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

Recent work has shown that interleukin-1 alpha (IL-1 alpha) and IL-1 beta are transported from blood to brain across the blood-brain barrier by a saturable system. Here, we show that the endogenous IL-1 receptor antagonist (IL-1ra) radioactively labeled with either 125I or 35S is also transported across the blood-brain barrier by a saturable transport system. Between 0.33 and 0.65% of an intravenous dose of labeled IL-1ra entered each gram of brain. The three cytokines inhibited each other's transport in a way suggesting that their elevated blood levels would tend to favor the entry of IL-1 beta at the expense of IL-1 alpha. High performance liquid chromatography confirmed that radioactivity entering the brain represented intact cytokine. Recovery of radioactivity from cerebrospinal fluid, an area without blood vessels, and from the parenchymal fraction of the cortex, and area without circumventricular organs, after capillary depletion confirmed that blood-borne IL-1ra gained entry into the brain. The transport system for IL-1ra appeared to be linked to that for IL-1 alpha and IL-1 beta, but was not affected by IL-2, IL-6, TNF alpha, or MIP-1 alpha. The results show that IL-1ra circulating in the blood can cross the blood-brain barrier to enter the central nervous system.
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PMID:Blood-borne interleukin-1 receptor antagonist crosses the blood-brain barrier. 782 65

Macrophages, within the cytokine network, are a major source of many cytokines involved in immune response, hematopoiesis, inflammation and many other homeostatic processes. Upon stimulation by micro-organisms, microbial products or endogenous factors including cytokines, macrophages can de novo synthesize and release a large variety of cytokines (ie IL-1, IL-1ra, IL-6, IL-8, IL-10, IL-12, TNF alpha, IFN alpha, IFN gamma, MCP-1, MCP-3, MIF, M-CSF, G-CSF, GM-CSF, MIP-1, MIP-2, LIF, OSM, TGF beta). Some cytokines can upregulate the production of cytokines by macrophages (IL-3, GM-CSF, IFN gamma) while others can inhibit it (IL-4, IL-10, IL-13, TGF beta). In addition, these cytokines can modulate most of the macrophage functions and cell surface marker expression. Other cytokines (the chemokines such as MCP-1,2,3, MIP-1,2 and RANTES) contribute to the recruitment of circulating monocytes within tissues. It is worth noting that macrophages can be their own source of regulatory cytokines.
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PMID:Cytokines and macrophages. 785 54

Macrophage inflammatory proteins 1 alpha and beta (MIP-1 alpha and beta) and macrophage inflammatory protein 2 (MIP-2) are approximately 6-8 kd, heparin binding proteins that exhibit a number of inflammatory and immunoregulatory activities. The MIP proteins are members of a superfamily of cytokines called chemokines, many of which have been shown to possess chemotactic activity for inflammatory and immune effector cells. While MIPs were originally identified as secretory products of endotoxin-stimulated mouse macrophages, these chemokines are produced by a variety of cell types including neutrophils, fibroblasts, and epithelial cells. In addition, proteins with a high degree of structural and functional homology to murine MIP-1 alpha and beta and MIP-2 have been identified in other species including humans. MIP-1 alpha and beta are chemotactic for monocytes and lymphocytes and MIP-2 is a potent chemotactic factor for neutrophils. MIPs likely also play a role in regulating hematopoiesis and stimulating production of other inflammatory mediators such as IL-1, TNF alpha, and histamine. Studies using animal models of lung injury and inflammation have implicated MIPs as important mediators of lung defense. Increased MIP expression has been observed in models of bacterial sepsis, silicosis, and oxidant-induced lung injury. Studies in humans indicate MIP-1 alpha contributes to the inflammatory cell response associated with sarcoidosis and idiopathic pulmonary fibrosis. Given the bioactivities of MIP-1 alpha and beta and MIP-2 and the recent studies demonstrating their association with lung inflammation, it is likely these chemokines play a significant role in respiratory tract defenses and may contribute to the pathogenesis of inflammatory lung disease.
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PMID:Macrophage inflammatory proteins: biology and role in pulmonary inflammation. 788 2

Chemokines are a superfamily of structurally related cytokines involved in leukocyte recruitment in normal and neoplastic tissues. The availability of non-cross-reacting reagents specific for each member of the C-C and C-X-C family is important for careful characterization of their in vitro and in vivo production and relevance. Here we describe a novel, highly specific, mAb against monocyte chemotactic protein-1 (MCP-1). The 5D3-F7 mAb (IgG1,kappa) recognizes human recombinant and natural MCP-1 in ELISA, immunoprecipitation and immunoblot analysis. As a source of natural MCP-1 we used the 8387 human sarcoma line which produces spontaneously MCP-1 and responds to TNF with increased expression and release. The 5D3-F7 mAb inhibited the chemotactic activity of MCP-1 for monocytes. Using the 5D3-F7 mAb and a polyclonal rabbit anti-MCP-1 serum, a sandwich ELISA was developed. In both the direct and the sandwich ELISA, the 5D3-F7 mAb recognized human MCP-1, but not the closely related C-C chemokines MCP-1, MCP-2, MCP-3, MIP-1 alpha, and RANTES and the C-X-C chemokines IL-8, gro alpha and NAP-2. In culture supernatants the sensitivity of the sandwich ELISA was approximately equal to 30 pg/ml. The sandwich ELISA permitted detection of MCP-1 in resting or cytokine-stimulated endothelial, mesothelial and Kaposi's sarcoma cells. Preliminary immunohistochemical analysis revealed production of MCP-1 by macrophage-like cells at sites of inflammation. The 5D3-F7 mAb provides a novel, highly specific reagent with which to investigate the in vitro and in vivo production and role of MCP-1.
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PMID:A new monoclonal antibody (5D3-F7) which recognizes human monocyte-chemotactic protein-1 but not related chemokines. Development of a sandwich ELISA and in situ detection of producing cells. 808 29

