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

Mast cell membrane antigens, coded by the K, I and D regions of the major histocompatibility complex of the mouse, were investigated for their presence at the cell surface and their participation in alloantibody-induced anaphylactic degranulation (DAAD). Anti-H-2 K, as well as anti-H-2 D antibodies were found to elicit DAAD. Recognition, on the mast cell membrane, of any product of the K or the D regions, either as the whole molecule, or as public or private antigens only, or even as a single private specificity, enabled alloimmune sera to trigger mast cell degranulation. By contrast, anti-Ia antibodies failed to elicit DAAD. By the autoradiographic technique, peritoneal mast cells were found to constitute a single homogeneous population, bearing H-2 D-coded antigens, although in smaller amounts than other peritoneal cells, but no Ia antigens or, if any, in much smaller amounts than other peritoneal cell type. These findings bring new evidence that mast cell alloantigens do participate in anaphylactic alloantibody-induced mast cell degranulation, by allowing bridging of (one?) Fc receptor with H-2 molecules.
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PMID:Mast cell membrane antigens and Fc receptors in anaphylaxis. I. Products of the major histocompatibility complex involved in alloantibody-induced mast cell activation. 52 Oct 51

Natural killer cells express an Fc receptor for IgG (CD16) in association with disulfide-linked dimers composed of two homologous subunits: the zeta chain of the T cell antigen receptor complex and the gamma chain of the mast cell/basophil Fc receptor for IgE. The ability of zeta and gamma to transduce CD16-mediated activation signals was compared by reconstituting distinct CD16 receptor isoforms composed of various combinations of zeta- and gamma-containing dimers. Stably transformed non-hematopoietic and hematopoietic cell lines were established that expressed chimeric molecules comprising the extracellular domain of CD16 joined to the transmembrane and intracellular domains of zeta or gamma. Reconstituted CD16 receptor complexes triggered Ca2+ influx, tyrosine phosphorylation, and IL-2 production in stable transformants of the Jurkat T cell line. However, cross-linking of the CD16/gamma chimera induced a specific pattern of tyrosine phosphorylation and was more efficient at signal transduction than a CD16, zeta-zeta complex, suggesting that zeta and gamma cytoplasmic domains may be coupled to distinct tyrosine kinase pathways that differentially regulate CD16-mediated activation signals. By contrast, both CD16/zeta and CD16/gamma chimeric molecules were not functional in stable transformants of the fibroblast Chinese Hamster Ovary cell line, indicating a requirement for downstream signaling components present in hematopoietic cells. Finally, the zeta transmembrane domain appears to preferentially associate with CD16 rather than the CD3:TCR complex, suggesting that a hierarchy of molecular interactions governs NK and T cell differentiation.
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PMID:Signaling function of reconstituted CD16: zeta: gamma receptor complex isoforms. 147 81

CD2 subserves both adhesion and signal transduction functions in T cells, thymocytes, and natural killer (NK) cells. In mature T lymphocytes, CD2-mediated signaling function apparently requires surface expression of T cell receptors (TCRs). In contrast, in CD2+ CD3- NK cells and thymocytes, signal transduction through CD2 is TCR independent. To resolve this paradox and characterize TCR-independent triggering mechanisms, we transfected a human CD2 cDNA into a murine mast cell line, C1.MC/57 (Fc epsilon RI+, Fc gamma RII+, Fc gamma RIII+), which is known to produce interleukin 6 (IL-6) as well as release histamine in response to crosslinking of Fc epsilon RI. In the CD2 transfectant, a combination of anti-T11(2) + anti-T11(3) monoclonal antibodies (mAbs) induced a rise in intracellular free calcium [( Ca2+]i), IL-6 production, and histamine release. As expected, no activation was mediated by the same mAbs in C1.MC/57. F(ab)'s fragments of the activatory combination of anti-T11(2) + anti-T11(3) mAbs induced IL-6 in the CD2-transfected mast cells, demonstrating an Fc gamma receptor ectodomain-independent triggering mechanism. In addition, either intact anti-T11(2) or anti-T11(3) IgG alone, which failed to induce [Ca2+]i mobilization in the transfectant, was able to induce IL-6 production. A mAb directed against both Fc gamma RII (previously denoted as Fc gamma RIIb) and Fc gamma RIII (previously denoted as Fc gamma RIIa) inhibits this induction. These results indicate that: (a) Ca2+ mobilization is not essential for IL-6 production; and (b) crosslinking of CD2 and Fc gamma receptors via intact anti-CD2 IgG stimulates IL-6 production. Thus, CD2-mediated IL-6 production occurs by both Fc receptor ectodomain-independent as well as Fc receptor ectodomain-dependent mechanisms in these nonlymphoid cells. Northern blot analysis demonstrates that although the mast cells do not express CD3 zeta or CD3 eta mRNA, they express Fc epsilon RI gamma mRNA. The latter is a known component of Fc gamma RIII as well as Fc epsilon RI, has significant homology to CD3 zeta/eta, and is thought to have a signal transduction function. In these mast cells, CD2 signaling machinery does not require CD3 zeta/eta and may be linked to the Fc epsilon RI gamma subunit. We predict that this subunit or a related structure may confer a TCR-independent signal transduction pathway upon CD2 in CD3- NK cells, thymocytes, and certain B lymphocytes.
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PMID:T cell receptor-independent CD2 signal transduction in FcR+ cells. 170 51

