypsin in pathologically affected brain regions and by the presence in the amyloid deposits of inactivated forms of alpha 1-antichymotrypsin (indicating irreversible binding to a target chymotrypsin-like protease). In the present report, we have purified from rat brain a chymotrypsin-like protease that (a) binds with high affinity to human alpha 1-antichymotrypsin, (b) proteolytically generates a beta-protein-containing C-terminal fragment from full-length recombinant human beta-amyloid precursor protein, and (c) selectively cleaves methoxysucinyl-Glu-Val-Lys-Met- p-nitroanilide (a substrate modeling the protease recognition domain for the beta-protein N-terminal cleavage site). Amino acid sequences of tryptic fragments of the purified rat brain chymotrypsin-like protease indicate an identity with rat mast cell protease I. Moreover, the ontogeny and compartmentalization of rat brain chymotrypsin-like protease are consistent with those of connective tissue-type mast cells in the meningeal and intracortical perivasculature. Because these areas in human brain form extensive beta-amyloid deposits in Alzheimer's disease, Down's syndrome, and hereditary cerebral hemorrhage with amyloidosis of Dutch origin, the present findings suggest that a brain mast cell chymotrypsin-like protease may participate in generating perivascular beta-protein, which ultimately aggregates into beta-amyloid deposits.
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PMID:Identification of a chymotrypsin-like mast cell protease in rat brain capable of generating the N-terminus of the Alzheimer amyloid beta-protein. 833 43

A partial cDNA encoding bovine tryptase, an oligomeric serine proteinase previously isolated from bovine mast cells, was obtained by reverse transcription/polymerase chain reaction of mast cell mRNA, using combinations of primers designed on the basis of information obtained from partial sequencing of the purified protein. The complete amino acid sequence of bovine tryptase (245 residues) was deduced from a 711-bp nucleotide sequence and from Edman degradation of the protein. Bovine tryptase primary structure has an identity of about 75% with tryptases from other species and includes all the essential residues of the active-site regions; sequence data in the region of the putative substrate binding pocket suggest a rearrangement capable of maintaining the specificity of trypsin-like proteinases. From the same mast cell mRNA, cDNA encoding bovine trypsin protease inhibitor (BPTI) was obtained and amplified with specific primers, confirming the synthesis of BPTI in these cells. Results are consistent with previous data on the presence of BPTI and bovine tryptase in the same granules of bovine mast cells and with their interaction in vitro.
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PMID:cDNA cloning and primary structure of tryptase from bovine mast cells, and evidence for the expression of bovine pancreatic trypsin inhibitor mRNA in the same cells. 862 Aug 61

Using pharmacologic agents, we explored the mechanism by which a potent neuropeptide, substance P, induces the secretion of histamine from human skin mast cells and compared their effects on substance P-induced histamine release to the secretion activated by anti-IgE. Histamine release from human cutaneous mast cells induced by substance P was inhibited by the Ge-protein inhibitor pertussis toxin that, in turn, did not affect the IgE-mediated secretion. Similarly to anti-IgE, two activators of protein kinase C, tetradecanoylphorbol acetate (TPA) and bryostatin 1, significantly inhibited the substance P-induced response. In contrast, drugs that enhance intracellular levels of cAMP, an inhibitor of protein kinases, genistein, and a protease inhibitor, AEBSF, did not affect substance P-induced histamine secretion, whereas these compounds significantly reduced the response initiated by anti-IgE. Our data demonstrate that substance P activates human cutaneous mast cells by acting on G proteins and protein kinase C. Our results also suggest that the biochemical pathways underlying mast cell activation by substance P and anti-IgE are to a great extent unrelated.
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PMID:Substance P activates the release of histamine from human skin mast cells through a pertussis toxin-sensitive and protein kinase C-dependent mechanism. 880 44

The effect of human mast cells on fibroblast activity was studied using an organotypic skin-equivalent culture system. Human mast cell-1 (HMC-1) cells were embedded in a collagen gel with neonatal dermal fibroblasts at a ratio of 1:4; keratinocytes then were allowed to stratify above this composite culture. Analysis of type a1(I) procollagen mRNA synthesis by in situ hybridization revealed a substantial increase in mRNA levels in the presence of mast cells and especially following degranulation, induced by calcium ionophore A23187. Tryptase, a major product of human mast cells, could substitute for mast cells in this culture system, up-regulating procollagen mRNA synthesis. Tryptase pretreated with the specific protease inhibitor bis(5-amidino-2-benzimidazo-lyl)methane (BABIM) markedly attenuated the collagen mRNA up-regulation. Further studies revealed HMC-1 cell sonicates stimulated fibroblast chemotaxis and procollagen mRNA synthesis. Inhibition of HMC-1 sonicates with either BABIM or a neutralizing mAb against tryptase resulted in significant reduction of fibroblast chemotaxis and procollagen mRNA, implying that tryptase accounted for the majority of HMC-1 sonicate activity. Tryptase directly stimulated fibroblast chemotaxis with optimal concentrations between 10 pM and 1 nM. The maximal response of optimal concentrations of tryptase was comparable with the known fibrogenic factor, TGF-beta. Inhibition of tryptase with BABIM resulted in approximately 50% reduction in chemotactic activity. Additional studies revealed that tryptase (0.3-3 nM) stimulated procollagen mRNA synthesis in confluent monolayers of dermal fibroblasts.
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PMID:Human mast cells activate fibroblasts: tryptase is a fibrogenic factor stimulating collagen messenger ribonucleic acid synthesis and fibroblast chemotaxis. 903 79

