UNIPROT:P15088 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

The functional and biochemical characterization of rat bone marrow derived mast cells (RBMMC) confirms both species-related differences between rat and mouse bone marrow-derived mast cells (MBMMC) as well as mast cell heterogeneity in a single species. Such RBMMC have the staining characteristics of mucosal mast cells and contain the mucosal mast cell protease. The RBMMC release the preformed granule mediator beta-hexosaminidase both in response to immunologic stimulation with 200 ng Ag (net release 15.8 +/- 3.8%) and in response to 1 microM calcium ionophore A23187 (net release 21.8 +/- 6.8%). However, compound 48/80, substance P, and somatostatin did not induce mast cell degranulation. In experiments with optimal beta-hexosaminidase release, the RBMMC generated similar quantities of the newly formed arachidonic acid metabolites leukotriene C4 and PGD2 when stimulated with either Ag or calcium ionophore A23187. The RBMMC incorporate [35S]sulfate into proteoglycans consisting of 90% chondroitin sulfates and 10% heparin. The chondroitin sulfates were comprised of chondroitin 4 sulfate and chondroitin sulfate diB sulfated disaccharides in a ratio of 4/1. Although we show that RBMMC and MBMMC share a low histamine content, functional IgE receptors and unresponsiveness to cromolyn and selective secretagogues (compound 48/80, substance P, and somatostatin), we also provide evidence that RBMMC differ from MBMMC in their profile of newly generated mediators, preformed granule proteoglycan, and lack of proliferative response to mouse IL-3.
...
PMID:Functional and biochemical characterization of rat bone marrow derived mast cells. 297 57

It is now recognized that, in addition to the preformed mast cell granule mediators, newly generated lipid compounds are likely to be exceedingly important in the mediation of allergic asthma and other atopic diseases. That the initiating event in allergic diseases evokes a far more complex set of biochemical events than those that only lead directly to the release of histamine and other preformed mediators, and that the functional efficacies of the leukotrienes, PGD2, and PAF are significant for allergic pathobiology mandate that the latter compounds will necessarily be subject to efforts for future therapeutic intervention in allergic patient populations.
...
PMID:Leukotrienes and other lipid mediators of asthma. 298 Oct 59

A diagrammatic representation of the interactions between mediators of hypersensitivity and leucocytes in early-, late-phase, and ongoing asthma is shown in Fig. 1. Early-phase or immediate reactions are largely the result of bronchoconstriction consequent to the release of mediators such as histamine, PGD2, LTC4/D4 and PAF. The principal mediator cell (MC) is the mast cell (although other IgE receptor-bearing cells such as the macrophage, eosinophil and platelet might also be involved in this immediate response). The stimulus for mediator cell activation may be either immunologic (IgE-dependent) or non-immunologic (i.e. changes in osmolarity as a result of the respiratory water loss associated with exercise-induced asthma). Late-phase reactions appear to be a consequence of infiltration with neutrophils (N), eosinophils (E) and macrophages (MO). These cells are recruited and activated either by mast cell-associated chemotactic factors [such as LTB4, PAF, the eosinophil chemotactic factor of anaphylaxis (ECF-A) or high molecular weight neutrophil chemotactic activity (NCA (HMW]] and/or "lymphokines" derived from T helper cells (TH) which have been stimulated by antigen processed by the antigen processing cells (APC). These mononuclear cell interactions are under the control of regulatory T cells [T suppressor (TS) cells] and it is speculated that the availability of these subsets may determine the magnitude of the late-phase response. Lymphokines and monokines which selectively activate neutrophils, eosinophils and monocytes include LIF, EAF and INF-gamma respectively. Macrophage-derived tumour necrosis factor (TNF) also amplifies the inflammatory response by its capacity to enhance eosinophil cytotoxicity. Eosinophil-derived agents such as PAF, LTC4, MBP and ECP might be responsible for submucosal oedema and non-specific bronchial hyperreactivity which are characteristic features of late-phase reactions. T cell-derived lymphokines such as EDF (IL-5), together with GM-CSF, might lead to eosinophilopoiesis and account for the prolonged eosinophilia of ongoing chronic asthma. The T cell is prominent in the pathology of chronic asthma and is possibly "chronically activated". Thus lymphocytes, driven by as yet undetermined "antigens" (possibly viral), may perpetuate the inflammatory response in and around the bronchi. IL-5-like products from these putative activated lymphocytes might perpetuate (a) eosinophil production by the bone marrow, (b) its release into the circulation, (c) its migration into bronchial tissue and (d) activation to release PAF, LTC4, MBP, etc.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Leucocytes in asthma. 306 26

