Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

To establish a useful laboratory protocol to investigate possible cases of fatal anaphylaxis, we measured mast-cell-derived tryptase levels and allergen-specific immunoglobulin E (IgE) antibody levels in sera obtained prior to or within 24 h after death from 19 anaphylaxis victims. Elevated serum tryptase levels (range = 12 ng/mL to 150 micrograms/mL) were found in nine of nine Hymenoptera sting fatalities, six of eight food-induced fatalities, and two of two reactions to diagnostic therapeutic agents. Tryptase levels were normal (less than 10 ng/mL) in 57 sequential sera obtained postmortem from six control patients. Tryptase could not be measured in pleural or pericardial fluids for technical reasons. Serum IgE antibodies were elevated in five of the nine Hymenoptera sting fatalities and in eight of the eight fatal food reactions; assays were unavailable for the two diagnostic/therapeutic agents. If elevated, the victim's serum IgE antibodies to food could be used to identify allergens in uneaten portions of foods consumed shortly before the anaphylactic event. IgE antibodies were moderately stable during storage in a variety of anticoagulants at room temperature for up to 11 weeks. Elevated mast-cell-derived tryptase levels in postmortem sera reflect antemortem mast cell activation and may be used as a marker for fatal anaphylaxis. If assays are available for IgE antibodies to relevant allergens, such assays provide evidence for antemortem sensitization; these assays may be modified to identify allergens in foods consumed by victims of food-induced anaphylaxis.
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PMID:Laboratory investigation of deaths due to anaphylaxis. 185 50

Mast cells appear to promote fibroblast proliferation, presumably through secretion of growth factors, although the molecular mechanisms underlying this mitogenic potential have not been explained fully by known mast cell-derived mediators. We report here that tryptase, a trypsin-like serine proteinase of mast cell secretory granules, is a potent mitogen for fibroblasts in vitro. Nanomolar concentrations of dog tryptase strongly stimulate thymidine incorporation in Chinese hamster lung and Rat-1 fibroblasts and increase cell density in both subconfluent and confluent cultures of these cell lines. Tryptase-induced cell proliferation appears proteinase-specific, as this response is not mimicked by pancreatic trypsin or mast cell chymase. In addition, low levels of tryptase markedly potentiate DNA synthesis stimulated by epidermal growth factor, basic fibroblast growth factor, or insulin. Inhibitors of catalytic activity decrease the mitogenic capacity of tryptase, suggesting, though not proving, the participation of the catalytic site in cell activation by tryptase. Differences in Ca++ mobilization and sensitivity to pertussis toxin suggest that tryptase and thrombin activate distinct signal transduction pathways in fibroblasts. These data implicate mast cell tryptase as a potent, previously unrecognized fibroblast growth factor, and may provide a molecular link between mast cell activation and fibrosis.
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PMID:Mast cell tryptase is a mitogen for cultured fibroblasts. 186 60

Protein from hog which is recognized by human monoclonal antibody (HB4C5), generated from a patient with large cell lung carcinoma, was identified as carboxypeptidase A by comparison of the protein with carboxypeptidase A in enzymatic activity, immunologic reactivity, and amino acid sequence. Carboxypeptidase A activity was also found in human cancer tissue, and purified antigen from cancer tissue recognized by the antibody HB4C5 was reacted with rabbit anti-carboxypeptidase A serum, indicating that carboxypeptidase A is an antigen of HB4C5. Since large amounts of carboxypeptidase A can be obtained from porcine sources, a simple method for its purification was established. The fraction which was most reactive with HB4C5 was obtained from acetone powder of porcine pancreas by successive applications of water extraction, ammonium sulfate precipitation, trypsin treatment, and Mono Q column chromatography. Its apparent molecular weight was 40,000, according to SDS polyacrylamide gel electrophoresis. When the reactivity of IgG in sera with the purified carboxypeptidase A was measured, the detection rates for lung, ovary, larynx, uterus, and liver cancer were more than 50%, while the rates for stomach and breast cancer were around 30%, and pancreatic cancer, benign diseases, and normal controls were minimally detected.
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PMID:Serodiagnosis of cancer using porcine carboxypeptidase A as an animal antigen recognized by human monoclonal antibody HB4C5. 187 99

