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)

A review is presented of the most important morphological and functional characteristics of the mast cell. The cell is ovoid and contains heparin-containing granules in the cytoplasm. These stain metachromatically. In addition to heparin, the granules contain histamine and other inflammatory mediators. The cell is localized perivascularly in the loose connective tissue. The mast cell secretes histamine by exocytosis when it is stimulated immunologically by binding of a specific antigen to IgE molecules in the cell membrane. Histamine secretion may also be induced by non-immunological stimulators such as polymeric amines, neuropeptides and calcium-ionophores. Calcium plays an important role in the secretory process. Immunological secretion of histamine requires the presence of extracellular calcium whereas secretion induced by polymeric amines and neuropeptides can utilize the intracellular calcium depots. Phosphatide inositides released from phospholipides in connection with cell activation release calcium from the intracellular depots and probably play a part in histamine secretion. In addition, the protein phosphorylization reactions catalized by proteinkinase C, probably contribute in the process of secretion. Finally, secretion of histamine depends upon the ATP content of the cell.
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PMID:[The mast cell]. 170 82

Antigenic stimulation of rat basophilic leukemia (RBL-2H3) cells, a tumor mast cell line, is associated with an increase in intracellular free Ca2+ concentrations ([Ca2+]i) and membrane polarization. We recorded whole cell and single-channel currents through the inwardly rectifying K+ channel, a major resting conductance of cells, using the patch-clamp technique, and we examined interactions between channel activity and [Ca2+]i. With 10 microM Ca2+ in the pipette, the amplitude of whole cell currents gradually declined within 5 min to 48 +/- 13% of that immediately after rupture of the patch membrane, in the presence of 1 mM ATP which minimized intrinsic rundown. In inside-out patches, activity of the channel was reduced by increasing the concentration of Ca2+ in the internal medium, both in the presence and absence of 1 mM ATP, with no apparent change in single-channel conductance. Time-averaged mean current activity in inside-out patches in the presence of 5 microM Ca2+ was less than 50% of that with Ca2+ of 100 nM or less. These results suggest that a rise in [Ca2+]i leads to a closure of the inwardly rectifying K+ channel. In some inside-out patches, inward currents characterized by burst composed of rapid transitions between open and closed states were observed (flickering currents). Single-channel properties of the flickering currents are similar to the inwardly rectifying K+ channel except for kinetics (single-channel conductance of 24.5 +/- 7.9 pS, inward rectification, and permeability to K+).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Calcium-dependent inactivation of inwardly rectifying K+ channel in a tumor mast cell line. 173 36

The regulation of the plasma membrane potential of rat peritoneal mast cells at the resting state and during activation was investigated using bisoxonol as a potential-sensitive fluorescent dye. Fluorescence microphotography showed that this negatively charged probe was not only present in the plasma membrane, but was also distributed in the cytoplasm. The intracellular localization of bisoxonol was confirmed by conducting experiments which showed that bisoxonol fluorescence was not enhanced in ATP-permeabilized mast cells. Rotenone (10(-7) M) and oligomycin (10(-6) M) did not change the fluorescence of bisoxonol showing, therefore, mitochondrial depolarization was not recorded with bisoxonol and suggesting that bisoxonol may represent a useful probe to study plasma membrane potential changes in the absence of exocytosis. We showed that, in non-stimulated mast cells, the blockade of the sodium pump enhanced the fluorescence of bisoxonol as did gramicidin a non selective ionophore used to fully depolarize the cells. High concentration of potassium (30 mM) as well as different ionic channel blockers did not significantly change the fluorescence intensity of bisoxonol, suggesting that ionic channel permeabilities were not involved in maintaining the resting plasma membrane potential of mast cells. Mast cells stimulated by compound 48/80 completely lost the fluorescence, shown by fluorescence microphotography, suggesting that exocytotic phenomena might induce a dye redistribution which is not only due to changes in the plasma membrane potential. In mast cells pretreated with pertussis toxin, which blocks mast cell-exocytosis, compound 48/80 induced a delayed (2 min) decrease of bisoxonol fluorescence which was shown to be dependent on the activity of the sodium pump. Considering that bisoxonol is a useful potential-sensitive probe in exocytosis-deprived mast cells, our results suggest that the sodium pump is mainly involved in the changes of plasma membrane potential of mast cells.
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PMID:The use of the potential-sensitive fluorescent probe bisoxonol in mast cells. 176 50

