EC:3.4.21.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bronchial hyperresponsiveness in asthma has been associated with increased numbers of eosinophils and mast cells in the bronchial airway. It is unclear if these cells are important in the pathogenesis of hyperresponsiveness, and the role of mast cells has been discounted because they are effectively stabilized by beta-adrenergic drugs. Because the pathogenesis of asthma in children may be different from that in adults, and to find out if cellular activation is associated with bronchial reactivity, we studied 17 children with mild to moderately severe chronic asthma who had been treated with intermittent brochodilator therapy and compared their bronchial responsiveness to histamine with the levels of eosinophil cationic protein and mast cell tryptase in broncholavage fluid. The number of eosinophils in lavage fluid was correlated with histamine responsiveness (r = -0.444, p < 0.05) but not with levels of cationic protein (r = 0.33, p = NS). Bronchial responsiveness to histamine was highly correlated with mast cell tryptase (r = -0.714, p < 0.005), but there was no correlation with eosinophil cationic protein (r = -0.355, p = NS). We conclude that in children with chronic asthma mast cells as well as eosinophils contribute to bronchial hyperresponsiveness. Activated mast cells may play a primary role, possibly by tryptase-induced upregulation of bronchial smooth muscle tone.
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PMID:Correlation of bronchial eosinophil and mast cell activation with bronchial hyperresponsiveness in children with asthma. 135 19

In many diseases, retrospective analysis for determining the presence of mast cells has been difficult because of their loss of metachromatic staining properties once tissue has undergone formalin fixation. We quantified mast cells in peribronchiolar tissue of idiopathic pulmonary fibrosis (IPF) and in normal human lung by using rabbit antiserum to human mast cell tryptase. In lung biopsy specimens from 15 patients with IPF, the mean number of mast cells per high-power field in connective tissue directly adjacent to the lumen of small airways (0.5 to 2 mm in diameter) and other fibrotic foci was 29.9 +/- 10.8 in comparison with 13.7 +/- 3.5 in 16 normal controls (P < 0.001). In addition, mast cells in cases of IPF had an altered appearance--irregularity of the plasma membrane and release of extracellular tryptase. We conclude that the number of mast cells is increased in IPF and that the altered appearance of the mast cells suggests that they are activated and undergoing degranulation.
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PMID:Immunofluorescent staining for mast cells in idiopathic pulmonary fibrosis: quantification and evidence for extracellular release of mast cell tryptase. 143 49

A gene that encodes mouse mast cell protease (mMCP) 7 (also known as mouse mast cell tryptase 2) was isolated by genomic cloning with a cDNA that encodes mMCP-6, a tryptase in serosal mast cells. cDNAs encoding mMCP-7 were isolated from a bone-marrow-derived mast cell cDNA library. The mMCP-7 gene spans 2.3 kilobases and contains five exons rather than six, as found in the mMCP-6 and human mast cell tryptase I genes. Comparison of the 5' end of the transcript with the genomic sequence indicated that the region corresponding to the first intron in the mMCP-6 and human tryptase I genes is not spliced during transcription of mMCP-7 mRNA because of a point mutation at the intron 1 acceptor splice site; this results in a 5' untranslated region of 195 nucleotides, which is longer than that of any other known mast cell-specific transcript. mMCP-7 is 71-76% homologous with mMCP-6 and with dog and human mast cell tryptases, and it is the most acidic mast cell protease, with an overall net charge of -10. RNA blot analyses revealed that the mMCP-7 gene is transcribed in bone-marrow-derived mast cells but is not transcribed in mature serosal mast cells or in mucosal mast cell-enriched intestinal tissue of Trichinella spiralis-infected mice. Transcription of the mMCP-7 gene by differentiating bone-marrow-derived mast cells occurred within 1 week of bone-marrow culture but decreased dramatically after 3 weeks. Thus, the mMCP-7 gene displays a number of unusual structural characteristics and is distinctive in its transient and selective expression in immature mast cells maintained in interleukin 3-enriched medium.
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PMID:Isolation, characterization, and transcription of the gene encoding mouse mast cell protease 7. 145 96