To investigate the hypothesis that mast cell and neutrophil proteases stimulate airway gland secretion, we studied the effects of two mast cell proteases (tryptase and chymase) and two neutrophil enzymes (human neutrophil elastase and cathepsin G) on secretion of 35S-labeled macro-molecules from cultured bovine airway gland serous cells. Tryptase had no effect, but the other three enzymes stimulated secretion. Threshold concentrations of the enzymes (greater than or equal to 10(-10) M) were lower by two orders of magnitude than other agonists (e.g., histamine, prostaglandins, beta-adrenergic agonists). Only proteases induced maximal secretory response (greater than or equal to 80% depletion of 35S-labeled macromolecules), and these responses were greater than 10-fold larger than those of other agonists. The active catalytic sites of the enzymes are required for their secretory activities. These findings suggest a role for these enzymes in the pathogenesis of inflammatory airway diseases associated with hypersecretion, and they suggest that the use of selective site-directed inhibitors of these enzymes may provide a novel strategy for intervention in inflammatory diseases of the airways associated with hypersecretion (e.g., cystic fibrosis, chronic bronchitis).
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PMID:Role of mast cell and neutrophil proteases in airway secretion. 189 27

Tryptase is predominantly found in mast cells, where it resides in secretory granules, and is released with other mediators during mast cell degranulation. By using a newly developed commercial assay for measurements of tryptase levels we have investigated two cases of suspected drug-induced anaphylaxis. Each patient had a similar clinical presentation, consisting of hypotension and cyanosis after administration of thiopentone and suxamethonium. One of the patients showed a highly elevated serum level of tryptase reaching 26 micrograms/l 30 min after the initial reaction. In addition, slightly elevated levels of specific IgE antibodies to thiopentone were detected. The other patient with similar symptoms showed no increase in the level of tryptase, nor any specific IgE to thiopentone or suxamethonium. These data indicate the patient I suffered from true anaphylaxis, whereas the reaction of patient II occurred by a different mechanism.
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PMID:Evaluation of mast cell activation (tryptase) in two patients suffering from drug-induced hypotensoid reactions. 189 43

Since 2-fluoro-beta-alanine (FBAL) conjugates of bile acids (BA), the primary biliary metabolites of fluoropyrimidine (FP) drugs, have been suggested to be related to the hepatotoxicity which develops in patients receiving FP chemotherapy by intrahepatic arterial infusion (Proc. Natl. Acad. Sci. USA 84, 5439-5443, 1987), it was important to determine whether they undergo enterohepatic circulation and hence accumulate in the liver and biliary system. In initial studies, sensitivity of FBAL-BA conjugates to hydrolysis by pancreatic enzymes was examined. In subsequent in vivo studies, a model FBAL-BA conjugate, FBAL-chenodeoxycholate (FBAL-CDC), was introduced into the lumen of the small intestine of anesthetized rats with biliary fistulas to quantitate the intestinal absorption, metabolism and tissue distribution of the conjugate. The results indicated that: (1) FBAL-BA conjugates were resistant to hydrolysis by pancreatic enzymes (carboxypeptidase A, carboxypeptidase B and trypsin) and by human pancreatic juice, but were completely hydrolyzed by cholyglycine hydrolase. (2) At least one-half of the administered FBAL-CDC was deconjugated during the process of intestinal absorption, as shown by HPLC analysis of the radioactivity in portal venous blood. (3) Deconjugated FBAL or CDC was reconjugated in liver with other bile acids or amino acids (glycine and taurine), respectively, as shown by radiochromatography of bile. (4) FBAL, formed as a result of hydrolysis of FBAL-CDC, had a wide tissue distribution. In conclusion, FBAL-CDC has a rapid turnover during its enterohepatic circulation due to deconjugation in the intestine and reconjugation in the liver.
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PMID:Disposition and metabolism of 2-fluoro-beta-alanine conjugates of bile acids following secretion into bile. 190 18

The "high-affinity Mn-binding site" in Mn-depleted photosystem II (PS II) membrane fragments isolated from Scenedesmus obliquus was examined by using the diphenylcarbazide (DPC)/Mn2+ non-competitive inhibition assay [Preston, C., & Seibert, M. (1991) Biochemistry (preceding paper in this issue)]. Different proteases were used to degrade lumenal surface protein segments from these PS II membranes, and a total of four independent high-affinity Mn-binding sites (ligands) were identified. Carboxypeptidase A, subtilisin, and Staphylococcus aureus V8 protease each degrade one of two high-affinity Mn-binding sites sensitive to the histidine chemical modifier diethyl pyrocarbonate (DEPC). However, sequential treatment experiments indicate that subtilisin degrades a DEPC-sensitive Mn-binding site that is different from the one degraded by the other two proteases. Trypsin also was found to degrade one of the DEPC-sensitive Mn-binding sites (that degraded by carboxypeptidase A and V8 protease). In addition, trypsin degrades one of two 1-ethyl-3-[(3-dimethylamino)propyl]carbodiimide (EDC) sensitive Mn-binding sites, but only in the absence of the 30-kDa extrinsic protein. Thus, the 30-kDa extrinsic protein associated with O2 evolution appears to protect the EDC-sensitive binding site from trypsin degradation. No protease has yet been identified that will degrade the trypsin-insensitive EDC-sensitive Mn-binding site. Under the conditions of the assay (high DPC concentration), more than three Mn per reaction center were found bound to the membrane with a KM of about 0.4 microM, as determined by direct metal analysis. This is consistent with the idea that each of the four high-affinity sites binds (or provides a ligand for) one of four Mn.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protease treatments of photosystem II membrane fragments reveal that there are four separate high-affinity Mn-binding sites. 191 48

