EC:3.4.24.59 - FACTA Search

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Query: EC:3.4.24.59 (MIP)
4,906 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The CD4+ T cell clone HA1.7 may be made specifically nonresponsive, or anergic, to its cognate Ag, an influenza hemagglutinin peptide (HA), by pretreatment with the superantigen Staphylococcus aureus enterotoxin B or with high concentrations of HA itself. We compare the patterns of mRNA expression and protein production of selected T cell cytokines during the first 24 h after treatments that induce anergy in HA1.7 and during the same period after treatments that simulate normal cellular activation. The cytokines examined include TNF-alpha, IL-8/neutrophil activating protein-1 and the RANTES/SIS cytokines, a family of small secreted proteins with inflammatory and potential antiproliferative and leukocyte regulating activities. Messenger RNA for TNF-alpha, human MIP-1 alpha, human MIP-1 beta, and IL-8 are all induced during the development of clonal anergy in HA1.7, and these levels are significantly higher than those seen during activation of the clone using an anti-CD3 antibody and IL-2. These high levels of mRNA also persist longer than those seen after anti-CD3 and IL-2 activation. However, the increased levels of mRNA are not typically accompanied by increased protein secretion. In all cases but one, the amount of cytokine secreted by HA1.7 cells was greater after anti-CD3 and IL-2 treatments than after anergy-inducing treatments. Thus, the induction of T cell anergy in HA1.7 does not appear to require a general inhibition of T cell cytokine mRNA expression, and, in fact, anergy treatments appear to superinduce certain cytokine transcripts, but anergy-specific posttranscriptional mechanisms may exist by which cytokine release is regulated.
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PMID:Uncoupling of cytokine mRNA expression and protein secretion during the induction phase of T cell anergy. 153 Aug 60

Cytokines mediate many host responses to bacterial infections. We determined the inflammatory activities of five cytokines in the central nervous system: TNF-alpha, IL-1 alpha, IL-1 beta, macrophage inflammatory protein 1 (MIP-1), and macrophage inflammatory protein 2 (MIP-2). Using a rabbit model of meningeal inflammation, each cytokine (except IL-1 beta) induced enhanced blood brain barrier permeability, leukocytosis in cerebrospinal fluid, and brain edema. Homologous antibodies to each mediator inhibited leukocytosis and brain edema, and moderately decreased blood brain barrier permeability. In rabbits treated with anti-CD-18 antibody to render neutrophils dysfunctional for adhesion, each cytokine studied lost the ability to cause leukocytosis and brain edema. After intracisternal challenge with pneumococci, antibodies to TNF or IL-1 prevented inflammation, while anti-MIP-1 or anti-MIP-2 caused only a 2-h delay in the onset of inflammation. We suggest these cytokines have multiple inflammatory activities in the central nervous system and contribute to tissue damage during pneumococcal meningitis.
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PMID:The role of cytokines in the generation of inflammation and tissue damage in experimental gram-positive meningitis. 240 63

Mast cells are critical effectors in many IgE-dependent responses, and the numbers and phenotype of certain mast cell populations can be influenced, through IL-3 and IL-4, by the same T cells that regulate IgE production. However, IgE can interact with cells other than mast cells, and different mast cell populations express significant variation in multiple important aspects of their phenotype, including mediator content and responses to cytokines and stimuli of activation. As a result it may be difficult to define the unique contributions of mast cells to IgE-dependent reactions. One approach for analysing the roles of various mast cell populations in individual biological responses is to attempt to elicit these reactions in mice in which the presence or absence of specific mast cell populations can be regulated experimentally. We have used genetically mast cell-deficient and mast cell-reconstituted mice to demonstrate that mast cells provide essential effector function in certain IgE-dependent responses involving the skin, stomach or lungs but are not necessary for the pulmonary alterations and death associated with active anaphylaxis. Similar approaches can be used to investigate the biological significance of the production, by mast cells stimulated with IgE and specific antigen, of cytokines similar or identical to IL-1, IL-3, IL-4, IL-5, IL-6, TNF-alpha/cachectin, IFN-gamma, GM-CSF, JE, MIP-1 alpha, MIP-1 beta and TCA3.
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PMID:Mast cells: immunologically specific effectors and potential sources of multiple cytokines during IgE-dependent responses. 251 50

