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)

Histamine H1-antagonists inhibit the weal-and-flare responses to the intradermal injection of platelet activating factor (PAF) in humans, and PAF response is reduced in histamine-depleted skin sites. This indicates that mast cell histamine release is likely to be the mechanism of this response. We have therefore studied the interaction of PAF with cutaneous mast cells by observing whether it releases histamine directly from human dispersed foreskin mast cells, potentiates the activity of known mast cell stimulants or liberates histamine releasing factors (HRFs) from human platelets and leucocytes to release mast cell histamine by an indirect mechanism. At a concentration of 100 microM both PAF C18 and PAF C16 caused near maximal release (83.5 +/- 4.3% and 88.2 +/- 4.5% respectively) of the total histamine content of the cell. This release was not inhibited in the absence of extracellular Ca2+, by the lack of metabolic energy or in the presence of the PAF antagonists WEB 2086 (100 nM-3 microM) or BN 52021 (100 nM-10 microM). These results indicate a cytotoxic mechanism of histamine release by PAF 100 microM. PAF (10 nM-1 microM) failed to potentiate the mast cell-stimulating activity of anti-IgE, calcium ionophore A23187 or substance P and it did not induce the release of HRFs for skin mast cells when incubated with platelets and leucocytes in concentrations up to 1 microM.
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PMID:Platelet activating factor does not release histamine from human dispersed cutaneous mast cells. 169 68

Activation of cutaneous sensory nerves induces vasodilatation and vascular permeability, i.e., neurogenic inflammation. We examined the histology and possible mast cell involvement in cutaneous neurogenic inflammation induced by electrical nerve stimulation (ENS). Three lines of evidence indicated that mast cells were not involved in rodent cutaneous neurogenic inflammation induced by electrical stimulation of the saphenous nerve. 1) Most mast cells (86.5% of all mast cells in the dorsal skin of the paw) were found in the deep dermis, whereas vessels developing increased vascular permeability after nerve stimulation (visualized with the supravital dye Monastral blue B, a macro-molecular tracer) were localized predominantly in the superficial dermis. By contrast, i.v. substance P, which also causes increased cutaneous vascular permeability, predominantly caused deeper vessels to leak. As analyzed by electron microscopy, the vessels that developed permeability in response to nerve stimulation, and were thereby stained with Monastral blue B, were found to be exclusively postcapillary venules. 2) Disodium cromoglycate (DSCG), a mast cell stabilizing compound, inhibited the cutaneous vascular permeability induced by intradermal injections of anti-IgE in a dose-dependent manner. By contrast, vascular permeability induced by ENS was not influenced by disodium cromoglycate treatment. 3) ENS and i.v. substance P both induced cutaneous vascular permeability in mast cell-deficient W/Wv mice, despite the fact that their skin contained only 4.7% of the mast cells present in their normal +/+ litter mates. The magnitude of ENS-induced vascular permeability responses in W/Wv mice were similar to control +/+ and BALB/c mice. This study supports our earlier observations suggesting that mast cell activation is not essential for the initial, vascular permeability phase of neurogenic inflammation in rodent skin.
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PMID:Neurogenic inflammation, vascular permeability, and mast cells. II. Additional evidence indicating that mast cells are not involved in neurogenic inflammation. 169 95

Pretreatment of purified calf brain G proteins with activated pertussis toxin or antibodies raised against the C-terminus of their alpha subunits prevented the increase in GTPase activity induced by substance P, compound 48/80 and mastoparan. These results suggest that these mast cell secretagogues activate G proteins directly via an interaction with the C-terminus of alpha subunits of G proteins by mimicking the agonist-liganded receptors.
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PMID:Interaction of substance P, compound 48/80 and mastoparan with the alpha-subunit C-terminus of G protein. 170 Nov 62

