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Query: UNIPROT:P15088 (
mast cell
)
14,925
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
SERPINB6 (PI6) is a member of the intracellular serine protease inhibitors (serpins). Previous studies showed that SERPINB6 is localized mainly in the cytoplasm of endothelial cells, some epithelial cells, monocytes, and neutrophils. In these cells SERPINB6 is thought to prevent cellular damage by scavenging leaking lysosomal proteases. We show here, using novel, well-defined monoclonal antibodies, that SERPINB6 is abundantly expressed by mast cells in all organs and by the human
mast cell
line HMC-1. Gel filtration experiments revealed that the latter cells contain a high-molecular-weight form of SERPINB6, which consists of sodium dodecyl sulfate (SDS)-stable complexes of this inhibitor with monomeric
beta-tryptase
. Expression of SERPINB6 by mast cells was compared with those of tryptase and CD117 (c-kit) in biopsies from patients with different forms of
mast cell
disease. In all cases the lesional mast cells expressed SERPINB6, and, in diffuse cutaneous mastocytosis and mastocytoma, SERPINB6 was expressed by a substantially higher number of mast cells when compared with tryptase. In conclusion, SERPINB6 is abundantly expressed by normal mast cells and by mast cells in mastocytoma lesions. We suggest that in mast cells, SERPINB6 serves to regulate the activity of endogenous
beta-tryptase
in the cytoplasm.
...
PMID:Intracellular serpin SERPINB6 (PI6) is abundantly expressed by human mast cells and forms complexes with beta-tryptase monomers. 1467 Sep 19
Mast cells, which are granulocytes found in peripheral tissue, play a central role in inflammatory and immediate allergic reactions. beta-Tryptase is a neutral serine protease and is the most abundant mediator stored in
mast cell
granules. The release of
beta-tryptase
from the secretory granules is a characteristic feature of
mast cell
degranulation. While its biological function has not been fully clarified,
mast cell
beta-tryptase
has an important role in inflammation and serves as a marker of
mast cell
activation. beta-Tryptase activates the protease activated receptor type 2. It is involved in airway homeostasis, vascular relaxation and contraction, gastrointestinal smooth muscle activity and intestinal transport, and coagulation. Serum
mast cell
beta-tryptase
concentration is increased in anaphylaxis and in other allergic conditions. It is increased in systemic mastocytosis and other haematological conditions. Serum
beta-tryptase
measurements can be used to distinguish
mast cell
-dependent reactions from other systemic disturbances such as cardiogenic shock, which can present with similar clinical manifestations. Increased
beta-tryptase
levels are highly suggestive of an immunologically mediated reaction but may also occur following direct
mast cell
activation. Patients with increased
mast cell
beta-tryptase
levels must be investigated for an allergic cause. However, patients without increased mast cell tryptase levels should be investigated if the clinical picture suggests severe anaphylaxis.
...
PMID:Mast cell tryptase: a review of its physiology and clinical significance. 1520 May 44
Mast cells play a key role in the induction of allergic disorders, such as asthma and rhinitis, through the release of mediators including histamine, arachidonate products, proteases and several cytokines, which are found in relatively high quantities in these cells. A significant number of therapeutic approaches for allergies have been designed based on antagonising specific mediators released from mast cells and on selectively inhibiting the activation of these cells. Classical
mast cell
stabilisers, such as sodium cromoglycate, continue to attract new developments based on improved formulation and delivery systems, while efforts to identify new pathway (e.g., tyrosine kinase Syk) inhibitors or mediator (e.g., prostaglandin D2,
beta-tryptase
) antagonists may bring new successes to this field.
...
