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

---

Query: UNIPROT:P15088 (mast cell)
14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The release of exogenous histamine was studied by superfusing brain slices following incubation with the radiolabeled amine. Histamine was released in a calcium-dependent way by 40 mM potassium. This release was high in hypothalamus and striatum and low in hippocampus and cortex. Compound 48/80, a mast cell histamine releasing agent, also induced histamine release, but only from hypothalamic tissue slices. It is suggested that the potassium-induced release of accumulated exogenous histamine is mainly from glial cells.
...
PMID:Potassium-induced release of tritiated histamine from rat brain tissue slices. 5 72

X537A released histamine from isolated histamine-retaining mast cell granules incubated at 37 degrees C in Tris-sodium (150 mM) or Tris-potassium (150 mM), but not in Tris-glucose (300 mM). The release was depressed at 0 degrees C. In contrast, decylamine released all histamine bound to the granules irrespective of the presence of monovalent cations in the incubation medium of temperature. X537A did not release histamine from an artificial heparin-protamine complex when incubated in deionized water. The mechanism of histamine release by X537A can be explained by the ability of the ionophore to carry monovalent cations across cellular membranes, hereby making the ions available for exchange with histamine bound to the granular matrix. This mechanism can be distinguished from that of agents triggering an exchange between cations and bound histamine through a calcium- and energy-dependent exocytotic process on the one hand and through membrane lysis on the other. Based on the observation that the ionophore was able to carry histamine into the bulk of an organic phase, various possibilities exist to explain how histamine escapes from the cells following release from intracellular granular stores.
...
PMID:Mechanism of histamine release induced by the ionophore X537A from isolated rat mast cells. 7 63

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

The activation of mast cells (MC) due to immunological stimulation causes an immediate and dramatic inflammatory response. We review current evidence indicating that the membrane permeabilities for calcium, chloride, sodium, and potassium have a significant role in the activation of these cells, and in some cases, specific ionic channels have been identified. Moreover, a number of intracellular mechanisms controlling these channels are pointed out, including different classes of G proteins, intracellular calcium, cAMP, and products of phosphoinositol breakdown. However, the interplay between factors controlling membrane conductances for different ions is not currently understood. The diversity of ionic effects on MC activation is depicted, illustrating that the ionic mechanisms of MC activation are specific for different MC types. Since nerve/mast cell interaction is a key element in the burgeoning field of neuroimmunology, we discuss the role of ionic channels as targets of neurotransmitter action in MC activation.
...
PMID:Mast cell ionic channels: significance for stimulus-secretion coupling. 137 80

We compared three different staining methods to determine if the dermal elastic fiber content of the HRS/Skh-1 hairless mouse could be accurately measured by color image analysis. Comparisons were made among Kligman's modification of Luna's mast cell stain for elastin, Unna's orcein stain with or without potassium permanganate preoxidation, and Gomori's aldehyde fuchsin stain with potassium permanganate preoxidation. The color image analysis system could be used to identify and quantify murine dermal elastin fibers in sections stained by all three methods. Gomori's aldehyde fuchsin stain with preoxidation demonstrated twice the content of dermal elastic fibers demonstrated by either Kligman's modification of Luna's mast cell stain or Unna's orcein stain with or without preoxidation. Gomori's aldehyde fuchsin method with preoxidation should be considered the stain of choice for evaluating murine dermal elastic fiber content.
...
PMID:Quantitative determination of murine dermal elastic fibers by color image analysis: comparison of three staining methods. 137 3

Functionally significant properties of domains in the amino acid sequence of potassium (K+) channel-forming proteins have been investigated by constructing chimeric K+ channels. The N-terminal domain of ShA2 channels was responsible for the fast inactivation (IKA) and also determined a shift in the threshold of activation whereas the membrane domain determined the timecourse of slow inactivation. The binding site for dendrotoxin (DTX), but not for mast cell degranulating peptide (MCDP), is completely located on the loop between the membrane spanning segments S5 and S6 in RCK1 channels. A certain part of this region which has recently been designated as a narrow part of the pore was found to be not responsible for the differences in the single-channel current amplitude between RCK4 and RCK2 K+ channels. Interchange of the C-terminal domain did not influence activation or inactivation of the channels.
...
PMID:Swapping of functional domains in voltage-gated K+ channels. 168 32