IL-3 dependent mast cell lines produce cytokines in response to Fc receptor cross-linkage or to ionomycin. In this study we have observed that cells pre-cultured in IL-3 produce 10-100 times more cytokine after receptor cross-linkage in comparison with IL-4 pre-cultured cells. Although several hematopoietin receptors, including those for IL-3, IL-4 and EPO, do not contain tyrosine kinase domains, their occupancy with ligand causes tyrosine phosphorylation of specific cellular substrates. Therefore, the contribution of tyrosine kinase activation to the ability of an IL-3 dependent mast cell line, CFTL-15, to produce cytokines was analyzed. The CFTL-15 cells were transfected with growth factor receptors containing ligand-inducible tyrosine kinase domains (EGFR and PDGFR, and CSF-IR) or with the EPOR. All of the transfectants were able to proliferate in response to IL-3 or to their respective growth factor and to produce IL-3 in response to IgE receptor cross-linkage. Stimulation of the EGFR and PDGFR transfectants with their respective ligands resulted in the production of IL-3, IL-6, and GM-CSF. Stimulation of the CSF-1R or EPOR transfectants with growth factor alone failed to induce cytokine production. However, in co-stimulation assays each of the growth factors enhanced the amount of cytokine produced in response to Fc epsilon RI cross-linkage. The ability of these stimuli to induce tyrosine phosphorylation in the transfectants was analyzed. Fc epsilon RI cross-linkage in the transfectants routinely induced the tyrosine phosphorylation of 145, 86 and 72 kDa proteins, with occasional phosphorylation of 55, 52, and 40 kDa proteins.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ligand stimulation of transfected and endogenous growth factor receptors enhances cytokine production by mast cells. 171 40

Although the pathogenesis of atopic dermatitis (AD) is unknown, many immunologic abnormalities such as high levels of serum IgE and increase of IgE Fc receptor-positive lymphocytes have been demonstrated. Recently, interleukin 4 (IL-4) has been shown to induce enormously the production of IgE and to enhance the expression of IgE Fc receptor by B cells, suggesting the possible involvement of IL-4 in the pathogenesis of AD. We examined IL-4 responsiveness or interleukin 2 (IL-2) responsiveness of peripheral blood mononuclear cells of 31 patients with AD, 19 healthy individuals, and seven patients with other skin diseases. We found that IL-4 responsiveness of AD was higher than that of non-AD control, although IL-2 responsiveness of AD showed no significant change. However, the value of the IL-4 responsiveness did not significantly correlate with the clinical severity, personal history of respiratory allergy, serum IgE level, or clinical course of patients with AD. The hyperresponsiveness to IL-4 detected in AD was not likely to be due to the effects of steroids or anti-mast cell drugs because the value of IL-4 responsiveness was significantly low, compared to AD, in patients with other skin diseases who were treated similarly. Because the T-cell-enriched population, but not the B-cell-enriched population, showed significant proliferation in response to exogenous IL-4 or IL-2, T cells were the main population that reacted in our proliferation assay. These results indicate that IL-4-driven proliferative response may be efficiently operative in T cells in patients with AD.
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PMID:Responsiveness to interleukin 4 and interleukin 2 of peripheral blood mononuclear cells in atopic dermatitis. 200 85