The peptide hormones bradykinin and kallidin (Lys-bradykinin), as well as their analogues [des-Arg9]-bradykinin, a selective B1 agonist, [des-Arg9,Leu8]-bradykinin, a selective B1 antagonist, and [Thi5,8,D-Phe7]-bradykinin and D-Arg0-[Hyp3,D-Phe7]-bradykinin, two selective B2 antagonists, induced rapid histamine release from purified rat peritoneal mast cells. In contrast, the N-terminal fragment bradykinin-(1-5) was inactive. These peptides also activate the GTPase activity of GTP-binding proteins (G proteins) (Go/Gi) purified from calf brain, with an order of potency identical to that observed on mast cells, [Thi5,8,D-Phe7]-bradykinin much greater than kallidin greater than bradykinin greater than D-Arg0-[Hyp3,D-Phe7]-bradykinin greater than [des-Arg9]-bradykinin greater than [des-Arg9,Leu8]-bradykinin greater than bradykinin-(1-5). This correlation suggested that G proteins are the targets of kinins in mast cells. Accordingly, the concomitant increase in inositol trisphosphates and release of histamine elicited by kinins were inhibited by pertussis toxin pretreatment of mast cells. The inhibitory effect of benzalkonium chloride showed that the G proteins involved belong to the Gi type. GTPase activity was measured in the supernatant of homogenized mast cells but not in the membranous fraction. This activity was stimulated by kinins and by the venom peptide mastoparan. The potency of peptides was similar to that observed with purified bovine G proteins. Sodium dodecyl sulfate-gel electrophoresis of mast cell supernatant revealed pertussis toxin-induced ADP-ribosylation of two proteins, in the Mr 41,000 and 40,000 range, i.e., similar to purified alpha-subunits of Gi1 and Gi2 or Gi3 subtypes. The data support the proposal that bradykinin and analogues act like mastoparan, substance P, and compound 48/80, interacting first with sialic acid residues of the cell surface and then with Gi-like proteins, inducing phospholipase C activation and intracellular calcium mobilization.
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PMID:Activation of Gi-like proteins, a receptor-independent effect of kinins in mast cells. 170 Dec 14

Previously we established that in vitro NO2 exposure induced inhibition of histamine release from rat peritoneal mast cells (PMC) stimulated with secretagogues such as compound 48/80 or substance P. To further explore the effects of NO2 exposure on mast cells, we investigated whether the addition of an antioxidant agent, 2-mercaptoethanol (2-ME), can prevent NO2-induced inhibition of mediator release from PMC. Histamine release from 5 ppm NO2-exposed PMC stimulated with 10 and 20 microM substance P was significantly inhibited compared with that from the controls. beta-Hexosaminidase release from 5 ppm NO2-exposed PMC stimulated with 20 microM substance P was also significantly inhibited. However, the inhibition of both histamine and beta-hexosaminidase release from exposed PMC was diminished by the addition of 5 mM 2-ME during NO2 exposure. Although IgE-mediated histamine release from NO2 exposed PMC was markedly inhibited, the addition of 5 mM 2-ME during NO2 exposure induced no inhibition of histamine release. These results suggest a possible relationship between NO2-induced inhibition of mast cell mediator release and production of free radicals by the action of NO2.
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PMID:An antioxidant agent prevents NO2-induced inhibition of mast cell mediator release: evidence that the mechanism involves free radicals. 170 82

Proliferative potential of degranulated mast cells was investigated. Mast cells were collected from the peritoneal cavity of mice, and degranulation was induced by compound 48/80, substance P, 12-O-tetradecanoylphorbol 13-acetate (TPA), or calcium ionophore A23187. The potentiality of colony formation in methylcellulose was not reduced by treatment of various concentrations of compound 48/80, substance P and TPA. When degranulation was induced by compound 48/80, substance P or TPA, proportion of highly degranulated mast cells containing less than five granules was rather small. In contrast, considerable proportion of highly degranulated mast cells was obtained after the treatment with the low concentration (0.1 microgram/ml) of A23187. These highly degranulated mast cells, which were individually picked up by the micromanipulator, proliferated not only in methylcellulose but also in the skin of mast cell-deficient WBB6F1-W/Wv mice. Inasmuch as we have already shown the proliferation of IgE-sensitized and Ag-stimulated mast cells, degranulated mast cells appear to retain the proliferative potential in general.
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PMID:Proliferative potential of murine peritoneal mast cells after degranulation induced by compound 48/80, substance P, tetradecanoylphorbol acetate, or calcium ionophore A23187. 170 86

It has been assumed that the histamine release from mast cells induced by various neuropeptides or basic protein plays some important roles in the development of the hyperreactivity of airways. In the present study, the mechanisms of the histamine release induced by neuropeptides and histone were investigated. Substance P, somatostatin, neurotensin or histone induced histamine release from isolated rat peritoneal mast cells even in the Ca free medium; Ca2+ release from intracellular Ca store was detected very significantly. In order to study the interaction between neuropeptides and phospholipid bilayer of cell membrane, model membrane systems were used. It was indicated that the interaction between basic amino acid residues of neuropeptides and acidic portion in the lipid bilayer caused the conformational changes of neuropeptides from the random coil in the water to the beta-form in the lipids. At the same time, hydrophobic amino acid residues may interact with the hydrophobic region in the lipid bilayer of cell membrane and induce the membrane perturbation, which may cause an increase of the permeability of the membrane. Subsequently, it became evident that after an increase in intracellular Ca2+ concentration, the cytoskeletons inside the mast cell were activated so as to extrude the granules out of the cell.
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PMID:[Mast cell]. 170 50