We have previously found that antigenic stimulation of mast cells in the guinea pig superior cervical ganglion leads to membrane depolarization of principal neurons and a long-term increase in the efficacy of ganglionic transmission. In this study experiments were conducted to discern the histological, immunological and pharmacological characteristics of the mast cells within the superior cervical ganglion. Mast cells within the superior cervical ganglion could be stained with toluidine blue or berberine sulfate, the latter indicating that heparin-like molecules were present in the granules. Stainable mast cells were distributed throughout the ganglion with no gross evidence of regional localization. The number of mast cells stained with toluidine blue was reduced significantly (P less than 0.01) in contralateral ganglia that had been exposed to the sensitizing antigen (ovalbumin), indicating antigen-induced degranulation. The superior cervical ganglion contained 208 +/- 6 picomole of histamine (mean +/- SEM, n = 66). Ovalbumin evoked the release of histamine from the superior cervical ganglion in a concentration-dependent fashion. At maximally effective concentrations, ovalbumin released 33 +/- 2% of the total histamine stores (mean +/- SEM, n = 61). Similar values were obtained with antigen-challenged stellate ganglia. A temperature of 37 degrees C and an extracellular calcium concentration of 1 mM was required to elicit optimal antigen-induced responses. In addition to releasing histamine, antigenic stimulation of the ganglion resulted in a 3- to 5-fold increase in the synthesis and release of arachidonic acid metabolites including peptidoleukotriene, thromboxane B2, prostaglandins (PG) E2, F2 alpha, D2, the PGD2 metabolite 9 alpha 11 beta-PGF2, and the prostacyclin metabolite 6-keto PGF1 alpha. Various putative mast cell secretagogues were examined for their ability to activate the superior cervical ganglion mast cell, as indicated by evoked histamine release. In contrast to rat peritoneal mast cells, high concentrations of substance P, compound 48/80, and nerve growth factor failed to stimulate the ganglion mast cells. Preganglionic nerve stimulation, electrical field stimulation of axons and cell bodies, or depolarizing concentrations of potassium chloride also failed to activate the superior cervical ganglion mast cells. These results suggest that substances released by membrane depolarization do not influence the function of the resident mast cells. The results demonstrate that the mast cells within sympathetic ganglia can be actively sensitized to respond to specific antigen. These mast cells are similar to lung parenchymal mast cells with respect to histological, immunological and pharmacological characteristics...
...
PMID:Mast cells in the guinea pig superior cervical ganglion: a functional and histological assessment. 169 91

1. The inhibition by the divalent cations magnesium, barium and strontium and the trivalent ion lanthanum of the Na(+) -K+ pump in the plasma membrane of rat peritoneal mast cells was studied in pure mast cell populations by measurement of the ouabain-sensitive uptake of the radioactive potassium analogue, 86rubidium (86Rb+). 2. Exposure of the cells to magnesium induced a time- and concentration-dependent decrease in the ouabain-sensitive K+(86Rb+)-uptake of the cells without influencing the ouabain-resistant uptake. The time-dependent decrease was apparent after incubation of the cells for 10 min or more, but no decrease was observed after 2 min incubation when the cells are supposed to be loaded with sodium due to the cell isolation procedure. 3. Barium and strontium caused concentration-dependent decreases in the ouabain-sensitive K(+) -(86Rb+) -uptake of the cells but the ouabain-resistant uptake was not changed. Half maximum decrease in the ouabain-sensitive K+(86Rb+)-uptake was observed with 1.8 mM magnesium, 1.2mM barium and 0.7 mM strontium. 4. The trivalent ion lanthanum blocked almost completely the ouabain-sensitive K+(86Rb+)-uptake at a concentration of 1 microM as does 1 mM calcium. Combining either of these ions with magnesium had no further inhibitory effect on the ouabain-sensitive uptake. 5. In conclusion, in addition to the previously suggested modulation by calcium of the activity of the Na+ (-)K+ pump, evidence is provided in this investigation that the modulation may be a more general effect of divalent and polyvalent cations present in the extracellular space through their influence on the sodium permeability of the plasma membrane.
...
PMID:Inhibition of Na(+) -K+ pump activity by divalent cations in intact peritoneal mast cells of the rat. 169 95

Epon sections from glutaraldehyde-fixed rat bone marrow were treated with aqueous solutions of the following electron contrasting agents: uranyl acetate, ruthenium red, potassium permanganate, potassium dichromate, stannous chloride, palladium (II) chloride, sodium molybdate, phosphomolybdic acid, molybdenum heteropolyblue, phosphotungstic acid, iron(II)-phenanthroline, aluminium-hematoxylin, mercurochrome, cuprolinic blue, and sirius light turquoise blue. At the ultrastructural level, a high degree of electron opacity was always observed in mast cell granules and the crystalline inclusion (internum) of eosinophil granules. The chromatin revealed a somewhat lower and variable contrasting reaction, while the matrix (externum) of eosinophil granules appeared with scarce or no contrast. This pattern of electron opacity showed no correlation with the type of agent used; therefore, it can be assumed that binding processes based on the own chemical reactivity of the compounds are rather of secondary importance. The differential epoxy resin embedding of cell structures and the variable access of aqueous reagents through the non-polar plastic could be the predominant factors which account for these contrasting reactions.
...
PMID:Observations on the contrasting reaction of some electron dense stains applied on epoxy-embedded tissue sections. 169 66

This review discusses our present knowledge of the structure and activities of the mast cell degranulating peptide (MCDP). This peptide is a basic, 22 amino acid residue component of honey bee venom with striking immunological and pharmacological activities. MCDP is a potent anti-inflammatory agent, but at low concentrations it is a strong mediator of mast cell degranulation and histamine release. MCDP is also an epileptogenic neurotoxin, an avid blocker of the potassium channels and can cause a significant lowering of the blood pressure in rats. Some of the biological activities of MCDP appear to have distinct mechanisms and may represent a good illustration of the structure-function relationship.
...
PMID:Mast cell degranulating peptide: a multi-functional neurotoxin. 170 29


1 2 3 4 5 6 7 Next >>

---