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

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

Interleukin-10 has a variety of biological activities. Murine interleukin-10 inhibits cytokine production by Th2 cells in the presence of macrophages, enhances T cell proliferation, sustains the viability of B cells in vitro, induces class II MHC antigen expression on B cells, enhances mast cell proliferation in the presence of IL-3 and/or IL-4, and inhibits cytokine production by macrophages. Human interleukin-10 inhibits cytokine production by human T cells and reduces antigen-specific human T cell proliferation by downregulation of class II MHC antigen expression on monocytes. cDNA clones encoding murine and human interleukin-10 exhibit a strong homology to BCRFI in Epstein-Barr virus. BCRFI conserves only a part of interleukin-10 activities.
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PMID:[Function, molecular structure and gene expression regulation of interleukin-10 (IL-10)]. 143 75

Stem cell factor (SCF) possesses many mast cell-stimulating activities, including the ability to support the growth of mucosal-like mast cells (MMCs) and connective tissue mast cells (CTMCs). However, this study shows that, in the absence of accessory cells, SCF does not stimulate the clonal growth of primitive mast cell progenitors. Nevertheless, SCF exhibited potent growth-promoting effects when combined with the cytokines interleukin-3 (IL-3), interleukin-4 (IL-4), and interleukin-10 (IL-10). Our comparative studies have shown that optimal mast cell colony formation occurs when both IL-4 and IL-10 are combined with SCF. However, in the presence of SCF, these two cofactors appear to mediate different effects. IL-4 was more efficient than IL-10 in costimulating the initiation of SCF-dependent colony formation by mast cell progenitors and in sustaining the proliferation of newly generated progeny. On the other hand, IL-4 was less efficient than IL-10 in supporting mast cell differentiation, as evidenced by morphology, cell enlargement, and granule production. Although the actions of IL-4 and IL-10 were not equivalent, additional experiments indicated that their ability to serve as early- and late-acting factors, respectively, were complimentary. We have also found that the mast cells generated in colonies stimulated by IL-4, IL-10, and SCF produced high levels of histamine (6-8 pg per cell). None of the mast cells generated in our cultures synthesized heparin. A phenotypic change from safranin-negative to safranin-positive cells associated with heparin-producing CTMCs was accomplished after coculture of the mast cells with fibroblast cell lines derived from normal mice or from SI/SId mice plus soluble factors. Collectively, our observations demonstrate that SCF acts as a competence factor for mast cell progenitor growth. In addition, the ability of SCF to support certain stages of mast cell differentiation is profoundly influenced by interactions with specific cofactors.
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PMID:Cofactors are essential for stem cell factor-dependent growth and maturation of mast cell progenitors: comparative effects of interleukin-3 (IL-3), IL-4, IL-10, and fibroblasts. 752 73

The growth-promoting activities of interleukin-10 (IL-10) were assessed in hematopoietic colony-forming assays. We found that IL-10 failed to support the clonal growth of normal and lineage-depleted (Lin-) bone marrow (BM) cells. Furthermore, IL-10 neither enhanced nor suppressed colony formation by eosinophil, neutrophil, or macrophage progenitors when combined with a variety of factors. IL-10 stimulated a modest increase in erythropoietin (Epo)-dependent erythroid colonies but had no effect on the burst-promoting activities of IL-3. However, the combination of IL-10 plus IL-3 resulted in the enhanced growth of mast cell progenitors. In addition to its mast cell stimulating activity, IL-10 promoted the growth of megakaryocyte (Mk) and Mk-mixed colonies when combined with Epo or with Epo plus IL-3, IL-6, or IL-11. Comparative studies showed that the megakaryocyte potentiating activity of IL-10 is roughly equivalent to that of IL-6 and IL-11. In experiments using Thy1loSca1+ stem cells, IL-10 was shown to enhance the number of cells initiating IL-3-dependent colony formation. IL-10 also costimulated increased colony formation when used with IL-3 and another factor such as IL-1, IL-6, and granulocyte colony-stimulating factor (G-CSF). Cellular analysis of the resulting colonies indicated that IL-10 increases the formation of multilineage colonies containing erythrocytes, megakaryocytes, and/or mast cells. The ability of IL-10 to cooperatively regulate various stages of hematopoietic development is discussed.
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PMID:Interleukin-10 promotes the growth of megakaryocyte, mast cell, and multilineage colonies: analysis with committed progenitors and Thy1loSca1+ stem cells. 829 35