As an attempt to elucidate the pathogenesis of human immunodeficiency virus type 1 (HIV-1)-related cytopenia, the effects of infection of long-term primary bone marrow culture (LTBMC)-derived adherent cells on hematopoiesis were investigated. Productive infection could then be established only when using monocytotropic strains HIV-1Ba-L, HIV-1Ada, and HIV-1JR-FL but not with lymphocytotropic strain HIV-1LAI. Culture supernatants were tested for major cytokines involved in the regulation of hematopoiesis: neither IL-3 nor GM-CSF were detectable in the infected or noninfected cultures; in contrast, TGF-beta, TNF-alpha, MIP-1 alpha, Steel Factor, and IL-6 were detected at all times in established LTBMCs, but their levels were not consistently altered by virus replication. In vitro functional analysis by colony and long-term culture assays showed that HIV-1 infection failed to alter either the kinetics or the number of hematopoietic progenitors produced by the stromal layers; it did not interfere with the clonogenicity of exogeneous CD34+ cells in semisolid assays, and no difference was observed relative to the controls when HIV-1-infected stromal layers were tested for their ability to sustain long-term hematopoiesis. These results show that productive and sustained virus replication in the macrophage component of LTBMCs does not significantly alter the profile of major cytokines involved in regulating hematopoiesis, nor is it sufficient by itself for altering in vitro hematopoiesis under the baseline conditions used.
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PMID:In vitro infection of bone marrow-adherent cells by human immunodeficiency virus type 1 (HIV-1) does not alter their ability to support hematopoiesis. 748 69

Human neutrophils at inflammatory sites may be an important source of the chemotactic cytokines macrophage inflammatory protein 1 alpha (M1P-1 alpha; a C-C chemokine) and interleukin 8 (IL-8; a C-X-C chemokine). In this study, we show that the inflammatory microcrystals monosodium urate monohydrate (MSU) and calcium pyrophosphate dihydrate (CPPD), the major mediators of gout and pseudogout, differentially regulate the production of these two chemokines by human neutrophils. Both MSU and CPPD increased the secretion of IL-8 by neutrophils in a dose- and time-dependent manner, but had no effect on that of MIP-1 alpha. Since inflammatory cytokines are likely to be present in the synovium during crystal-induced inflammation, we examined the interaction between TNF-alpha and GM-CSF and the crystals. Both TNF-alpha and GM-CSF stimulated IL-8 production; however, only TNF-alpha exerted a significant effect on MIP-1 alpha secretion in neutrophils. IL-8 production induced by TNF-alpha and GM-CSF was synergistically enhanced in the presence of MSU or CPPD, whereas MIP-1 alpha secretion induced by TNF was completely inhibited in the presence of either MSU or CPPD. Interestingly, no interaction between the crystals and the inflammatory cytokines was observed with respect to synthesis of the C-X-C chemokine MGSA in neutrophils. These results suggest that the combination of TNF-alpha and GM-CSF with MSU or CPPD will lead to the production of IL-8 by neutrophils and abolish the release of MIP-1 alpha, an event that will theoretically lead to recruitment of neutrophils but not mononuclear cells. These results are in accordance with the pathological state of gout and pseudogout, where the predominant inflammatory cell is the neutrophil.
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PMID:Inflammatory microcrystals differentially regulate the secretion of macrophage inflammatory protein 1 and interleukin 8 by human neutrophils: a possible mechanism of neutrophil recruitment to sites of inflammation in synovitis. 750 47

