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)

In the presence of calcium, the ionophore A 23187 (10(-7) TO 10(-6) M) causes a dose-dependent histamine release from isolated human mast cells. The accompanying degranulation process is characterized by a formation of channels of fused mast cell granules and by an exocytotic extrusion of altered granule material. Simultaneously, large numbers of newly formed 70 A filaments occur. These filaments probably have a key function in secreting human mast cells.
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PMID:Ultrastructure of isolated human mast cells during histamine release induced by ionophore A 23187. 7 64

We have used the mast cell as a model system for studying some of the membrane events which occur during exocytosis. Our observations indicate that the maximum cluster size of IgE molecules necessary for the 'on' signal to activate a mast cell is ten or less, and that the 'off' signal is not associated with the gross patching or pinocytosis of IgE and its Fc receptors. Furthermore, the use of Con A-Sepharose beads to stimulate mast cells has shown that such signalling is localized to the areas of stimulus, but this localization is not a function of desensitization over the rest of the cell since the subsequent addition of soluble Con A to locally released cells induced generalized degranulation. Ca2+ influx therefore acts in a localized manner to initiate degranulation. Following receptor cross-linking, most of the membrane proteins and the layer of intervening cytoplasm are laterally displaced away from the areas of membrane interaction. This displacement may act as the signal for fusion to occur. The resulting fused bilayers are predominantly lipid, a situation which may be common in all transient membrane fusion.
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PMID:Some membrane events occurring during fusion and exocytosis in rat peritoneal mast cells. 9 11

Fusion of rat mast cells and Ehrlich ascites tumor cells was mediated by HVJ. Compound 48/80-induced degranulation occurred in the fused cells formed from two mast cells and one tumor cell, but not in the fused cells from one mast cell and two or more tumor cells.
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PMID:Degranulating activity in hybrid cells derived from rat peritoneal mast cells and ehrlich ascites. 99 80

A synthetic gene encoding the 39-amino-acid (aa) potato carboxypeptidase inhibitor IIa (PCI-IIa) has been constructed and expressed using the secretion vector, pIN-III-ompA-3, fused in frame to the OmpA signal peptide-encoding sequence. Recombinant Escherichia coli secreted a PCI with 10 additional aa at the N terminus (rePCI + 10). These extra aa were removed by site-directed mutagenesis giving a PCI with no additional aa (rePCI), as shown by fast atom bombardment mass spectrometry (M(r) 4295). The two forms of rePCI were found almost exclusively in the culture medium, not in the periplasmic space, as would be expected from OmpA signal peptide fusions. Both rePCI + 10 and rePCI are biologically active and react strongly with serum raised against PCI from potato. A method for the purification of rePCI to homogeneity has been developed. The purified rePCI shows a Ki for carboxypeptidase A within the range of the natural PCI-IIa (1.5-2.7 nM). These results indicate that both rePCI + 10 and rePCI are properly folded and that their three disulfide bridges are correctly formed. Together with previous reports, our results show that fusion to a secretion signal peptide is an effective way of producing small proteins containing disulfide bridges in a biologically active form.
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PMID:Expression of a synthetic gene encoding potato carboxypeptidase inhibitor using a bacterial secretion vector. 163 10

Rat peritoneal mast cells (RPMC) and rat basophilic leukemia (RBL) cells are representative of connective tissue-type (CTMC) and mucosal-type (MMC) mast cells, respectively. Using polyethylene glycol, we have fused RPMC with 6-thioguanine resistant, HAT (hypoxanthine, aminopterin, thymidine) sensitive RBL-CA10.7 or RBL-CK2 cells, yielding several hybrid rat mast cell lines (HRMC). The hybridomas exhibited different size and cytoplasmic granularity when compared with parental cell lines. Analysis of both high (Fc epsilon RI) and low affinity (Fc epsilon RL) receptors for IgE revealed that the hybrid lines had more variable receptor patterns than the parent lines. Three hybridoma lines were chosen for further study. Differential histochemical staining with alcian blue and safranin O dyes indicated the hybrids to be predominantly of the MMC type: however, a few cells of one of these uncloned hybridomas were found to be of the CTMC type. Attempts to isolate the CTMC hybridomas yielded one culture which was predominantly of the CTMC phenotype and in a number of other cultures, cells were found expressing simultaneously both the CTMC and the MMC phenotype. After 3 weeks in culture, however, all hybridomas, including those which were cloned further, expressed only the MMC histochemical phenotype. This was found to correlate with the presence of rat mast cell protease II (RMCPII) and the absence of RMCPI in all hybridomas, as detected by Western blot analysis. In addition, the histamine content of all cells was significantly lower than that of the parent RPMC. Most hybrid mast cells expressed both Fc epsilon RI and Fc epsilon RL which in some cases exhibited significant variations in the Mr. These results indicate that somatic cell hybrids expressing the MMC and CTMC phenotype can be produced by the fusion of RBL and RPMC. The CTMC phenotype, however, is unstable, and possible reasons for this are discussed.
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PMID:Establishment and characterization of hybrid rat mast cells. 182 10

In this study, galactose dehydrogenase (EC 1.1.1.48) was chosen as a prototype target protein to investigate the capability of metal affinity precipitation to facilitate the purification of genetically engineered proteins. A DNA fragment encoding five histidine residues was fused to the 3'-terminal end of the galactose dehydrogenase gene from Pseudomonas fluorescens and thereafter expressed in Escherichia coli. The additional five histidines functioned as an affinity tail and the modified enzyme could be purified using metal affinity precipitation when the metal-chelate complex with ethylene glycol-bis-(beta-aminoethyl ether) N,N,N',N'-tetra-acetic acid, EGTA(Zn)2, was added to the protein solution. The affinity tail could also be applied for the purification of the fusion protein utilising immobilised metal affinity chromatography. After purification, the pentahistidine affinity tail could be removed enzymatically by carboxypeptidase A. Furthermore, growth rate experiments demonstrated that the expression of the metal-binding affinity tail in E. coli cells enhanced the tolerance to zinc ions when added to the growth medium.
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PMID:Metal affinity precipitation of proteins carrying genetically attached polyhistidine affinity tails. 190 25