IgE-dependent and -independent activation of mouse bone marrow-derived mast cells (BMMC) elicited rapid and transient production of platelet-activating factor (PAF), which reached a maximal level by 2-5 min and was then degraded rapidly, returning to base-line levels by 10-20 min. Inactivation of PAF was preceded by the release of PAF acetylhydrolase (PAF-AH) activity, which reached a plateau by 3-5 min and paralleled the release of beta-hexosaminidase, a marker of mast cell exocytosis. Immunochemical and molecular biological studies revealed that the PAF-AH released from activated mast cells was identical to the plasma-type isoform. In support of the autocrine action of exocytosed PAF-AH, adding exogenous recombinant plasma-type PAF-AH markedly reduced PAF accumulation in activated BMMC. Furthermore, culture of BMMC with a combination of c-kit ligand, interleukin-1beta and interleukin-10 for > 24 h led to an increase in plasma-type PAF-AH expression, accompanied by a reduction in stimulus-initiated PAF production. Collectively, these results suggest that plasma-type PAF-AH released from activated mast cells sequesters proinflammatory PAF produced by these cells, thereby revealing an intriguing anti-inflammatory aspect of mast cells.
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PMID:Activated mast cells release extracellular type platelet-activating factor acetylhydrolase that contributes to autocrine inactivation of platelet-activating factor. 924 26

Three orf virus putative virulence proteins are described that exhibit immunomodulatory functions. The OVIFNR gene at the left terminus of the viral genome encodes an interferon resistance protein with homology to the E3L gene of vaccinia virus. OVIFNR functions by preventing a dsRNA-dependent kinase from inhibiting virus and cell protein synthesis as part of the interferon-induced anti-viral state within infected cells. The orf virus orthologue of the ovine interleukin-10 (vIL-10) gene is located at the right terminus of the viral genome. Both vIL-10 and host (ovine) IL-10 function in vitro as inhibitors of pro-inflammatory cytokine production by keratinocytes and macrophages, and both inhibit IFN-gamma production from activated peripheral blood lymphocytes. Both the orf virus vIL-10 and ovine IL-10 stimulate mast cell and thymocyte proliferation. In this respect the orf virus IL-10 differs from Epstein Barr virus IL-10 which does not exhibit cell proliferative activity. Finally, the orf virus GM-CSF inhibitory factor gene (GIF) at the right terminus of the viral genome encodes an inhibitor of GM-CSF that also binds IL-2. Together, these viral proteins are capable of inhibiting key components of the ovine anti-virus immune and inflammatory response.
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PMID:Immunomodulation by virulence proteins of the parapoxvirus orf virus. 1061 96

Ultraviolet B radiation is immunosuppressive by multiple mechanisms. In interleukin-4-/- mice, ultraviolet B radiation was not able to suppress delayed-type hypersensitivity or contact hypersensitivity responses when the sensitizing antigen was applied to nonirradiated sites. In contrast, ultraviolet B significantly suppressed contact hypersensitivity responses to haptens applied to irradiated sites in interleukin-4-/- mice. In mast cell depleted Wf/Wf mice, ultraviolet B radiation also significantly suppressed contact hypersensitivity responses to sensitizing antigens applied to irradiated but not to unirradiated sites. In both interleukin-4-/- mice and Wf/Wf mice, the mast cell product, histamine, was immunosuppressive implicating mast cells as the dysfunctional cell in interleukin-4-/- mice. The prevalence of dermal mast cells was similar in wild-type and interleukin-4-/- mice. Dermal mast cells of interleukin-4-/- mice, however, express very low levels of c-kit and did not significantly degranulate in response to ultraviolet B. Ultraviolet radiation induced significant and similar levels of serum interleukin-10 in wild-type and interleukin-4-/- mice. We conclude that interleukin-4 indirectly affects ultraviolet B suppression of contact hypersensitivity and delayed-type hypersensitivity responses to sensitizing antigens applied at sites other than those irradiated by providing a critical differentiative signal for dermal mast cells. This study further emphasizes the central role of mast cells in the initial processes by which ultraviolet B radiation is immunomodulatory for immune responses to sensitizing antigens applied to nonirradiated sites.
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PMID:Ultraviolet B-induced suppression of immune responses in interleukin-4-/- mice: relationship to dermal mast cells. 1069 10