Migrating cells degrade pericellular matrices and basement membranes. For these purposes cells produce a number of proteolytic enzymes. Mast cells produce two major proteinases, chymase and tryptase, whose physiological functions are poorly known. In the present study we have analyzed the ability of purified human mast cell tryptase to digest pericellular matrices of human fibroblasts. Isolated matrices of human fibroblasts and fibroblast conditioned medium were treated with tryptase, and alterations in the radiolabeled polypeptides were observed in autoradiograms of sodium dodecyl sulphate polyacrylamide gels. It was found that an M(r) 72,000 protein was digested to an M(r) 62,000 form by human mast cell tryptase while the plasminogen activator inhibitor, PAI-1, was not affected. Cleavage of the M(r) 72,000 protein could be partially inhibited by known inhibitors of tryptase but not by aprotinin, soybean trypsin inhibitor, or EDTA. Fibroblastic cells secreted the M(r) 72,000 protein into their medium and it bound to gelatin as shown by analysis of the medium by affinity chromatography over gelatin-Sepharose. The soluble form of the M(r) 72,000 protein was also susceptible to cleavage by tryptase. Analysis using gelatin containing polyacrylamide gels showed that both the intact M(r) 72,000 and the M(r) 62,000 degraded form of the protein possess gelatinolytic activity after activation by sodium dodecyl sulphate. Immunoblotting analysis of the matrices revealed the cleavage of an immunoreactive protein of M(r) 72,000 indicating that the protein is related to type IV collagenase. Further analysis of the pericellular matrices indicated that the protease sensitive extracellular matrix protein fibronectin was removed from the matrix by tryptase in a dose-dependent manner. Fibronectin was also susceptible to proteolytic degradation by tryptase. The data suggest a role for mast cell tryptase in the degradation of pericellular matrices.
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PMID:Pericellular substrates of human mast cell tryptase: 72,000 dalton gelatinase and fibronectin. 146 68

Calcitonin gene-related peptide (CGRP) is localized in and released from sensory nerves. It is a potent and long acting vasodilator which has been suggested to play a role in the control of blood flow. Using HPLC and trichloroacetic acid precipitation techniques, we have examined the ability of human mast cell lysates and a purified preparation of mast cell tryptase to degrade CGRP. We found that CGRP is effectively cleaved by tryptase (Km = 6.8 x 10(-6) mol/L at 37 degrees). Enzymatic activity was inhibited by antipain, leupeptin, N-alpha-p-tosyl-L-lysine chloromethyl ketone, benzamidine or aprotinin, but not by soybean trypsin inhibitor or N-tosyl-L-phenylalanine chloromethyl ketone. The degradation of CGRP by lysates of purified skin mast cells showed a similar pattern of inhibition suggesting that tryptase may be the major enzyme involved. The activity of tryptase was not affected by the presence of heparin. Incubation of CGRP with tryptase resulted in a loss of its vasodilator activity as observed by intravital microscopy of the hamster cheek pouch microvasculature. CGRP preincubated with tryptase failed to relax arterioles when added topically. It is suggested that the catalysis of CGRP by tryptase could represent an important means by which the activity of this neuropeptide is regulated in vivo.
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PMID:Human mast cell tryptase attenuates the vasodilator activity of calcitonin gene-related peptide. 156 77

Mast cells are hypothesized to participate in processes leading to tissue fibrosis in human lung and skin. To explore the possible involvement of mast cell mediators in fibrogenesis, the mitogenic activity of mast cell tryptase from human lung was examined in vitro. The results indicate that human tryptase is a potent inducer of DNA synthesis in fibroblasts from multiple sources, including human lung. As demonstrated by mitogenic responses in fibroblasts, but not in vascular smooth muscle cells, tryptase is a mitogen with target cell specificity. Additionally, specificity is demonstrated by the differences in mitogenic activity of tryptase in comparison with thrombin, a structurally related mitogenic proteinase. Examination of the mitogenic effects of tryptase in the presence of other mitogens reveals synergy with mitogens that act through receptors coupled to intrinsic tyrosine kinases (insulin, epidermal growth factor, and basic fibroblast growth factor) or to G proteins (thrombin and serotonin). In the latter case, studies in Chinese hamster lung fibroblasts using specific receptor agonists and antagonists or receptor-transfected cell lines reveal a requirement for the activation of a G protein (Gi) negatively coupled to adenylate cyclase to act synergistically with tryptase. These data establish that human tryptase is a potent and specific mitogen in vitro and suggest that mitogenic signals generated by tryptase can interact synergistically with signals generated by both tyrosine kinase-coupled and G protein-coupled growth factor receptors.
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PMID:Human tryptase as a potent, cell-specific mitogen: role of signaling pathways in synergistic responses. 159 Apr 4