The allogeneic mixed lymphocyte reaction (MLR) is regarded as an effective model for examining the events which occur during an allospecific immune response. Numerous studies have delineated the role of adherence molecule interactions during the MLR response. In the present study we have identified VCAM-1 as having a contribution to the generation of an allogeneic MLR response. These findings may have broad implications in vivo during antigen-specific and allograft rejection events. RT-PCR analysis was initially used to examine whether VCAM-1 mRNA expression was observed during MLR responses and demonstrated peak expression between 12 and 48 hr of culture. Immunolocalization of VCAM-1 on adherent mononuclear phagocytes, but not nonadherent lymphocytes, from MLR cultures verified its expression during this response. Addition of anti-VCAM-1 mAbs to MLR assays inhibited the proliferative response by over 70%, while addition of anti-VCAM-1 as late as Day 2 of the assay allowed significant inhibition of the proliferative response. This correlated with peak expression of VCAM-1 mRNA observed as late as 48 hr in RT-PCR analyses. In further studies, anti-VCAM-1 significantly inhibited peak expression of IL-2 on Days 3 and 4, while TNF-alpha production was diminished at 30 min and 1, 96, and 120 hr of culture, compared to control cultures. The production of macrophage inflammatory protein-1 alpha (MIP-1 alpha), a chemotactic cytokine which has an important role in vivo for the recruitment of leukocytes to a site of inflammation, was also significantly inhibited during peak production on Days 4 and 5 of the MLR assay. This study demonstrates novel findings of VCAM-1 expression during an allogeneic MLR response. The expression of VCAM-1 may have important implications during allospecific immune responses for the activation and proliferation of T lymphocytes as well as cytokine production.
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PMID:VCAM-1 influences lymphocyte proliferation and cytokine production during mixed lymphocyte responses. 750 30

Endothelial cells express adhesion molecules and release free forms (e.g., sELAM-1, sGMP-140, sICAM-1 and sVCAM-1). Compared with controls, the serum levels of these soluble adhesion molecules (SAM) were significantly increased in patients with rheumatoid arthritis. We investigated whether this was associated with the circulating cytokines and changes in peripheral blood T-lymphocyte (T-PBL) subsets. In healthy subjects, sELAM-1 correlated with the serum levels of Il-1 beta, Il-1 receptor antagonist (Il-1RA) and Il-6, while sGMP-140 was associated with Il-8, and sVCAM-1 was related to Il-7 and Il-8. Thus, already in controls, relations exist between the levels of SAM and circulating cytokines. The rheumatoid arthritis patients with low and high serum levels of IgA- and/or IgM-rheumatoid factors (RF) were separately analyzed. They have different cytokine profiles and showed distinct correlations. In patients with low RF, sGMP-140 and sVCAM-1 correlated with Il-1 beta, while sICAM-1 was associated with Il-7 and TNF-alpha. In patients with high RF, sELAM-1 correlated with Il-1RA, and sGMP-140 was associated with many cytokines (e.g., GM-CSF, MIP-1 alpha and TNF-alpha). In addition, lymphopenia (less than 1000 lymphocytes/microliters) was shown in 30% of the patients, and 20% (mostly with low RF levels) had reduced levels of "primed" CD45RO+ cells among T-PBL. In controls, cytokines (Il-7, Il-8 and GM-CSF), but not SAM, were associated with less CD45RO+ T-PBL. In patients with low RF only, sGMP-140 and sELAM-1 correlated with the depletion of "primed" CD4+ and CD8+ T-PBL respectively. In such patients, Il-1 beta and GM-CSF also correlated with less CD8+, CD45RO+ T-PBL. Thus, particularly in patients with low RF, increased SAM, possibly released by the endothelial cells, might reflect the cytokine-induced activation of the vascular endothelium and the extravasation of some CD45RO+ T-PBL.
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PMID:Increased soluble endothelial adhesion molecules in rheumatoid arthritis correlate with circulating cytokines and depletion of CD45RO+ T-lymphocytes from blood stream. 753 32

The phenotype of CD4+ T cells capable of transendothelial migration was determined using an in vitro model system, in which cells migrate through a monolayer of endothelial cells (EC) on collagen gels. A specific subset of resting CD4+ memory T cells was found to migrate. T cells within this subset can be defined by the bright expression of CD11a, CD26, CD44, and CD49d. Additionally, the migratory CD4+ T cell population is largely CD58bright, CD31-, CD62L-, and is also enriched in cells that brightly express CD49c, CD49e, and CD49f. Only a minority of the cells are activated, as indicated by expression of CD69. The EC were found to play a central role in facilitating migration of this subset because selective enrichment of CD11abright, CD26bright, CD44bright, CD4+ T cells was not observed when cells migrated in the absence of EC. Activation of the T cells induced a modest degree of migration of an additional subset of CD45RA+, CD31+ naive T cells. In contrast, TNF-alpha activation of the EC increased the transendothelial migration of an additional subset of activated memory T cells that expressed CD69 and CD62L. Neither activation of the T cells, stimulation of the EC, nor the presence of macrophage inflammatory protein-1 alpha (MIP-1 alpha) or RANTES, however, altered the phenotype of the majority of the migratory CD4+ T cell population, which is characteristic of a particular stage of memory cell differentiation. These results suggest that CD4+ T cells acquire the capacity for transendothelial migration at a specific phase of maturation that is only minimally altered by the activation of either the T cell or the EC, or by the presence of specific chemokines in the subendothelial matrix.
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PMID:Phenotypic characterization of CD4+ T cells that exhibit a transendothelial migratory capacity. 753 86