Mast cells participate in the host response during sepsis and have been shown to have a protective effect in a murine model of acute septic peritonitis and multi-organ failure initiated by cecal ligation and puncture (CLP). Stem cell factor (SCF) is a hematopoietic cytokine important in mast cell proliferation and activation. In the present study, we examined the protective effects of a single intraperitoneal injection of SCF given 2 hours before CLP surgery in mice. Four days after the CLP surgery, SCF pretreatment significantly improved mouse survival from 29 to 56% and mast cells were absolutely required for this effect. Immunoneutralization studies revealed that the SCF-stimulated release of monocyte chemoattractant protein-1 (MCP-1) into the septic peritoneal cavity contributed to the protective effect of SCF in this model. One potential cellular source of MCP-1 was the SCF-activated mast cell. In addition, SCF pretreatment significantly augmented circulating levels of SCF and the immunomodulatory cytokine interleukin-10 in septic mice, in part because the SCF pretreatment seemed to promote the release of both mediators from the liver. Additional hepatic effects of SCF treatment included an accelerated expression of hepatic levels of signal transducer and activator of transcription-3 (STAT-3) in CLP mice pretreated with SCF. Taken together, the findings from the present study demonstrate that the intraperitoneal delivery of SCF has a major protective effect in a murine model of CLP.
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PMID:Novel protective effects of stem cell factor in a murine model of acute septic peritonitis. Dependence on MCP-1. 1102 22

Calcitonin gene-related peptide has been shown to modulate inflammatory and immune responses in various systems. Recent studies in our laboratory and colleagues have shown that intracutaneously injected calcitonin gene-related peptide impairs the induction of contact hypersensitivity in mice, and participates in the pathogenesis of failed contact hypersensitivity induction after acute, low-dose ultraviolet B radiation. In this study we investigated the ability of calcitonin gene-related peptide to induce tolerance in normal and mast cell deficient mice and we examined the extent to which calcitonin gene-related peptide contributes to the tolerance induced by acute, low-dose ultraviolet B radiation. Calcitonin gene-related peptide was injected intradermally followed by application of 2,4-dinitro-1-fluorobenzene to the injected skin surface. Tolerance was assessed by re-exposing the mice 2 wk later to a second, sensitizing dose of 2, 4-dinitro-1-fluorobenzene on uninjected skin. We found that calcitonin gene-related peptide induced tolerance to 2, 4-dinitro-1-fluorobenzene in both normal and mast cell deficient mice. Calcitonin gene-related peptide-induced tolerance was blocked by intradermal injection of a calcitonin gene-related peptide antagonist [CGRP-(8-37)] that selectively blocks the calcitonin gene-related peptide receptor. Tolerance was also abolished by intraperitoneally injected anti-interleukin-10, but not anti-tumor necrosis factor alpha, antibodies. When 2,4-dinitro-1-fluorobenzene was painted on skin into which splenic dendritic cells pretreated with calcitonin gene-related peptide had been injected, tolerance was observed. Calcitonin gene-related peptide- treated dendritic cells mixed with anti-interleukin-10 antibody prior to intradermal injection failed to promote tolerance. Finally, injection of CGRP-(8-37) into skin that was subsequently exposed to acute, low-dose ultraviolet B radiation partially prevented tolerance induced by local application of 2,4-dinitro-1-fluorobenzene. These results indicate that calcitonin gene-related peptide has the capacity to promote cutaneous tolerance through an interleukin-10-dependent mechanism. This mechanism, which does not require the participation of mast cells, contributes to the tolerance promoted by acute, low-dose ultraviolet B radiation. Thus, calcitonin gene-related peptide from cutaneous nerve endings plays a key role in the local immune aberrations caused by ultraviolet B radiation.
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PMID:Hapten-specific tolerance promoted by calcitonin gene-related peptide. 1112 Nov 23