Mast cells and basophils, although sharing many constitutive properties, are quite distinct in their development, functions and biological properties. Mast cell granules are composed of a macromolecular matrix of proteoglycan and neutral protease of which heparin and tryptase, respectively, are predominant. The distribution of the other major neutral protease, chymase, allows human mast cell subpopulations to be subdivided immunocytochemically. All human mast cells respond to IgE-dependent stimulation with the secretion of the preformed mediator, histamine, and the newly generated lipid-derived eicosanoids PGD2 and LTC4. Although amounts of these products vary between mast cells dispersed from different tissues, it is uncertain whether this reflects true heterogeneity. Mast cells of the human skin, but not those of other tissues, are sensitive to stimulation by substance P, compound 48/80 and other basic non-immunological stimuli. The mechanism of mediator secretion induced by these agents is distinct from that induced by IgE-dependent stimulation. However, the morphological characteristics of degranulation are similar, suggesting that the distinct biochemical pathways merge into a common pathway before effecting degranulation.
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PMID:Biological properties of human skin mast cells. 191 78

We examined the roles of enzymes from mast cells and from neutrophils in stimulating airway submucosal gland secretion. To avoid effects on surface epithelial cells and goblet cells, we studied a line of cultured bovine tracheal gland serous cells. We discovered that mast cell chymase and neutrophil elastase are the most potent secretagogues of airway submucosal glands described. Mast cell chymase markedly stimulated serous cell secretion in a concentration-dependent fashion with a threshold of 10(-10) M, whereas tryptase had no effect. The response to 10(-8) M chymase (1,530 +/- 80% over baseline; mean +/- SEM) was approximately 10-fold higher than that evoked by other agonists such as histamine and isoproterenol. Both neutrophil proteases also stimulated secretion in a concentration-dependent fashion with a threshold of greater than 10(-10) M. Elastase was more potent than cathepsin G, causing a maximal secretory response of 1,810 +/- 60% over baseline at 10(-8) M. Secretion by the 3 proteases was noncytotoxic and required catalytically active enzymes. These findings suggest a potential role for neutrophil and mast cell proteases in the pathogenesis of increased and abnormal submucosal gland secretions in diseases associated with inflammation of the airways.
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PMID:Role of enzymes from inflammatory cells on airway submucosal gland secretion. 192 74

A juvenile-hormone-binding protein (juvenile-hormone carrier), isolated from Galleria mellonella haemolymph, was treated with trypsin, chymotrypsin, carboxypeptidase A and subtilisin. Among these enzymes, only subtilisin was able to affect juvenile-hormone-binding activity of this protein. With SDS/PAGE it was shown that juvenile-hormone-binding protein, a 32-kDa peptide, is first slowly converted into a 30-kDa molecule, then into two or three smaller-molecular-mass species (20-25 kDa), which in turn were further digested to small peptides undetectable in PAGE. The 30-kDa peptide has a 2.4-times-higher dissociation constant for juvenile hormone than the native protein. No binding activity was detected for 20-25-kDa peptides. The rate of proteolysis of juvenile-hormone-binding protein was decreased by more than twofold in the presence of hormone, however, the overall cleavage pattern was unchanged. Under non-denaturing conditions, free binding-protein molecules could be separated from juvenile-hormone-binding-protein complex due to a slower electrophoretic mobility of the complex. As judged from ultracentrifugation and cross-linking experiments, binding of the hormone to its haemolymph carrier does not induce formation of oligomers, but shifts the sedimentation coefficient from 2.30S to 2.71S. It is concluded that juvenile-hormone binding induces a conformational transition of its carrier protein. This hormone-induced change might have a physiological significance for signal transmission.
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PMID:Conformational change of the haemolymph juvenile-hormone-binding protein from Galleria mellonella (L). 193 32


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