Rat mast cells purified on a Percoll gradient were challenged with compound 48/80 and protein kinase C activity in the cell pellets and the amount of histamine release into the supernatant was assayed by measuring the incorporation of 32P from [gamma 32P]ATP (adenosine triphosphate) into lysine-rich histone and by the fluorometric technique, respectively. In another series of experiments, rat mast cell granules were isolated in a gradient from sonicated rat mast cells and diphosphoinositide kinase activity was assayed by measuring the incorporation of 32P from [gamma 32P]ATP into triphosphoinositide on oxalic acid-impregnated silica gel plates after the extraction of lipids in acidic condition. Azelastine (A-5610, E-0659) inhibited the histamine release from the cells in parallel with the tendency to inhibit the increased protein kinase C activity in the activated mast cells. Azelastine also inhibited the diphosphoinositide kinase activity in the granules. These inhibitory effects of azelastine on the phosphorylation enzymes in rat mast cells may be involved in the inhibitory mechanism of the mediator release from the cells.
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PMID:Inhibitory effects of azelastine on protein kinase C and diphosphoinositide kinase in rat mast cells. 197 Jul 35

Investigation of regulated exocytosis has frequently required the use of permeabilised cell preparations. This has provided evidence that Ca2(+)-binding and guanine nucleotide-binding proteins can mediate secretion. Since the manner and extent of membrane permeabilisation affect the requirements for Ca2+ and guanine nucleotide, we have introduced such effectors directly into intact, rat peritoneal mast cells by microinjection. During this brief procedure (approximately 1 s) a glass needle forms a seal with the plasma membrane. Following injection and withdrawal of the needle the membrane reseals without apparent loss of cell contents. Using fluorescent dye, we estimate that the volume injected is approximately 5 fl and that the dilution of injected solutes is approximately 100-fold. Injection of the nucleotides inosine triphosphate, guanosine 5'-[gamma-thio]triphosphate (GTP gamma S) and guanosine 5'-[beta gamma-imido]triphosphate causes degranulation. The EC50 for GTP gamma S is approximately 10 microM (concentration in the needle) equivalent to an intracellular concentration of approximately 100 nM. However, the effect of GTP gamma S is dependent on the presence of Ca2+ in the external medium. This may be explained by a transitory influx of Ca2+ that occurs during impalement, since the seal between needle and membrane will not prevent the movement of small ions. Thus an increase in cytoplasmic Ca2+ appears to be necessary for secretion induced by GTP gamma S. Using metabolic inhibitors we have investigated the requirement for ATP. Under conditions where [ATP]i has fallen to 60 +/- 18 microM (S.E.M., n = 3) the mast cell agonist, compound 48/80, is unable to induce degranulation, yet injection of GTP gamma S still activates the cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Rat mast cells degranulate in response to microinjection of guanine nucleotide. 205 58

Incubation of oat root plasma membrane vesicles in the presence of ATP with trypsin or chymotrypsin increased the rate of ATP hydrolysis and ATP-dependent proton pumping by the plasma membrane H(+)-ATPase. Proton pumping was stimulated more than 200%, whereas ATP hydrolytic activity was stimulated about 30%. The Km (ATP) for both proton pumping and ATP hydrolysis was lowered from about 0.3 mM to below 0.1 mM. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of trypsin-treated plasma membranes revealed a decrease in a 100-kDa band and the appearance of a 93-kDa band. Western blot analysis using antibodies against the H(+)-ATPase showed that both of these bands represented the H(+)-ATPase and suggested that a 7-kDa segment was released. Extensive treatment with carboxypeptidase A also activated the H(+)-ATPase indicating that the 7-kDa segment originated from the C terminus.
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PMID:Proteolytic activation of the plant plasma membrane H(+)-ATPase by removal of a terminal segment. 214 84