The effects of antiinflammatory steroids on arachidonic acid metabolite release from human lung fragments were analyzed. Incubation of lung fragments for 24 hr with 10(-6) M dexamethasone inhibited the net release of the prostacyclin metabolite 6-keto-PGF1 alpha, PGE2, and PGF2 alpha from lung fragments stimulated with anti-IgE but failed to inhibit the anti-IgE-induced release of PGD2, TXB2, and iLTC4. The IC50 of dexamethasone for inhibition of both spontaneous and anti-IgE-induced 6-keto-PGF1 alpha release was approximately 2 X 10(-8) M, and a 6-hr preincubation with the drug was required for 50% inhibition of prostaglandin release. Other agents were tested for activity in stimulating arachidonic acid metabolite release from human lung fragments. FMLP (fmet-leu-phe) stimulated the release of all metabolites tested (6-keto-PGF1 alpha, PGD2, PGE2, PGF2 alpha, TXB2, iLTC4); platelet-activating factor (PAF), but not lysoPAF, stimulated the release of PGD2, TXB2, and iLTC4. In contrast to the case with anti-IgE, where dexamethasone failed to inhibit net PGD2 and TXB2 release, the steroid inhibited the release of these metabolites stimulated by both FMLP and PAF. The steroid inhibited iLTC4 release induced by the highest concentration of PAF (10(-6)M) but did not inhibit iLTC4 release stimulated by either 10(-7) M PAF, FMLP, or anti-IgE. Because neither FMLP nor PAF caused the release of PGD2 or TXB2 from purified human lung mast cells, and because they also failed to induce histamine release from lung fragments, it is suggested that these stimuli produce PGD2 and TXB2 release in lung fragments through an action on a cell distinct from the mast cell. This suggestion is supported by the selective inhibition of the release of these arachidonic acid metabolites by dexamethasone. We suggest that the inhibitory action of steroids on arachidonic acid metabolite in human lung fragments contributes to their therapeutic efficacy in pulmonary diseases.
...
PMID:Selective inhibition of arachidonic acid metabolite release from human lung tissue by antiinflammatory steroids. 308 76

In order to assess the role of arachidonic acid metabolites in the early reaction to antigen, we challenged six allergic individuals with and without premedication with aspirin and recorded their clinical response, as indicated by number of sneezes, and measured the levels of inflammatory mediators. The early reaction to antigen was associated with increases in the levels of histamine, N-alpha-tosyl-L-arginine methyl esterase (TAME-esterase) activity, prostaglandin (PG) D2, leukotriene C4, PGE, and thromboxane. Aspirin significantly inhibited the increases in the cyclooxygenase metabolites PGE, PGD2, PGF2 alpha, 6-keto-PGF1 alpha, and thromboxane but did not affect the amount of sneezing or the levels of histamine, TAME-esterase activity, or leukotrienes. The pattern of the metabolites and their response to pretreatment with aspirin parallel the response of purified human lung mast cells, supporting the notion that the early phase of allergic rhinitis is a mast cell-dominated event.
...
PMID:Arachidonic acid metabolites during nasal challenge. 309 12

Treatment for 24 h in vitro with dexamethasone inhibited the antigen-induced contractile response in guinea pig tracheal rings and parenchymal strips without inhibiting the contractile response of the tissues to either methacholine or histamine, respectively. Antigen-induced histamine release was inhibited by approximately 50% in both tissues by prior treatment with dexamethasone. Dexamethasone treatment also inhibited the release of immunoreactive sulfidopeptide leukotriene from parenchymal strips. In tracheal rings, dexamethasone treatment reduced spontaneous release of all cyclooxygenase metabolites (PGE2, PGF2 alpha, TXB2, PGD2, and 6-k-PGF1 alpha were tested), with the exception of PGD2, and also inhibited the antigen-induced release of all cyclooxygenase metabolites studied. Dexamethasone-treatment did not inhibit the spontaneous release of cyclooxygenase metabolites in the guinea pig lung strips, and only modestly inhibited the antigen-induced release of PGE2, PGF2 alpha, and PGD2. The results suggest that the inhibition of contractile response of guinea pig lung strips and airway tissue to antigen by dexamethasone is the result of a reduced release of inflammatory mediators. The inhibition by dexamethasone of antigen-induced release of mast cell mediators from guinea pig lung parenchyma contrasts with results previously obtained with human parenchymal lung tissue.
...
PMID:Dexamethasone inhibits the antigen-induced contractile activity and release of inflammatory mediators in isolated guinea pig lung tissue. 310 4

Although a great deal has been learned about the mediators produced by mast cells, the ultimate biologic function(s) of mast cell remains a mystery. Histamine, LTC4, PAF, and possibly tryptase (C3a generation) all enhance vasopermeability. Mediators with anticoagulant activities such as heparin and tryptase (fibrinogenolysis) and antithrombotic activity, PGD2, would appear to facilitate dispersion in tissues of the plasma ultrafiltrate brought there by the subgroup of mediators that enhance vasopermeability. In contrast, PAF causes platelet aggregation and chymase may cause arteriolar vasoconstriction (decreasing the volume of plasma reaching venules) by generation of angiotensin II. Assessment of any differential production of mediators by different types of mast cells will be of obvious importance in sorting out the physiologic responses to mast cell activation as well as the pathophysiology of allergic reactions.
...
PMID:Mediators of human mast cells and human mast cell subsets. 310 66