Orf virus causes pustular skin lesions (orf) in sheep, goats and humans. The virus encodes an interleukin-10 (orfvIL-10) that is identical in amino acid composition to ovine IL-10 (ovIL-10) over the C terminal two-thirds of the polypeptide, but not in the N terminal third. The immuno-suppressive and immuno-stimulatory activities of orfvIL-10 and ovIL-10 were compared. Both orfvIL-10 and ovIL-10 inhibited TNF-alpha and IL-8 cytokine production from stimulated ovine macrophages and keratinocytes and IFN-gamma and GM-CSF production from peripheral blood lymphocytes. OrfvIL-10 and ovIL-10 co-stimulated both ovine and murine mast cell proliferation in conjunction with IL-3 (ovine) or IL-4 (murine). Isoleucine at position 87 (Ile(87)) of the mature human IL-10 (huIL-10) has been reported as essential for the immuno-stimulatory activity of huIL-10. In spite of the differences in amino acids within the N-terminal third of orfvIL-10 compared with ovIL-10 and substitution of Ile(87) with Ala(87) in ovIL-10, these variants of ovIL-10 and orfvIL-10 all co-stimulated mast cell proliferation and inhibited macrophage IL-8 production. As ovIL-10 and orfvIL-10 have a similar structure to huIL-10 and conserved receptor-binding residues, it was concluded that Ile(87) is not essential for IL-10 immuno-stimulatory activity. Finally, ovine keratinocytes do not express ovIL-10. This might explain why orf virus has evolved a viral IL-10.
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PMID:A comparison of the anti-inflammatory and immuno-stimulatory activities of orf virus and ovine interleukin-10. 1245 84

The effects of adenosine receptor agonists on cytokine production in vivo were investigated in mouse models of endotoxemia. Selective adenosine A(3) (2-chloro-N(6)-(3-iodobenzyl) adenosine-5'-N-methyluronamide) (2-Cl-IB-MECA) and A(2A) (2-p-(2-carboxyethyl) phenethylamino-5'-N-ethylcarboxamido adenosine hydrochloride) (CGS 21860) receptor agonists were found to modulate endotoxin-induced cytokine responses in mice sensitized to D-galactosamine or primed with Corynebacterium parvum. The adenosine receptor agonists had similar effects in these models of endotoxemia, suppressing the production of tumor necrosis factor alpha (TNF-alpha) and interleukin-12 while enhancing that of interleukin-10. However, 2-Cl-IB-MECA also caused a dramatic increase in circulating histamine levels shortly after its injection into mice. The cytokine modulatory activities of 2-Cl-IB-MECA were mimicked by the mast cell depleting compound 48/80 and both drugs only produced such effects at doses that caused an elevation in circulating histamine levels. Furthermore, the capacity of 2-Cl-IB-MECA to modulate cytokine responses was greatly diminished when the drug was administered to mast cell deficient (WBB6F-W/W(V)) mice. Together, these results strongly suggest a role for histamine in cytokine modulation by 2-Cl-IB-MECA. Cimetidine, a histamine H(2) receptor antagonist, did not reverse cytokine modulation by 2-Cl-IB-MECA and pyrilamine, a histamine H(1) receptor antagonist, prevented the increase in serum histamine that was induced by 2-Cl-IB-MECA. This effect of pyrilamine and other histamine H(1) receptor antagonists confounded attempts to determine a role for the histamine H(1) receptor in cytokine modulation by 2-Cl-IB-MECA. However, under some experimental conditions, pyrilamine appeared to antagonize the modulatory effects of the adenosine A(3) receptor agonist on cytokine responses. The apparent antagonism of pyrilamine was unrelated to its suppressive effects on histamine release and appeared to reflect activity at the level of the histamine H(1) receptor.
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PMID:A role for histamine in cytokine modulation by the adenosine A(3) receptor agonist, 2-Cl-IB-MECA. 1246 Jun 44


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