Soybean Bowman-Birk protease inhibitor (BBI) is an inhibitor of serine proteases with two functional inhibitory domains of different specificities: one is specific for chymotrypsin-like proteases, the other for trypsin-like proteases. Chymase and tryptase are serine proteases which are stored in mast cell granules and released upon degranulation. This work investigated the inhibition of human chymase and tryptase by BBI. Active-site titration of human skin chymase by BBI demonstrated that BBI was a highly effective inhibitor of human chymase. Virtually stoichiometric inhibition of chymase by BBI was observed at 10 nM chymase. Kinetic studies of the inhibition reaction yielded an association rate constant of 4.0 x 10(5) M(-1) s(-1) and a dissociation rate constant of 1.7 x 10(-5) s(-1). From these two constants we estimate a K(i) of 50 pM. Chymase/BBI complexes did not dissociate in SDS-PAGE analyses under nonreducing conditions, consistent with the formation of a very tight complex with little tendency to dissociate. In contrast to chymase, human tryptase was not inhibited by BBI. These studies demonstrate that BBI is a good inhibitor of human chymase, exhibiting reaction properties better than physiological inhibitors described to date.
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PMID:Soybean Bowman-Birk protease inhibitor is a highly effective inhibitor of human mast cell chymase. 924 90

We attempted to define the putative role of complement activation in association with mucosal mast cell (MMC) degranulation in the pathogenesis of rapid intestinal ischaemia-reperfusion (I/R) injury. We prepared complement activity-depleted rats by the administration of the anti-complement agent K-76COOH and the serine-protease inhibitor FUT-175. Autoperfused segments of the jejunum were exposed to 60 min of ischaemia, followed by reperfusion for various time periods, and the epithelial permeability was assessed by the 51Cr-EDTA clearance rate. The number of MMC was immunohistochemically assessed. In control rats, the maximal increase in mucosal permeability was achieved by 30-45 min of reperfusion. This increase was significantly attenuated by the administration of either K-76COONa alone or in combination with FUT-175. In contrast, the administration of carboxypeptidase inhibitor (CPI), which prevents the inactivation of complement-derived anaphylatoxins such as C5a, significantly enhanced the increase in I/R-induced mucosal permeability. These findings were confirmed morphologically by light microscopy and scanning electron microscopy. In addition, the I/R-induced mucosal injury was accompanied by a marked decrease in the number of MMC, and administration of K-76COOH significantly inhibited this change. These results indicate that complement activation and the generation of complement-derived anaphylatoxins are key events in I/R-induced mucosal injury. It is likely that intestinal I/R-induced mucosal injury may be partially mediated by MMC activation associated with the complement activation.
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PMID:A blockade of complement activation prevents rapid intestinal ischaemia-reperfusion injury by modulating mucosal mast cell degranulation in rats. 952 87

The enzymatic pathways for local angiotensin II (Ang II) formation in the heart have been studied both in vivo and in vitro, but the results of these experiments have been discrepant. Thus, the experiments in vivo with intact hearts, both in humans and in animal models, have unequivocally demonstrated that the major Ang II-forming enzyme is angiotensin-converting enzyme (ACE). In contrast, the experiments in vitro with both human or animal heart preparations, have unequivocally demonstrated that the major Ang II-forming enzyme is chymase, a mast cell-derived chymotrypsin-like serine protease. The in vitro approach, however, seems to involve several pitfalls, which tend to overestimate the contribution of chymase as compared to that of ACE. It seems evident that in vivo the chymase-mediated Ang II formation is subjected to local inhibition, a fact that has been overlooked in most of the studies performed in vitro. Accordingly, human chymase, even in its natural form as a protease-proteoglycan complex, is highly sensitive to the protease inhibitors naturally present in the interstitial fluid (IF). We found that if human heart tissue preparations are incubated in vitro in the presence of IF, the chymase-mediated Ang II formation is almost totally suppressed. As the heart interstitium is constantly bathed by IF with its protease inhibitors in concentrations sufficiently high to ensure efficient inhibition of this enzyme, the protease inhibitor-mediated suppression of chymase should also be effective in vivo. Thus, the local production of Ang II in the human heart appears to be regulated by ACE rather than by chymase.
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PMID:Angiotensin II formation in the human heart: an ACE or non-ACE-mediated pathway? 980 Aug 78

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