When low density lipoprotein (LDL) is incubated with granules isolated from rat serosal mast cells, a fraction of LDL is bound to the granule heparin proteoglycan. If incubation is continued at 37 degrees C, the bound LDL, but not the unbound LDL, is degraded by granule neutral proteases. In the early stage of incubation, all the granule-bound LDL can be released by 0.3 M NaCl (the "salt-sensitive" fraction of LDL). With time, an increasing proportion of the granule-bound LDL requires 0.5 M NaCl for release (the "salt-resistant" fraction of LDL). Chemical analysis showed that, on average, 20% of the apolipoprotein B LDL was lost from the salt-sensitive fraction and 60% from the salt-resistant fraction, without any change in the composition of the lipid portion. Electron microscopic analysis disclosed large fused particles of LDL (diameters up to 100 nm) in the highly proteolyzed salt-resistant fraction, but no fused particles could be found in the less proteolyzed salt-sensitive fraction. We conclude that both binding and extensive degradation of LDL by mast cell granules is required for fusion of LDL particles on the granule surface. As compared with native LDL, the mast cell granule-modified LDL particles exhibit (i) increased particle size, (ii) selective loss of protein (apoB), (iii) a decrease in hydrated density, and (iv) stronger ionic interaction between apoB and heparin proteoglycan. The particles resemble the extracellular lipid droplets found in atherosclerotic lesions of both man and animals. Modification of LDL by mast cells may therefore provide a model of how these lipid structures are formed.
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PMID:Modification of low density lipoproteins by secretory granules of rat serosal mast cells. 199 27

We have used the whole-cell patch-pipette technique to measure the step increases in the cell membrane capacitance (equivalent to the membrane area) caused by the fusion of secretory granules in degranulating murine mast cells. We have observed that up to 30% of the total membrane expansion caused by degranulation results from large fusion events that cannot be explained by the fusion of single secretory granules. These large events are observed mainly in the initial phase of a degranulation. We have developed a simple mathematical model for a mast cell to test whether these large events are caused by a stimulus-induced, granule-to-granule fusion that occurs before their exocytosis (multigranular exocytosis). Our results suggest that the large fusion events are caused by the exocytosis of granule aggregates that existed before stimulation and that are located at the cell's periphery. We propose a novel mechanism by which granule aggregates can be formed at the periphery of the cell. This mechanism relies on the ability of a transiently fused granule ("flicker") to fuse with more internally located granules in a sequential manner. This pattern may result in the formation of larger peripheral granules that later on can fuse with the membrane. The formation of peripheral granule aggregates may potentiate a subsequent secretory response.
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PMID:Compound versus multigranular exocytosis in peritoneal mast cells. 232 1

Secretory granules exocytosed from rat serosal mast cells bind low density lipoprotein (LDL), and on being phagocytosed by macrophages, carry the bound LDL into these cells (Kokkonen, J. O., and Kovanen, P. T. (1987) Proc. Natl. Acad. Sci. U.S.A. 84, 2287-2291). The binding of LDL to the granules is mediated through interactions between the apolipoprotein B (apoB) component of LDL and the heparin proteoglycan component of the granules. Here we report how degradation of apoB by the neutral proteases of the granules affects the granule-mediated uptake of LDL by cultured mouse macrophages. During incubation of LDL with proteolytically inactive granules, the rate of uptake of LDL by macrophages increased by 10-fold; whereas during incubation with proteolytically active granules, it increased by 50-fold, the increase in the rate of uptake during proteolysis correlating with the degree of apoB degradation. The 5-fold greater capacity of the proteolytically active granules to enhance the uptake of LDL resulted from their greater capacity to bind LDL, and consequently, to carry it into the macrophages. Electron microscopic analysis of LDL bound to the proteolytically active granules disclosed large spherical particles of fused LDL. The diameters of the granule-bound particles ranged up to 90 nm compared with an average diameter of 22 nm for both native LDL and the LDL bound to proteolytically inactive granules. The results show that granule proteases, by inducing fusion of granule-bound LDL, increase the amount of LDL bound per unit weight of granule heparin proteoglycan. Hence, the two components of mast cell granules, the proteases and the heparin proteoglycan, act in concert to promote the uptake of LDL by macrophages in vitro.
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PMID:Proteolytic enzymes of mast cell granules degrade low density lipoproteins and promote their granule-mediated uptake by macrophages in vitro. 265 92

We used an ultrastructural approach to analyze morphologic changes in isolated human lung mast cells during IgE-induced degranulation. We found that after stimulation with anti-IgE, mast cell cytoplasmic granules became swollen, their complex matrix patterns became altered, and their membranes fused to produce chains of granules which enlarged to become tortuous cytoplasmic degranulation channels. These channels eventually opened to the surface of the cell at multiple points in the circumference of the cell. Loss of altered granule matrix occurred in the absence of extrusion of formed granules or granular structures to the exterior of the cell. As channels opened to the exterior a remarkable activation of cell surface occurred. This was initially characterized by elongation and increasing complexity of surface processes. At later times, many free membranes were found adjacent to small mast cells which had diminished granule numbers and smooth surfaces. All of these changes were seen in morphologically undamaged cells and constitute a readily recognizable sequence of IgE-induced release events in isolated human lung mast cells.
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PMID:Immunoglobulin E-mediated degranulation of isolated human lung mast cells. 387 21


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