scholarly journals Studies of phosphorylation in rat mast cells. Sixth report. Cyclic AMP-dependent protein phosphorylation in rat mast cell granule membranes.

1985 ◽  
Vol 86 (2) ◽  
pp. 87-92 ◽  
Author(s):  
Motohiro KUROSAWA
Keyword(s):  
Mast Cell ◽  
Mast Cells ◽  
Cyclic Amp ◽  
Protein Phosphorylation ◽  
Cell Granule ◽  
Mast Cell Granule ◽  
Dependent Protein ◽  
Rat Mast Cells

scholarly journals MATURATION OF RAT MAST CELLS

1966 ◽  
Vol 31 (3) ◽  
pp. 563-575 ◽  
Author(s):  
J. W. Combs
Keyword(s):  
Mast Cell ◽  
Mast Cells ◽  
Granular Material ◽  
Electron Microscope Study ◽  
Cell Granule ◽  
Cell Maturation ◽  
Granule Formation ◽  
Dense Granules ◽  
Mast Cell Granule ◽  
Rat Mast Cells

Electron microscope study of rat mast cell maturation corroborates certain interpretations of features of mast cell differentiation based on light microscope studies. In addition, the ultrastructural variation observed in the granules of differentiating mast cells suggests that granule formation begins with the elaboration of dense granules about 70 mµ in diameter inside Golgi vacuoles. These progranules appear to aggregate inside a membrane and fuse to form dense cords 70 to 100 mµ in diameter. These dense cords are embedded in a finely granular material possibly added to the developing granule by direct continuity between perigranular membranes and cisternae of rough endoplasmic reticulum. The dense cords and finely granular material then appear to be replaced by a mass of strands about 30 mµ in diameter, thought to be a reorganization product of the two formerly separate components. A process interpreted as compaction of the strands completes the formation of the dense, homogeneous granules observed in mature rat mast cells. The similarity between mast cell granule formation and the elaboration of other granules is considered, with special reference to rabbit polymorphonuclear leukocyte azurophil granules. The relationships between the ultrastructural, histochemical, and radioautographic characteristics of mast cell granule formation are considered, and the significance of the perigranular membrane is discussed.

scholarly journals Preparative purification of the rat mast cell chymase. Characterization and Interaction with granule components

1977 ◽  
Vol 146 (5) ◽  
pp. 1405-1419 ◽  
Author(s):  
R Yurt ◽  
KF Austen
Keyword(s):  
Mast Cell ◽  
Mast Cells ◽  
Gel Electrophoresis ◽  
Polyacrylamide Gel Electrophoresis ◽  
Cell Granule ◽  
Cationic Protein ◽  
Molar Ratios ◽  
Single Polypeptide Chain ◽  
Mast Cell Granule ◽  
Mast Cell Chymase

The rat mast cell granule chymotrypsinlike enzyme was purified to homogeneity from 1 M NaCl solubilized membrane and granule-rich fractions of concentrated rat peritoneal mast cells by a preparative technique utilizing chromatography on Dowex 1, filtration on Sephadex G-75, and affinity chromatography with D-tryptophan methyl ester. Acid disk gel electrophoresis of the purified chymase disclosed a single stained band with activity being eluted from a replicate sliced gel in the same region. SDS-polyacrylamide gel electrophoresis of purified protein gave a single stained band that did not change in position with reduction and alkylation. Mast cell chymase is thus a cationic protein of 25,000 mol wt composed of a single polypeptide chain. The apparent K(m) of the chymase for BTEE was 1.5 x 10(-3) M and the V(max) was 67.8 μmol/min per mg. The enzyme was inhibited by TPCK and not by TLCK. The chymase complexed with native macromolecular rat mast cell heparin in molar ratios of 12:1 and 16:1, and complete heparin uptake occurred at a 40:1 ratio of chymase to heparin. Chymase activity was partially masked by combination with heparin in the isolated granule or experimental chymase-heparin complex, and soluble purified chymase was inhibited by concentrations of 5-HT comparable to those present in mast cells. It is therefore possible that the active site of chymase in the mast cell granule is largely masked by the combined effects of macromolecular heparin and 5-HT.

Cytochemical analysis of mast cell granules after poly-dl-lysine action

1978 ◽  
Vol 36 (2) ◽  
pp. 278-279
Author(s):  
R. Courtoy ◽  
L.J. Simar ◽  
J. Christophe
Keyword(s):  
Mast Cell ◽  
Mast Cells ◽  
Chemical Compounds ◽  
Cellular Membrane ◽  
Thin Sections ◽  
Organic Bases ◽  
Ferric Thiocyanate ◽  
Cytochemical Analysis ◽  
Mast Cell Granule ◽  
Amine Liberation

Several chemical compounds induce amine liberation from mast cells but do not necessarily provoque the granule expulsion. For example, poly-dl-lysine induces modifications of the cellular membrane permeability which promotes ion exchange at the level of mast cell granules. Few of them are expulsed but the majority remains in the cytoplasm and appears less dense to the electrons. A cytochemical analysis has been performed to determine the composition of these granules after the polylysine action.We have previously reported that it was possible to demonstrate polyanions on epon thin sections using a cetylpyridinium ferric thiocyanate method. Organic bases are selectively stained with cobalt thiocyanate and the sulfhydryle groups are characterized with a silver methenamine reaction. These techniques permit to reveal the mast cell granule constituents, i.e. heparin, biogenic amines and basic proteins.

scholarly journals Ca2+-induced insulin secretion from electrically permeabilized islets. Loss of the Ca2+-induced secretory response is accompanied by loss of Ca2+-induced protein phosphorylation

1992 ◽  
Vol 285 (3) ◽  
pp. 973-978 ◽  
Author(s):  
P M Jones ◽  
S J Persaud ◽  
S L Howell
Keyword(s):  
Protein Kinase C ◽  
Insulin Secretion ◽  
Protein Kinase ◽  
Cyclic Amp ◽  
Protein Phosphorylation ◽  
Prolonged Exposure ◽  
Kinase C ◽  
Dependent Protein ◽  
32P Incorporation ◽  
Rat Islets Of Langerhans

Increasing the cytosolic Ca2+ concentration of electrically permeabilized rat islets of Langerhans caused rapid increases in insulin secretion and in 32P incorporation into islet proteins. However, the secretory responsiveness of permeabilized islets was relatively transient, with insulin secretion approaching basal levels within 20-30 min despite the continued presence of stimulatory concentrations of Ca2+. The loss of Ca2(+)-induced insulin secretion was accompanied by a marked reduction in Ca2(+)-dependent protein phosphorylation, but not in cyclic AMP-dependent protein phosphorylation. Similarly, permeabilized islets which were no longer responsive to Ca2+ were able to mount appropriate secretory responses to cyclic AMP and to a protein kinase C-activating phorbol ester. These results suggest that prolonged exposure to elevated cytosolic Ca2+ concentrations results in a specific desensitization of the secretory mechanism to Ca2+, perhaps as a result of a decrease in Ca2(+)-dependent kinase activity. Furthermore, these studies suggest that secretory responses of B-cells to cyclic AMP and activators of protein kinase C are not dependent upon the responsiveness of the cells to changes in cytosolic Ca2+.

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