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)

Based on the correlation between the kinetics and free energy of enzymatic reactions of hydrolysis (i. e. free energy linearity principle) for peptide and ester substrate hydrolysis by carboxypeptidase A, the identity of the catalytic mechanism for these substrates and the lack of formation of an activated enzyme intermediate with the C-terminal part of the hydrolyzed substrate were demonstrated. Using the energy linearity principle to the hydrolysis of specific peptide substrates by chymotrypsin, the nature of the activated enzyme intermediate with the C-terminal part of the substrate as a complex with a non-ionized product can be postulated. This accounts for the transpeptidation (according to the amino transfer type) of the peptides with an unprotected carboxylic group. It was concluded that the formation of the enzyme intermediate with the C-terminal part of the hydrolyzed substrate for all the three main classes of proteinases, i. e. serine, carboxylic and metal enzymes, occurs via different mechanisms.
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PMID:[Enzyme intermediates with the C-terminal products of substrate hydrolysis by carboxypeptidase A and chymotrypsin. Use of the free energy linearity principle]. 723 96

Steady-state and lifetime-resolved fluorescence anisotropy measurements of protein fluorescence were used to investigate the depolarizing motions of tryptophan residues in proteins. Lifetime resolution was achieved by oxygen quenching. The proteins investigated were carbonic anhydrase, carboxypeptidase A, alpha-chymotrypsin, trypsin, pepsin, and bovine and human serum albumin. When corrected for overall protein rotation, the steady state anisotropies indicate that, on the average, the tryptophan residues in these proteins rotate 29 degrees +/- 6 degrees during the unquenched excited state lifetimes of these proteins, which range from 1.7 to 6.1 ns. The lifetime-resolved anisotropies reveal correlation times for these displacements ranging from 1 to 12 ns. On the average these correlation times are tenfold shorter than that expected for overall protein rotation. We conclude that the tryptophan residues in these proteins display remarkable freedom of motion within the protein matrix, which implies that these matrices are highly flexible on the nanosecond time scale.
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PMID:Nanosecond segmental mobilities of tryptophan residues in proteins observed by lifetime-resolved fluorescence anisotropies. 724 63

Enzymes, not anchored into bilayers of membranes like trypsin, alpha-chymotrypsin, and carboxypeptidase A are chemically modified by acylation with fatty acids chlorides. This treatment renders these proteins hydrophobic so that they can combine with the phospholipid membrane of liposomes. This report deals with the incorporation of modified enzymes into liposomes prepared by different methods.
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PMID:Incorporation of chemically modified proteins into liposomes. 730 46

The postformalin ammoniacal silver (AS) and the ethanolic phosphotungstic acid (EPTA) methods were used to localize basic protein at the ultrastructural level in cytoplasmic granules of rat eosinophils and mast cells isolated using a Metrizamide gradient. Intense reaction was seen in the granules of EPTA-treated eosinophils. Following incubation of the cells for 2 hr in EPTA alone, the matrix was stained. After longer incubation (10 hr), however, both the matrix and core were stained. Cytoplasmic granules of the mast cell show a slight or negative reaction with EPTA. With the AS technique, a large number of silver particles were seen in the nucleus of both eosinophils and mast cells. The mast cell cytoplasmic granules showed intense reaction, while those from eosinophils showed no clear reaction. Acetylation of the cells under conditions sufficient to block most free amino groups prio to EPTA or AS treatment greatly reduced (EPTA) or abolished (AS) the reaction. The results indicate 1) that eosinophil granules contain basic proteins both in the matrix and the core, 2) that the mast cell granules contain a basic protein (probably the alpha-chymotrypsin-like enzyme), which reacts strongly with AS, and 3) that the AS and EPTA methods have different specificities.
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PMID:Ultrastructural localization of basic proteins in cytoplasmic granules of rat eosinophils and mast cells. 735 18