We have identified a monoclonal antibody specific for rat IgE, 44.7b, which blocks binding of rat IgE to the mast cell-like line RBL. Other monoclonal anti-rat IgE antibodies (MARE1 and B5) did not inhibit IgE binding to these cells. Furthermore, 44.7b did not react with IgE previously bound to these cells. These results indicate that 44.7b binds to an epitope on the IgE molecule which is within the binding site of the mast cell IgE Fc receptor (FcERI). The 44.7b monoclonal antibody did recognize IgE bound to a B lymphocyte cell line indicating that mast cell and B lymphocyte FcERs recognize different regions of the IgE molecule.
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PMID:Identification of a mouse anti-rat IgE monoclonal antibody, 44.7b, which inhibits IgE binding to RBL cells. 252 19

Bone marrow-derived leukocytes of murine epidermis can express two phenotypes: typical Langerhans cells, which are Ia+ and Thy-1-, and a recently discovered second population that is Thy-1+ and Ia-. To verify that these phenotypes are expressed by two different cell types, and to help understand their lineage and function, we have studied morphology and reactivity with a large panel of antibodies. Dual antibody immunofluorescence combined with electron microscopy showed that Thy-1+ and Ia+ cells were each distributed in a regular fashion and formed adjacent dendritic systems in or close to the basal layer. Double-labeling studies with anti-Ia and a second monoclonal antibody revealed that all Langerhans cells expressed F4/80 (macrophage), Mac-1 (C3bi receptor), and 2.4G2 (Fc receptor), as well as the thymus leukemia (TL) and heat-stable (M1.69/16) antigens. A large fraction expressed S100 and all exhibited membrane ATPase and nonspecific esterase. In contrast, Thy-1+ cells lacked all these features of Langerhans cells, except that a minority were strongly reactive with 2.4G2. Thy-1+ cells also lacked differentiation antigens of most other types of leukocytes, except they were rich in asialo GM1. By electron microscopy, Thy-1+ cells had cytoplasmic granules that were similar in structure and in their aryl sulfatase content to those previously described in natural killer cells. The granules were enlarged in beige mice, suggesting a lysosomal origin, and were present in mast cell-deficient W/Wv mice, indicating no relation to mast cells. We conclude that Thy-1+ epidermal cells are thoroughly distinct from Langerhans cells. On the basis of morphology and phenotype, they may represent a type of tissue natural killer cell. Thy-1+ natural killer cells are now being identified in several nonlymphoid sites, such as gut epithelium and the livers of mice given adjuvants. If Thy-1+ epidermal cells prove to be natural killer cells, it is noteworthy that they represent a resident population regularly distributed in the basal layer of all mouse strains. The notion that Thy-1+ epidermal cells are immature natural killer cells is intriguing in light of recent evidence that Ia+ Langerhans cells are also immature with respect to accessory cell function. The epidermis may not have the functional capacities of a lymphoid organ, but it could contribute immature cells important for both natural and acquired resistance.
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PMID:The Thy-1-bearing cell of murine epidermis. A distinctive leukocyte perhaps related to natural killer cells. 286 Dec 45