PGD2 undergoes extensive isomerization in vivo followed by metabolism by 11-ketoreductase to yield a family of biologically active isomeric PGF2 compounds, including 9, alpha 11 beta-PGF2. Because immunologically activated human mast cells produce substantial quantities of PGD2 and eosinophils accumulate around mast cells at sites of immediate hypersensitivity reactions, the ability of eosinophils to metabolize PGD2 was investigated. Purified human circulating eosinophils from four different donors transformed PGD2 to 9, alpha 11 beta-PGF2 and 12-epi-9 alpha, 11 beta-PGF2 in a time- and concentration-dependent manner. The formation of these compounds increased rapidly during the first 30 min of incubation of eosinophils with PGD2 and tended to plateau at approximately 2 h. Detection and quantification of the formation of 9 beta,11 beta-PGF2 and its 12-epi isomer was accomplished by a negative ion chemical ionization gas chromatography/mass spectrometry assay. On one occasion, eosinophils from one donor also transformed PGD2 to two additional isomeric PGF2 compounds, the stereochemical structures of which were not identified. The ability of eosinophils to produce PGD2 was then investigated. After stimulation with 2 microM A23187, the major cyclooxygenase product formed was thromboxane B2 (2247 pg/10(6) eosinophils) whereas only small quantities of PGD2 were produced (50 pg/10(6) eosinophils). Inasmuch as PGF2 compounds can exert biologic actions that differ from those of PGD2, this ability of eosinophils to transform PGD2 to PGF2 compounds could alter the local biologic effects of PGD2 released from adjacent mast cells and thus may represent a physiologically relevant mast cell-eosinophil interaction.
...
PMID:Transformation of prostaglandin D2 to isomeric prostaglandin F2 compounds by human eosinophils. A potential mast cell-eosinophil interaction. 313 58

Bronchial asthma is a multifactorial disease characterized by reversible bronchoconstriction, airway hyperreactivity, oedema and excessive mucus production. Present therapy directed against specific mediators has not been overwhelmingly successful. Even though there exists a multiplicity of purported mediators, perhaps the key to better therapy is a vigorous understanding of the arachidonic acid cascade and investigations to modulate specific products of these pathways. Within the cyclooxygenase pathway an interesting scenario might be to effectively antagonize the potent bronchoconstrictive effects of prostaglandin (PG)D2 and its recently identified predominant metabolite, an 11-hydroxyl epimer, 9 alpha,11 beta-PGF2. PGD2 is the major cyclooxygenase product released from sensitized human lung and bronchoalveolar lavage (BAL) mast cells; it possesses a myriad of biological actions relevant to the pathogenesis of asthma. While no specific antagonists of PGD2 or 9 alpha,11 beta-PGF2 have been identified, some preliminary studies have suggested that, perhaps, PGD2 may be interacting, at least in part, with thromboxane receptors. In addition, peroxidation of arachidonic acid catalyzed by 5-lipoxygenase produces the leukotrienes, which are extremely potent bronchoconstrictors as well as oedema and mucus secretagogues. Leukotrienes are primary mast cell mediators which may be the vital link to both early (acute) and late (chronic) asthmatic attacks. Research seeking leukotriene antagonists has been intensive. Leading clinical candidates have emerged from Smith Kline and French, Lilly, Merck-Frosst, ICI-Stuart and other groups. However, we must await the outcome of ongoing clinical trials in asthmatics to determine just how important the leukotrienes really are in the pathogenesis of asthma, allergy and inflammation. Thus, modulation of the effects of products of arachidonic acid metabolism may provide a new and more specific treatment for bronchial asthma.
...
PMID:Modulation of arachidonic acid metabolites as potential therapy of asthma. 314 Jun 17

In summary, mast cell activation is associated with the release of chemotactic factors, enzymes, proteoglycans, and vasoactive mediators. The vasoactive mediators include the leukotrienes, prostaglandin PGD2, adenosine, PAF, and histamine. Their effects are associated with an early phase reaction. This early reaction in the airways is manifested by cough, wheeze, mucous secretion, and a short-lived bronchospastic response. The release of chemotactic factors perhaps including PAF, eosinophil-directed and neutrophil-directed mediators would be associated with the influx into the airway of a variety of leukocytes although neutrophils and eosinophils predominate. The eosinophil contains a variety of toxic materials including a major basic protein known to kill tracheal epithelial cells. The eosinophil also generates PAF and leukotrienes. It could, therefore, be responsible for a self-sustaining tissue damaging inflammatory infiltrate. And finally, there are the neutral protease enzymes whose function remains unknown. It is tempting to speculate that the vasoactive mediators cause an early phase reaction while the enzymes and chemotactic factors set up the inflammation associated with a late phase response. The clinical pertinence to this has been demonstrated by researchers who studied nonspecific bronchial reactivity in patients who have early phase reactions only as compared with those who have both early and late phase reactions to antigen bronchoprovocation. These individuals with only an early phase reaction following antigen bronchoprovocation have a lesser degree of sensitivity to histamine, ie, it requires more histamine to cause bronchoconstriction, and there is no change in their histamine threshold after their early phase response.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Basic mechanisms in asthma. 316 72

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>