To examine the putative role of an endogenous serine esterase in mast cell activation, we have investigated the effect of inhibitors of, and substrates for, alpha-chymotrypsin in normal and permeabilized rat mast cells. These agents effectively blocked histamine release induced by anti-IgE, with an enhanced potency in permeabilized cells, but were ineffective against secretion evoked by compound 48/80. Activation of a chymotryptic enzyme, as evidenced by hydrolysis of a fluorescent substrate, was directly demonstrated following immunologic stimulation of permeabilized mast cells. No such activation was observed with compound 48/80. Immunologic stimulation also led to a significant increase in the total chymotryptic activity recoverable from the cells.
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PMID:Involvement of a serine protease in mast cell activation. 752 53

During atherogenesis, lipid droplets appear in the extracellular space of the arterial intima. We previously observed generation of lipid droplets on the surface of exocytosed mast cell granules when granule neutral proteases degraded the granule-bound LDL particles and the particles became unstable and fused [Kovanen, P.T., & Kokkonen, J.O. (1991) J. Biol. Chem. 266, 4430-4436]. We have now extended our studies to the fluid phase and examined the effects of several proteases (trypsin, alpha-chymotrypsin, Pronase, plasmin, kallikrein, and thrombin) all known for their ability to cleave the apolipoprotein B-100 component (apoB-100) of LDL. The fused LDL particles were separated from unfused particles by gel filtration or by density gradient ultracentrifugation. Proteolytic degradation of LDL with trypsin, alpha-chymotrypsin, or Pronase led to fragmentation of apoB-100 and release of the fragments from the LDL particles and triggered particle fusion. In contrast, proteolytic degradation of LDL with plasmin, kallikrein, or thrombin, which also led to fragmentation of apoB-100 but not to release of fragments, did not trigger particle fusion. With advancing degradation of apoB-100, particles having progressively lower densities and larger sizes were generated. Thus, after incubation for 24 h with alpha-chymotrypsin (apoB-100:alpha-chymotrypsin mass ratio 10:1) 40% of the apoB-100 was degraded and about 30% of the LDL particles had fused and reached diameters of up to 70 nm and densities ranging from 1.020 to < 1.005 g/mL. When the proteolyzed LDL particles, both unfused and fused, were incubated with macrophages, only those particles that had undergone fusion were ingested and converted into intracellular cholesteryl ester droplets. Thus proteolysis of LDL with release of apoB-100 fragments renders the particles sufficiently unstable to fuse and thus to become liable to ingestion by macrophages. Since the fused LDL particles resemble the extracellular lipid droplets in the atherosclerotic arterial intima and generate foam cells in vitro, these findings support the idea that proteolytic fusion of LDL is an atherogenic process.
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PMID:Fusion of proteolyzed low-density lipoprotein in the fluid phase: a novel mechanism generating atherogenic lipoprotein particles. 764 Feb 66

Human skin tryptase, a serine proteinase stored within mast cell secretory granules, rapidly loses enzymatic activity in solutions of physiological salt concentration, pH, and temperature. The inactivation of tryptase can be slowed and even reversed by addition of heparin, a highly sulfated glycosaminoglycan also found in the secretory granules. These properties may be relevant to tryptase regulation after secretion from mast cells. To further characterize the molecular changes underlying the functional instability of tryptase, circular dichroism (CD) and analytical ultracentrifugation were used to investigate structural changes during spontaneous inactivation. The CD spectra of active and spontaneously inactivated tryptase are different, particularly in the region around 230 nm where active tryptase displays a distinct negative peak. This peak is also observed in the CD spectrum of bovine chymotrypsin but not in trypsin, elastase, or chymotrypsinogen. Loss of activity resulting from spontaneous inactivation was accompanied by a diminution of the 230-nm signal. The kinetics for the signal loss appeared to be first-order and closely paralleled the rate of enzymatic activity loss. Dextran sulfate, a highly sulfated polysaccharide, was capable of reactivating tryptase and restoring the CD signal. After 2 h of decay (> 90% loss of activity), addition of dextran sulfate resulted in an almost immediate return of the CD signal to that of active tryptase. The return of the CD signal appeared to be more rapid than the return of enzymatic activity, thereby suggesting the presence of an unidentified step which is rate-limiting for activity return (and loss) and subsequent (prior) to the CD change accompanying activity loss. Ultracentrifugation analysis of tryptase showed a marked change in its association state upon inactivation. Sedimentation equilibrium under stabilizing conditions demonstrated the presence of a single species with the molecular weight of a tetramer. After spontaneous inactivation, a mixture of species was evident, which was characterized as monomers and tetramers in equilibrium. These results demonstrate that spontaneous inactivation of tryptase is associated with reversible conformational changes and that a consequence of inactivation is the formation of a destabilized tetrameric form. Although the molecular mechanism initiating these changes remains unclear, possible insights into the process are discussed on the basis of the similarity between the CD spectra of tryptase and chymotrypsin.
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PMID:Structural changes associated with the spontaneous inactivation of the serine proteinase human tryptase. 765 17