PMID:Targeting mast cells. 1521 15
beta-Tryptase is a trypsin-like serine protease stored in
mast cell
secretory granules primarily as an enzymatically active tetramer. The current study aims to determine whether monomeric
beta-tryptase
also can exhibit enzyme activity, as suggested previously. At neutral pH
beta-tryptase
tetramers in the absence of heparin or dextran sulfate spontaneously convert to inactive monomers. Addition of a polyanion to these monomers at neutral pH fails to convert them back to a tetramer or to an enzymatically active state. In contrast, at acidic pH addition of a polyanion resurrects enzyme activity. Whether this activity is associated with tetramers or monomers depends on the concentration of
beta-tryptase
. Under the experimental conditions employed at pH 6 in the presence of heparin, the monomer concentration at which 50% conversion to tetramers occurs is 193 ng/mL. Activity against tripeptide substrates by monomers is detected at pH 6 but not at pH 7.4, whereas tetramer activity is greater at pH 7.4 than pH 6.0. Active monomers are inhibited by soybean trypsin inhibitor, bovine pancreatic trypsin inhibitor, antithrombin III, and alpha2-macroglobulin, whereas active tetramers are resistant to these inhibitors. Active monomers form complexes with these inhibitors and cleave both antithrombin III and alpha2-macroglobulin. These inhibitors also prevent reconstitution of monomers to tetramers, indicating that inactive monomers become active monomers before becoming active tetramers. The ability of tryptase monomers to become active at acidic pH raises the possibilities of expanded substrate specificities as well as inhibitor susceptibilities where the low-pH environments associated with inflammation or poor vascularity are encountered in vivo.
...
PMID:Human beta-tryptase: detection and characterization of the active monomer and prevention of tetramer reconstitution by protease inhibitors. 1531 37
Protease-activated receptor 2 (PAR2) is the second member of a new subfamily of G-protein coupled receptors: the protease-activated receptors (PARs). At present, four different PARs have been cloned and all of them share the same basic mechanism of activation. A serine protease cleaves the extended, extracellular N-terminus of the receptor at a specific site within the protein chain to expose an N-terminal tethered ligand domain, which binds to and activates the cleaved receptor. In this manner, trypsin and
mast cell
beta-tryptase
activate PAR2. PARs are single use receptors because proteolytic activation is irreversible and the cleaved receptors are degraded in lysosomes. Thus, PARs play important roles in emergency situations, such as trauma and inflammation. Emerging evidence indicates that PAR2 is involved in the cardiovascular, pulmonary and gastrointestinal systems, where it controls inflammation and nociception. Work with selective agonists and knockout animals suggests a contribution of PAR2 to certain inflammatory diseases. Therefore, selective antagonists or agonists of these receptors may be useful therapeutic agents for the treatment of human diseases.
...
PMID:Proteinase-activated receptor-2: physiological and pathophysiological roles. 1531 91
beta-Tryptases are
mast cell
-derived serine proteases that are enzymatically active in the form of an oligomer consisting of four subunits each with trypsin-like activity. The active-site clefts, which are directed toward the central pore of the tetramer, form spatial arrays of four negatively charged S1 binding pockets. Therefore, dibasic inhibitors of appropriate geometry can bind in a bivalent fashion to neighboring subunits. We have recently identified a potent bivalent inhibitor (K(i)=18 nM), based on the bifunctional scaffold cyclo-(-D-Asp-L-Asp-) and the arginine mimetic dl-3-aminomethyl-phenylalanine methyl ester as a ligand for S1 pockets that takes advantage of the this unique tetrameric geometry. To generate an affinity matrix, the bivalent ligand was modified and immobilized on a Sepharose matrix by use of the PEG derivative Jeffamine ED 900 as spacer. This matrix selectively recognizes and binds
beta-tryptase
from crude protein mixtures and thus is useful as a geometry-driven means of isolating and purifying human
mast cell
tryptases.
...
PMID:Affinity chromatography of tryptases: design, synthesis and characterization of a novel matrix-bound bivalent inhibitor. 1559 13
Tryptase is a serine protease found almost exclusively in mast cells. It has trypsin-like specificity, favoring cleavage of substrates with an arginine (or lysine) at the P1 position, and has optimal catalytic activity at neutral pH. Current evidence suggests
tryptase beta
is the most important form released during
mast cell
activation in allergic diseases. It is shown to have numerous pro-inflammatory cellular activities in vitro, and in animal models tryptase provokes broncho-constriction and induces a cellular inflammatory infiltrate characteristic of human asthma. Screening of in-house inhibitors of factor Xa (a closely related serine protease) identified beta-amidoester benzamidines as potent inhibitors of recombinant human betaII tryptase. X-ray structure driven template modification and exchange of the benzamidine to optimize potency and pharmacokinetic properties gave selective, potent and orally bioavailable 4-(3-aminomethyl phenyl)piperidinyl-1-amides.
...