Rat mast cell granules were obtained by homogenization of highly purified rat mast cells and isolated in a Percoll gradient. Diphosphoinositide (DPI) synthesis in rat mast cell granules was assayed by measuring the incorporation of 32P from [gamma 32P] ATP into DPI in the absence of exogenous phosphatidylinositol (PI). Lipids were isolated with methanol/chloroform/HCl and were separated by thin-layer chromatography on oxalic acid impregnated silica gel plates. DPI areas were identified by staining with iodine, scraped and measured for 32P radioactivity. The addition of polyamines, spermine and spermidine, to the granules caused an increase of DPI synthesis, which can be catalyzed by PI kinase. This effect of polyamines in the DPI synthesis was in a dose-dependent manner and maximal effects were observed at 1 mM spermine and 10 mM spermidine, respectively.
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PMID:Polyamines stimulate the phosphorylation of phosphatidylinositol in rat mast cell granules. 216 49

The purpose of this study was to further characterize acridine-photosensitized inhibition of mast cell degranulation. Acridine plus UVA radiation (320-400 nm) inhibited degranulation in response to antigen in IgE-sensitized rat serosal mast cells and in response to concanavalin A, which acts by a mechanism similar to antigen-IgE challenge. Removing oxygen from the incubation medium prevented the acridine-photosensitized inhibition of mast cell degranulation in response to 48/80. Acridine plus UVA radiation did not decrease mast cell ATP content, thus excluding inhibition of ATP production as a mechanism for photosensitized inhibition of mast cell degranulation. Although the viability of mast cells, as determined by uptake of trypan blue, was not affected 3 h after treatment with acridine plus UVA radiation, viability decreased by 6 h, and by 22 h 44% of the cells were nonviable. These results indicate that degranulation of mast cells by a variety of agents is inhibited by UVA plus acridine treatment, and that photosensitization requires oxygen and occurs before cytotoxicity.
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PMID:A further characterization of acridine-photosensitized inhibition of mast cell degranulation. 240 Jun 75

In inside-out red cell membrane vesicles active calcium transport and the formation of the enzyme-phosphate complex (EP) of the calcium pump were simultaneously investigated and the effects of a limited proteolytic digestion examined. In order to visualize the proteolyzed EP forms we have induced the formation of a maximum level EP from [gamma-32P]ATP in the presence of Ca2+ + La3+ and applied a good-resolution acidic discontinuous sodium dodecyl sulfate-polyacrylamide gel electrophoresis system. Proteolysis of inside-out vesicle membranes by trypsin, Pronase, papain, or chymotrypsin produces a calmodulin-like activation of the calcium pump, abolishes its calmodulin sensitivity, and decreases the original 140-kDa EP complex to a limit polypeptide of 80 kDa. Trypsin digestion produces another major intermediary fragment of 90 kDa, which is still a low-activity calmodulin-sensitive form of the pump. The red cell calcium pump is activated by trypsin both in the absence and presence of Ca2+ during digestion although the rate of activation and the appearance of the 80-kDa polypeptide are enhanced by Ca2+. If proteolytic digestion is carried out by chymotrypsin, a calmodulin-insensitive maximum activation of the calcium pump coincides with the formation of a 125-130-kDa EP-forming polypeptide. Chymotrypsin and carboxypeptidase A have synergistic effects on the formation of this latter high-activity species. Based on these data we suggest a probable molecular arrangement for the functional parts of the red cell membrane calcium pump.
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PMID:Molecular characterization of the in situ red cell membrane calcium pump by limited proteolysis. 242 14

The apomorphine-induced inhibition of histamine release in rat peritoneal mast cells was studied by means of secretagogues stimulating different pathways of mast cell activation. Apomorphine inhibited the mast cell response to all releasing agents (lysophosphatidylserine plus nerve growth factor, compound 48/80, substance P, ATP, tetradecanoylphorbolacetate, melittin). The IC50 ranged from 4 microM to 24 microM at concentrations of secretagogues releasing 30-50% of mast cell histamine. However, the potency of the drug decreased at higher secretagogue concentrations. Mast cells, pretreated with apomorphine and washed, released little histamine upon stimulation. The secretory response could be partially restored on increasing the concentration of secretagogues. The results suggest that apomorphine affects a regulatory step controlling the terminal sequence of mast cell secretory activity. As indicated by the reduced potency of the drug, the control by the apomorphine-sensitive reaction loses efficiency under conditions of massive histamine release.
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PMID:Apomorphine-induced inhibition of histamine release in rat peritoneal mast cells. 242 81


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