The knowledge about the differentiation of basophilic leukocytes is fragmentary. This report discusses a detailed phenotypic characterization of molecular markers for hematopoietic differentiation in a basophilic leukemia cell line, KU812. The expression of markers for lymphoid, erythroid, neutrophil, eosinophil, monocytic, megakaryocytic, mast cell and basophil differentiation was analyzed at the mRNA level by Northern blots in the KU812 cells, and for reference, in a panel of human cell lines representative of the different hematopoietic differentiation lineages. KU812 was found to express a number of mast cell and basophil-related proteins, i.e. mast cell tryptase, mast cell carboxypeptidase A, high-affinity immunoglobulin (IgE) receptor alpha and gamma chains and the core protein for heparin and chondroitin sulphate synthesis. We found no expression of a number of monocyte/-macrophage or neutrophil leukocyte markers except for lysozyme. From earlier studies, it has been shown that lysozyme is not expressed in murine mucosal mast cell lines. This finding, together with the expression of the mast cell carboxypeptidase in KU812 might distinguish the phenotype of this cell line from that typical of mucosal mast cell lines in rodents. We found a low level of expression of the eosinophil and basophil marker, major basic protein, which might indicate a relationship between basophils and eosinophils. No expression is, however, detected with the eosinophil-specific markers eosinophil cationic protein, eosinophil-derived neurotoxin or eosinophil peroxidase. We also report an extensive screening for inducers of basophilic differentiation of the KU812 cells. The most efficient protocol of induction included serum starvation which led to a dramatic increase in a number of markers specific for mast cells and basophils such as tryptase, carboxypeptidase A and the heparin core protein. Finally, diisopropylfluorophosphate analysis of total protein extracts from KU812 show four labeled protein bands with sodium dodecyl sulfate-polyacrylamide gel electrophoresis, indicating that this cell line expresses at least three previously undescribed serine proteases of which one or more could be a potential basophil-specific marker(s).
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PMID:Phenotypic characterization of KU812, a cell line identified as an immature human basophilic leukocyte. 163 3

1. Mast cell activation in the lung was investigated by measuring concentrations of mast cell tryptase and histamine in the bronchoalveolar lavage fluid from patients with bronchial carcinoma, sarcoidosis, extrinsic allergic alveolitis or cryptogenic fibrosing alveolitis and from normal subjects. 2. Histamine concentrations in bronchoalveolar lavage fluid supernatants were elevated in the bronchial carcinoma and cryptogenic fibrosing alveolitis groups, and were correlated with the histamine content of the cells recovered. 3. An avidin-biotin-enhanced antigen-capture e.l.i.s.a., using polyclonal rabbit antibody specific for tryptase, and mouse monoclonal antibody AA5, allowed the quantification of tryptase in all samples of bronchoalveolar lavage fluid. Tryptase concentrations were increased in the bronchial carcinoma and extrinsic allergic alveolitis groups and in some of the patients with sarcoidosis, and the levels correlated with mast cell numbers and also with concentrations of albumin. 4. There was no significant correlation between levels of tryptase and histamine, suggesting differences in the rates of metabolism or different cellular sources. 5. The tryptase and histamine concentrations measured suggest that there is continuous degranulation of mast cells within the normal lung, but that this process is more pronounced in patients with bronchial carcinoma or interstitial lung disease.
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PMID:Mast cell tryptase and histamine concentrations in bronchoalveolar lavage fluid from patients with interstitial lung disease. 165 61

Compound 48/80 caused activation of rat mast cell tryptase and chymase along with the release of histamine. Following low speed centrifugation, tryptase remained essentially in the supernatant while chymase sedimented. Enzyme activities as well as histamine release were inhibited by phenylmethyl-sulfonyl fluoride and tosyl-lysine chloromethyl ketone, which are respectively unspecific and specific inhibitors of trypsin-like enzymes. Chymostatin inhibited chymase, but not the release of histamine by 48/80. Tryptase activity thus seems to be essentially involved in the mechanism of histamine release, while chymase activity may be merely one of its accompanying events.
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PMID:Compound 48/80-induced secretion of histamine from rat peritoneal mast cells depends on a tryptase controlled step also leading to chymase activity. 169 38

Adverse reactions to drugs require that their mechanisms be elucidated, particularly when anaphylaxis is suspected. Early diagnosis can be achieved by plasma histamine measurements. Unfortunately, the short plasma half-life of histamine and the difficulties in handling the sample usually preclude this measurement, although a sensitive radioimmunologic kit is routinely available. It has been recently suggested that mast cell tryptase, a component of the mast cell granules, could provide an alternative to histamine determination. We have measured plasma histamine and tryptase in 19 patients who developed possible anaphylactoid reactions to anesthetic or other drugs. Eight patients had increased values for both histamine and tryptase. In 4 a muscle relaxant drug was proved responsible for the reaction. Six patients had normal levels for both substances. In each case, the clinical signs of anaphylaxis were moderate. Two patients had normal histamine and high tryptase concentrations, due to late sampling (greater than 5 h). In 2 other patients, histamine was high, with normal tryptase: in 1, muscle relaxant allergy was further demonstrated. Tryptase half-life was equal to 90 min in 3 patients. At least 15 min was necessary to reach the peak level when the responsible drug was administered intravenously. The best time for measuring tryptase was 1-2 h after the reaction (not greater than 6 h), whereas for histamine it was 10 min to 1 h. We conclude that measurement of plasma tryptase along with measurement of plasma histamine may aid in diagnosis of anaphylaxis.
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PMID:Biochemical markers of anaphylactoid reactions to drugs. Comparison of plasma histamine and tryptase. 174 15

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