Substance P (SP) injected into the synovial cavity of the rat knee resulted in an inflammatory response as measured by plasma protein extravasation into the joint capsule. This response was dose dependent over the range of approximately 4 microM to approximately 200 microM. Part of this inflammatory response was mediated via mast cells as pre-treatment of the animals with a mast cell degranulator (compound 48/80) resulted in a 66% reduction of the response. A direct effect of SP on the vascular receptors may also contribute to the inflammatory response as pre-treatment with the substance P antagonist (SPA) D-Pro4 D-Trp7,9,10 SP4-11 also reduces the inflammatory response. Intra-articular injections of the H1 blocker diphenhydramine or the H2 blocker cimetidine significantly blocked the SP-induced inflammatory response. The 5-hydroxytryptamine (5-HT) antagonist methysergide proved to be even more potent in blocking the SP-induced inflammatory response. No synergistic inhibition was observed with combinations of the different antagonists. Intra-articular injections of 5-HT elicited a much more pronounced inflammatory response than that produced by a 10-fold higher concentration of histamine. The results suggest that SP produces increased vascular permeability partly via direct actions on the blood vessels and partly via mast cells. The inflammatory response occurring via mast cells appears to be mediated by histamine and to a greater extent by 5-HT.
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PMID:Mediators of substance P-induced inflammation in the rat knee joint. 170 85

Simultaneous visualization of nerves and mast cells in the rat synovium was possible with double staining. Thus, a direct comparison could be made of nerves and mast cells in the ankle joints of healthy rats and in those with severe adjuvant induced polyarthritis. Nerves were studied with avidin-biotin-peroxidase complex (ABC) immunostaining, using heterologous antisera to protein gene product 9.5 (PGP 9.5), a recently discovered neural protein, and the neuropeptides substance P and calcitonin gene related peptide (CGRP). Mast cells were visualized by metachromatic staining of granule heparin. With double staining of sections, a parallel distribution of mast cells and nerves in all parts of the normal synovium was noted. In rats with adjuvant induced arthritis, a near total parallel disappearance of mast cells and nerves in the synovium occurred. In the arthritic rat such mast cell/nerve "units" were only present in the region where synovium attaches to bone. The observed regional depletion of both nerves and mast cells in arthritis may be of importance in the pathophysiology of arthritis.
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PMID:Regional distribution of mast cells and peptide containing nerves in normal and adjuvant arthritic rat synovium. 170 28

We have examined cells dispersed enzymatically from three different sites in the bovine lung (tracheal mucosa, bronchial mucosa and parenchyma) and the skin, in order to ascertain whether the bovine model could be used to study mast cell heterogeneity. Histochemically there were two sub-populations of mast cells present in both lung and skin (on the basis of toluidine blue staining and the sensitivity to formalin fixation), but their proportions were similar in all sites studied. Skin mast cells contained approximately twice the amount of histamine than their counterparts in the lung (P less than 0.05). Functional heterogeneity was examined by in vitro release of histamine following secretagogue challenge. Calcium ionophore induced a substantial release of histamine; skin mast cells releasing significantly more histamine than any of the lung mast cells (at 10 microM ionophore, 37.1% and 20.7% net histamine release, respectively, P less than 0.05), although the time-course of release from the two tissues was similar. The neuropeptides vasoactive intestinal peptide and somatostatin induced a modest but statistically significant release of histamine from both skin and lung mast cells, whilst substance P only induced histamine secretion from skin mast cells. A range of other potential immunological and non-immunological secretagogues was unsuccessful in eliciting histamine release from mast cells in any of the tissues. We conclude that there were no convincing histochemical differences between mast cells from the sites examined in the lung or skin. Additionally, there was no discernable functional heterogeneity between mast cells within the lung, but functional differences were evident between mast cells of the bovine lung and skin. However, in the absence of a suitable immunological stimulus the bovine model cannot be regarded as a good model of mast cell heterogeneity.
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PMID:Structural and secretory characteristics of bovine lung and skin mast cells: evidence for the existence of heterogeneity. 171 May 30


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