Liver and kidney injury following acute or chronic exposure to cadmium is well characterized. While hepatocytes and endothelial cells of the sinusoids are thought to be the primary cellular targets in the liver, ultrastructural changes may vary depending upon the exposure regimen and the time following administration. Since acute and chronic liver disease is often associated with the presence of cytokines, we investigated the role of proinflammatory cytokines in cadmium-induced hepatotoxicity. Supernatants from cultured liver slices obtained from acute or subchronic cadmium-exposed rats and mice were collected and cytokine secretion was examined. In addition, mRNA transcripts for IL-1 alpha, IL-1 beta, IL-6, TNF-alpha, MIP-2, IFN-gamma, and ICAM-1 from livers of treated mice were quantitated by reverse transcription-polymerase chain reaction. Modest increases in secretion of TNF-alpha, IL-1 alpha, and IL-6 were observed in response to cadmium which were enhanced in LPS-primed mice. Additionally, cadmium exposure increased IL-1 alpha, IL-1 beta, TNF-alpha, MIP-2, IL-6, and ICAM-1 mRNA transcripts in the liver. Immunohistochemical analysis revealed that TNF-alpha was associated with nonparenchymal cells in livers of cadmium-treated mice. Cadmium exposure produced a marked increase in plasma hepatocellular enzyme levels (i.e., AST, LDH, SDH), acute phase proteins (i.e., serum amyloid A), and foci formation in the liver, while focal inflammation and serum amyloid A (SAA) secretion, but not plasma enzymes, were further increased in cadmium-exposed mice primed with LPS. SAA secretion and focal inflammation were prevented by pretreatment with antibodies to TNF-alpha, indicating that these pathological manifestations are cytokine dependent. These data indicate that TNF-alpha, released from nonparenchymal cells as well as associated cytokines, are responsible for certain manifestations observed with cadmium-induced hepatotoxicity.
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PMID:Role of tumor necrosis factor-alpha in cadmium-induced hepatotoxicity. 753 60

The mouse KC gene is an alpha-chemokine gene whose transcription is induced in mononuclear phagocytes by LPS. DNA sequences necessary for transcriptional control of KC by LPS were identified in the region flanking the transcription start site. Transient transfection analysis in macrophages using deletion mutants of a 1.5-kb sequence placed in front of the chloramphenicol acetyl transferase (CAT) gene identified an LPS-responsive region between residues -104 and +30. This region contained two kappa B sequence motifs. The first motif (position -70 to -59, kappa beta 1) is highly conserved in all three human GRO genes and in the mouse macrophage inflammatory protein-2 (MIP-2) gene. The second kappa B motif (position -89 to -78, kappa B2) was conserved only between the mouse and the rat KC genes. Consistent with previous reports, the highly conserved kappa B site (kappa B1) was essential for LPS inducibility. Surprisingly, the distal kappa B site (kappa B2) was also necessary for optimal response; mutation of either kappa B site markedly reduced sensitivity to LPS in RAW264.7 cells and to TNF-alpha in NIH 3T3 fibroblasts. Although both kappa B1 and kappa B2 sequences were able to bind members of the Rel homology family, including NF kappa B1 (P50), RelA (65), and c-Rel, the kappa B1 site bound these factors with higher affinity and functioned more effectively than the kappa B2 site in a heterologous promoter. These findings demonstrate that transcriptional control of the KC gene requires cooperation between two kappa B sites and is thus distinct from that of the three human GRO genes and the mouse MIP-2 gene.
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PMID:Two structurally distinct kappa B sequence motifs cooperatively control LPS-induced KC gene transcription in mouse macrophages. 756 Oct 58

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