PMID:Structure based design of 4-(3-aminomethylphenyl)piperidinyl-1-amides: novel, potent, selective, and orally bioavailable inhibitors of betaII tryptase. 1578 96
Recent studies have shown that a lack of eosinophils in asthmatic airway smooth muscle (ASM) bundles in contrast to the large number of mast cells is a key feature of asthma. We hypothesized that this is caused by
beta-tryptase
, the predominant
mast cell
-specific protease, abrogating the eosinophil chemotactic activities of ASM cell-derived eosinophil chemoattractants such as eotaxin and RANTES. We studied the effect of
beta-tryptase
on the immunoreactivities of human ASM cell-derived and recombinant eotaxin and other recombinant chemokines that are known to be produced by human ASM cells. We report in this study that purified
beta-tryptase
markedly reduced the immunoreactivity of human ASM cell-derived and recombinant eotaxin, but had no effect on eotaxin mRNA expression. The effect was mimicked by recombinant human
beta-tryptase
in the presence of heparin and was reversed by heat inactivation and the protease inhibitor leupeptin, suggesting that the proteolytic activity of tryptase is required. beta-Tryptase also exerted similar effects on recombinant RANTES, but not on the other chemokines and cytokines that were screened. Furthermore, a chemotaxis assay revealed that recombinant eotaxin and RANTES induced eosinophil migration concentration-dependently, which was abrogated by pretreatment of these chemokines with
beta-tryptase
. Another mast cell protease chymase also markedly reduced the immunoreactivity of eotaxin, but had no effect on RANTES and other chemokines and did not affect the influence of
beta-tryptase
on RANTES. These findings suggest that
mast cell
beta-tryptase
selectively cleaves ASM-derived eotaxin and RANTES and abrogates their chemotactic activities, thus providing an explanation for the eosinophil paucity in asthmatic ASM bundles.
...
PMID:Mast cell beta-tryptase selectively cleaves eotaxin and RANTES and abrogates their eosinophil chemotactic activities. 1651 49
The key event of allergic inflammation, allergen-induced crosslinking of
mast cell
-bound IgE antibodies, is accompanied by release of inflammatory mediators, cytokines, and proteases, in particular
beta-tryptase
. We provide evidence that protease-mediated cleavage of allergens represents a mechanism that regulates allergen-induced
mast cell
activation. When used in molar ratios as they occur in vivo, purified
beta-tryptase
cleaved major grass and birch pollen allergens, resulting in defined peptide fragments as mapped by mass spectrometry. Tryptase-cleaved allergens showed reduced IgE reactivity and allergenic activity. The biological relevance is demonstrated by the fact that lysates from activated human mast cells containing tryptase levels as they occur in vivo cleaved allergens. Additionally, protamine, an inhibitor of heparin-dependent effector cell proteases, augmented allergen-induced release of mediators from effector cells. Protease-mediated allergen cleavage may represent an important mechanism for terminating allergen-induced effector cell activation.
...
PMID:Allergen cleavage by effector cell-derived proteases regulates allergic inflammation. 1658 63
Tryptases are trypsin-like serine proteases whose expression is restricted to cells of hematopoietic origin, notably mast cells. gamma-Tryptase, a recently described member of the family also known as transmembrane tryptase (TMT), is a membrane-bound serine protease found in the secretory granules or on the surface of degranulated mast cells. The 321 amino acid protein contains an 18 amino acid propeptide linked to the catalytic domain (cd), followed by a single-span transmembrane domain. gamma-Tryptase is distinguished from other human
mast cell
tryptases by the presence of two unique cysteine residues, Cys(26) and Cys(145), that are predicted to form an intra-molecular disulfide bond linking the propeptide to the catalytic domain to form the mature, membrane-anchored two-chain enzyme. We expressed gamma-tryptase as either a soluble, single-chain enzyme with a C-terminal His tag (cd gamma-tryptase) or as a soluble pseudozymogen activated by enterokinase cleavage to form a two-chain protein with an N-terminal His tag (tc gamma-tryptase). Both recombinant proteins were expressed at high levels in Pichia pastoris and purified by affinity chromatography. The two forms of gamma-tryptase exhibit comparable kinetic parameters, indicating the propeptide does not contribute significantly to the substrate affinity or activity of the protease. Substrate and inhibitor library screening indicate that gamma-tryptase possesses a substrate preference and inhibitor profile distinct from that of
beta-tryptase
. Although the role of gamma-tryptase in
mast cell
function is unknown, our results suggest that it is likely to be distinct from that of
beta-tryptase
.
...
PMID:Expression and characterization of recombinant gamma-tryptase. 1681 34
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