The effect of terbium (Tb) on the protease activity in pancreas of mice was studied. Administration of Tb at doses of 20 and 200 mumol/kg increased the activities of trypsin and carboxypeptidase A, but did not affect the activities of chymotrypsin and carboxypeptidase B. High Tb concentrations were found in the liver and spleen compared to the kidney and pancreas. Increases in Ca concentrations in the pancreas, kidney, and spleen after Tb administration were observed. The pancreatic slice experiments showed the increase in trypsin activity after Tb treatment and increases in trypsin and carboxypeptidase A after Ca treatment. Tb inhibited strongly the activities of authentic chymotrypsin and carboxypeptidase A. These results suggest that the increase in trypsin activity in the pancreas after Tb administration results from the activation of trypsinogen by Tb and Ca ions and that the increase in carboxypeptidase A activity is due to the activation of procarboxypeptidase A by trypsin and Ca ion, which increased after Tb administration.
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PMID:Effect of terbium on protease activity in pancreas of mice. 799 67

Mouse mast cells differentially express at least four chymases (mouse mast cell protease (mMCP) 1, mMCP-2, mMCP-4, and mMCP-5), a tryptase (mMCP-6), and an exopeptidase (mouse mast cell carboxypeptidase A (mMC-CPA)). The previously uncharacterized 2.5-kilobase mMCP-2 gene was isolated and found to consist of 5 exons. The 5'-flanking region of this gene is 89, 93, and 42% similar to that of the mMCP-1, mMCP-4, and mMCP-5 genes, respectively. Inheritance patterns of restriction-enzyme fragment length polymorphisms of these six mast cell protease genes in recombinant inbred mouse strains and interspecific backcrosses were used to determine their chromosomal locations. The mMCP-6 and mMC-CPA genes are located on chromosomes 17 and 3, respectively, whereas the four mast cell chymase genes all reside on chromosome 14 linked to a gene complex that encodes four cytotoxic T lymphocyte granzymes. Pulsed-field gel electrophoresis of genomic DNA digests demonstrated that the mMCP-1, mMCP-2, and mMCP-5 genes are within 850 kilobases of each other. Although clustering of the serine protease genes on chromosome 14 may be important at a higher level of genomic organization, the ability to independently induce or suppress the steady-state levels of the four chymase transcripts by treatment of mast cells with cytokines suggests that gene clustering is not the most critical factor for coordinate expression of these proteases. Because of the unique features of their tertiary structures, the substrate specificities of the serine proteases encoded by genes at the chromosome 14 complex are predicted to be more limited than those of pancreatic chymotrypsin and pancreatic trypsin, whose genes reside on chromosomes 8 and 6, respectively. Based on present day genomic distribution and sequence similarities, we propose that a primordial gene that encoded a serine protease with restricted substrate specificity underwent extensive duplication and divergence to form a family of cytokine-regulated transcripts from genes on chromosome 14.
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PMID:A closely linked complex of mouse mast cell-specific chymase genes on chromosome 14. 809 10

Extracts of Dermatophagoides pteronyssinus and D. farinae were shown to contain a variety of 30 kDa serine proteases, including trypsin, chymotrypsin, and an elastase-like enzyme. The mite trypsin, unlike chymotrypsin and the elastase enzyme, was heterogeneous with regard to charge. The enzymes were shown to be present at higher concentration in fecally enriched extracts than in whole mite extracts. The proteases were shown to induce vascular permeability and to detach cells in tissue culture. Further study showed that the mite elastase induced non-IgE mediated rat mast cell degranulation. Such properties may contribute to immunogenicity.
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PMID:Immunobiology of the serine protease allergens from house dust mites. 811 31

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