This review details the biochemical events that follow IgE dimerization by antigen and cross-linking of receptors and are linked with the early rise in cyclic AMP. That the monophasic rise in cyclic AMP at 15 s is essential to the degranulation process is evident by pharmacological manipulation of adenylate cyclase, using specific activators and inhibitors to achieve potentiation and inhibition of immunologic release, respectively. Although only a small percentage of membrane adenylate cyclase is transmembrane linked to IgE-Fc perturbation, its product, cyclic AMP, is elevated during activation and is responsible for the activation of two protein kinase isoenzymes at 30-60 s. This sequence appears to be essential for secretion to occur, as evidenced by dose-related inhibition of both beta-hexosaminidase release and protein kinase activation by adenylate cyclase inhibitors. Competitive activation of cyclic AMP-dependent protein kinase activity by a phosphodiesterase inhibitor leads to inhibition of mediator release by diverting an essential enzyme or recruiting an inhibitory sequence. The precise functional role of the mast cell cyclic AMP-dependent protein kinases has not yet been identified, but there is much evidence in other cell types that protein phosphorylation is an essential accompaniment to cellular regulation. Although other apparently essential biochemical steps are noted, such as uncovering a serine esterase, methylation of membrane phospholipid, and increased Ca2+ influx, only a portion of the activation-secretion response is presented here as a sequence, namely, the IgE-Fc receptor-initiated, transmembrane-coupled activation of adenylate cyclase and the subsequent cytoplasmic cyclic AMP-dependent activation of types I and II protein kinases.
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PMID:Enzymatic regulation of mast cell activation and secretion by adenylate cyclase and cyclic AMP-dependent protein kinases. 617 64

The initial monophasic rise in cyclic AMP beginning 5-15 sec after bridging of rat mast cell IgE-Fc receptors precedes the secretion of granule constituents, thereby implying a causal relationship. Direct evidence for a relationship between IgE-dependent transmembrane activation of adenylate cyclase and granule secretion was provided by the capacity of purine-modified (R site active) and ribose-modified (P site active) adenosine analogs, respectively, to augment and suppress mediator release while simultaneously increasing and decreasing the activity of adenylate cyclase. R site stimulation alone does not cause granule secretion but augments the rate and magnitude of IgE-Fc receptor-induced secretion, reflecting the coupled relationship of such receptors. Inhibition of adenylate cyclase at the P site attenuates the rise in cellular cyclic AMP and suppresses IgE-dependent mediator release in a parallel and superimposable dose-response fashion. Further, the relationship between the attenuation in the rise in cyclic AMP and the diminution in immunologic mediator release is linear with the regression line passing through the origin, indicating a direct relationship between the IgE-dependent activation of adenylate cyclase and preformed mediator release. Although not the only events in coupled mast cell activation--secretion, there is a sequential relationship among perturbation of IgE-Fc receptors, transmembrane activation of adenylate cyclase, elevation of cytoplasmic levels of cyclic AMP, activation of cyclic AMP-dependent protein kinase, and secretion of mast cell granules.
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PMID:Role of adenylate cyclase in immunologic release of mediators from rat mast cells: agonist and antagonist effects of purine- and ribose-modified adenosine analogs. 625 61

Previous studies have shown that perturbation of the mast cell IgE-Fc receptor activates adenylate cyclase so as to raise cellular levels of cyclic AMP and to activate cyclic AMP-dependent protein kinase. Theophylline, an inhibitor of cytoplasmic cyclic nucleotide phosphodiesterase, raises cellular cyclic AMP levels, activates Type I and Type II cytoplasmic cyclic AMP-dependent protein kinase isoenzymes, and inhibits immunologic mediator release in a dose-dependent fashion. Since the EC50 values for each of these effects are similar (8 to 9.5 mM), it seems likely that a relationship exists between the activation of cyclic AMP-dependent protein kinase and the inhibition of mediator release. Such inhibition could be due to either to the uncovering of an inhibitory protein by phosphorylation or to the depletion of cyclic AMP-dependent protein kinase holoenzyme, which is essential for productive IgE-Fc receptor-induced activation-secretion coupling. PGD2, which also raises mast cell cyclic AMP levels in a dose-dependent fashion and interacts synergistically with theophylline in this regard, fails to suppress mediator release alone or to add to the inhibitory effect of theophylline. The finding that PGD2 also fails to activate cyclic AMP-dependent protein kinase suggests that the adenylate cyclase stimulated by this agonist is not linked to the mast cell activation-secretion response.
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PMID:Effects of prostaglandin D2 and theophylline on rat serosal mast cells: discordance between increased cellular levels of cyclic AMP and activation of cyclic AMP-dependent protein kinase. 626 8


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