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Query: UNIPROT:P15088 (
mast cell
)
14,925
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Subcellular fractions containing adrenergic vesicles were obtained from bovine adrenal medulla and splenic nerve, rat and cat heart, and rat spleen. The fractions were washed free from lipids, digested with papain and the mucopolysaccharides (MPSs) then precipitated from the supernatant with ethanolic potassium acetate. The mpsswere identified by several different methods--microelectrophoresis on cellulose acetate in various media, cellulose column chromatography using elution solvents of increasing ionic strength, and treatment with specific enzymes followed by electrophoresis or column chromatography. The MPS precipitate from all the sources investigated contained dermatan sulphate or a dermatan sulphate-chondroitin sulphate hybrid. in addition, the precipitate from rat spleen was found to contain chondroitin sulphate.
Heparan sulphate
was found in the precipitates from rat heart and spleen and hyaluronic acid in that from bovine splenic nerve. The finding of sulphomucopolysaccharides in the adrenergic vesicles, probably in a complex with protein, raises the question of the functional significance of such complexes. They might, by analogy with the ion-exchange function of the heparin-protein complex in
mast cell
granules, play a role in the storage and release of the amines.
...
PMID:Identification of the mucopolysaccharides in catecholamine-containing subcellular particel fractions from various rat, cat and ox tissues. 13 83
These results show that heparin and dextran sulfate protect endothelial cells from oxygen-free radicals.
Heparan sulfate
and dermatan sulfate showed mild protection when measuring cell viability but none when examining the presence of LDH in media. These GAGs are obviously not as effective as heparin and dextran sulfate in protecting endothelial cells from free radical injury. It is possible, however, that other preparations of heparan sulfate and dermatan sulfate may be more effective. In cells that were pretreated with heparin for 24 hours, the protective action occurred immediately after the addition of X/XO. We can conclude that changes observed in cell viability with heparin treatment were not due to stimulation of cell growth, since this occurred too rapidly. As well, we did not observe a significant difference in cell number in cultures treated with polyelectrolytes. These results show that the anionic polyelectrolytes, in particular heparin and dextran sulfate, may be important for the treatment of ischemic episodes and inflammatory associated conditions. As well, this provides support for the argument that heparin and similar drugs are important for the prevention and treatment of atheroma. It is also possible that the presence of heparin in the
mast cell
may be to prevent surrounding cells from inflammatory injury.
...
PMID:Protective action of polyelectrolytes on endothelium. 206 70
Heparin is a sulfated glycosaminoglycan, synthesized by connective tissue-type mast cells. Rat mast cell protease 1 (RMCP-1), a chymotrypsin-like serine protease expressed specifically by connective tissue-type mast cells, is recovered in a macromolecular complex with heparin proteoglycan. The heparin.RMCP-1 complexes are stored in the secretory granules of the cells and are released following
mast cell
activation. We showed previously that dissociation of RMCP-1 from heparin resulted in loss of protease activity, as measured by its ability to inactivate thrombin. In the present report the binding of heparin to RMCP-1 was characterized. Affinity chromatography on heparin-Sepharose showed that RMCP-1 displayed high affinity for heparin, with approximately 1.2 M NaCl being required for elution of RMCP-1 from the affinity matrix. The structural requirements for the binding of heparin to RMCP-1 were investigated.
Heparan sulfate
, chondroitin sulfate, and dermatan sulfate, three glycosaminoglycans structurally related to heparin, were > or = 80-fold less effective in binding to RMCP-1 than heparin. The 2-O-sulfate, 6-O-sulfate, and N-sulfate groups in heparin were all shown to contribute in the binding. The minimal heparin sequence required for binding to RMCP-1 was found in a 14-saccharide fraction. 14-Saccharide species, obtained after separation by anion exchange chromatography, showed continuously increased binding with increasing anionic charge densities. The 16-18-saccharides were the smallest heparin oligosaccharides capable of accelerating the inactivation of thrombin by RMCP-1.
...
PMID:Interaction of heparin with rat mast cell protease 1. 818 50
Human lung tryptase (HLT), a trypsin-like serine proteinase stored as an active enzyme in association with heparin in
mast cell
granules, is released into the extracellular environment when mast cells are activated. Tryptases are unusual in that they form tetramers and bind heparin. As there are no known endogenous tryptase inhibitors, loss of heparin and dissociation of the active tetrameric enzyme to inactive monomers has been proposed as the mechanism of control. Activity and intrinsic fluorescence were used to measure the stabilization of HLT by NaCl, glycerol, and heparin. At physiological salt concentrations in the absence of heparin, activity decayed rapidly (t1/2 = 1-4 min at 37 degrees C) to an intermediate that could be immediately reactivated by heparin. But protein structural changes, as measured by intrinsic fluorescence, were much slower (t1/2 = 16 min), indicating that the intermediate continued to exist as a tetramer that slowly changed to a monomer. HLT tetramers, either active or inactive, were stabilized by 2 M NaCl, 20% glycerol, and heparin. Maximum stabilization was obtained with approximately 1 mol of heparin per HLT subunit.
Heparan sulfate
also stabilized HLT activity and active HLT was bound to and recovered from cartilage. Subunits of the inactive intermediate appeared to be loosely associated as demonstrated by the rapid disappearance of the tetramer in gel filtration studies in 1 M NaCl (t1/2 = 1.8 min), but the tetramer was stable in lower ionic strength buffers containing heparin. Fluorescence anisotropy measurements in the absence of heparin were also consistent with a slow (t1/2 = 22 min) transition from tetramer to monomer, and native polyacrylamide gel electrophoresis provided additional evidence for a tetrameric intermediate. HLT monomers isolated by gel filtration were minimally active in the presence of heparin. These data show that heparin-free HLT rapidly converts to an "inactive", loose tetrameric intermediate that can be reactivated with heparin or slowly dissociate to less active monomers and that tryptase released from mast cells is likely to remain active in association with heparin or other extracellular components. Thus, tryptase affinity for glycosaminoglycans and substrate specificity limitations are the primary factors controlling the proteolytic functions of these enzymes.
...
PMID:Inactivation of human lung tryptase: evidence for a re-activatable tetrameric intermediate and active monomers. 888 30
Heparan sulfate
6-O-sulfotransferase (HS6ST) is an enzyme involved in heparan sulfate (HS) biosynthesis that transfers a sulfate residue to position 6 of the GlcNAc/GlcNSO(3) residues of HS, and it consists of three isoforms. Heparin, the highly sulfated form of HS, resides in connective tissue mast cells and is involved in the storage of
mast cell
proteases (MCPs). However, it is not well understood which isoform(s) of HS6ST participates in 6-O-sulfation of heparin and how the 6-O-sulfate residues in heparin affect MCPs. To investigate these issues, we prepared fetal skin-derived mast cells (FSMCs) from wild type (WT) and HS6ST-deficient mice (HS6ST-1(-/-), HS6ST-2(-/-), and HS6ST-1(-/-)/HS6ST-2(-/-)) and determined the structure of heparin, the protease activity, and the mRNA expression of each MCP in cultured FSMCs. The activities of tryptase and carboxypeptidase-A were decreased in HS6ST-2(-/-)-FSMCs in which 6-O-sulfation of heparin was decreased at 50% of WT-FSMCs and almost lost in HS6ST-1(-/-)/HS6ST-2(-/-)-FSMCs, which lacked the 6-O-sulfation in heparin nearly completely. In contrast, chymase activity was retained even in HS6ST-1(-/-)/HS6ST-2(-/-)-FSMCs. Each MCP mRNA was not decreased in any of the mutant FSMCs. Western blot analysis showed that tryptase (mMCP-6) was almost absent from HS6ST-1(-/-)/HS6ST-2(-/-)-FSMCs indicating degradation/secretion of the enzyme protein. These observations suggest that both HS6ST-1 and HS6ST-2 are involved in 6-O-sulfation of heparin and that the proper packaging and storage of tryptase, carboxypeptidase-A, and chymase may be regulated differently by the 6-O-sulfate residues in heparin. It is thus likely that 6-O-sulfation of heparin plays important roles in regulating MCP functions.
...
PMID:Heparan sulfate 6-O-sulfotransferase isoform-dependent regulatory effects of heparin on the activities of various proteases in mast cells and the biosynthesis of 6-O-sulfated heparin. 2322 49