Inhaled inert particles and organisms cause a spectrum of pulmonary responses, ranging from minimal changes to marked acute inflammation. During ingestion and clearance of such particles, alveolar macrophages (AM) can initiate pulmonary inflammation by production of TNF and neutrophil chemoattractant cytokines. We tested the role of opsonization in determining the AM response to ingestion of inert particles in vitro and in vivo. As measures of AM activation after phagocytosis in vitro, we measured release of TNF and mRNA expression for the platelet-factor 4 family neutrophil chemoattractants, KC and macrophage-inflammatory protein-2 (MIP-2). Using albumin-coated fluorescent latex particle as phagocytic targets, we found a marked release of TNF by AM ingesting particles opsonized with antialbumin IgG, although uptake of similar numbers of unopsonized particles caused little or no release (e.g., 4648 +/- 1147 pg/ml, opsonized beads vs 576 +/- 205 unopsonized, 10:1 particle:cell ratio, n = 4, mean +/- SD). Flow cytometry confirmed equal uptake of the two particle types. Northern analysis of AM mRNA showed marked induction of KC and MIP-2 mRNA after ingestion of opsonized particles only. Instillation of opsonized particles into hamster lungs caused a marked neutrophil influx, although unopsonized particles did not. TNF was elevated in lavage fluid after instillation of opsonized particles, but not after unopsonized beads (92.7 +/- 136 pg/ml opsonized, n = 7 vs 1.3 +/- 3.6 unopsonized, n = 6). KC and MIP-2 mRNA were induced in lavaged cells after instillation of opsonized but not after unopsonized particles or vehicle control. The nature of particle interaction with the AM surface during phagocytosis determines the subsequent AM response. Although many unopsonized inert particles are ingested with minimal AM activation, specific opsonization of pathogens or non-specific adsorption of Ig onto other particles may activate AM and lead to pulmonary inflammation.
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PMID:Particle opsonization and lung macrophage cytokine response. In vitro and in vivo analysis. 836 Apr 89

The cytokines are important components of the brain-immune axis. Recent work has shown that [125I]IL-1 alpha and [125I]IL-1 beta are transported from the blood into the brain by a saturable system. Here we show that murine tumor necrosis factor alpha (mTNF alpha) labeled with 125I (I-mTNF alpha) crosses the blood-brain barrier (BBB) after i.v. injection by a transport system different from that for the interleukins. Self inhibition with mTNF alpha showed that this transport system was saturable, and lack of inhibition by IL-1 alpha, IL-1 beta, IL-6, or MIP-1 alpha showed selectivity of the system. High performance liquid chromatography (HPLC) of the radioactivity recovered from brain and from cerebrospinal fluid after the i.v. injection of I-mTNF alpha showed that the cytokine crossed the BBB largely in intact form. Capillary depletion showed that the accumulation of I-mTNF alpha in the cerebral cortex was due to passage across the BBB rather than to sequestration by capillaries. Transport rate was not changed by acute treatment with the neurotoxin aluminium or by acute and chronic treatment with the cationic chelator deferoxamine, but it was more than three times faster in neonatal rats. Efflux of I-mTNF alpha from the brain was slower than would have been predicted based on reabsorption of cerebrospinal fluid, suggesting that TNF alpha is sequestered by the brain. The BBB was not disrupted by up to 50 micrograms kg-1 of mTNF alpha i.v. in either adult mice or neonatal rats as assessed by the BBB's impermeability to radioactively labeled albumin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Murine tumor necrosis factor alpha is transported from blood to brain in the mouse. 837 Jul 68

A unique subset of gamma delta T cells, termed dendritic epidermal T cells (DETC), resides in symbiosis with keratinocytes in mouse epidermis. We have shown previously that interleukin 7 (IL-7) which is produced by keratinocytes, promotes growth and prevents apoptosis in DETC. To extend this observation, we examined 12 cytokines, each of which is expressed by epidermal cells at mRNA and/or protein levels, for their capacities to modulate the growth of DETC. Cytokines examined included IL-1 alpha, IL-2, IL-3, IL-4, IL-6, IL-7, IL-8, IL-10, tumor necrosis factor-alpha (TNF alpha), interferon-gamma (IFN gamma), granulocyte/macrophage-colony stimulating factor (GM-CSF), and macrophage inflammatory protein-1 alpha (MIP-1 alpha). When tested individually, IL-2 and IL-7 promoted maximal growth of the long-term cultured DETC line 7-17. When tested in combinations, synergistic growth-promoting effects were seen with IL-2 and IL-4 or IL-7, and with IL-7 and IL-4 or TNF alpha. Dose-response experiments demonstrated that TNF alpha, which is produced by keratinocytes, enhances IL-7-induced DETC proliferation, but inhibits IL-2-induced proliferation. The mouse keratinocyte-derived cell line Pam 212 was used to test these cytokines for their capacities to regulate keratinocyte growth. Only gamma IFN, which is produced by DETC, inhibited proliferation in a dose-dependent fashion. These results illustrate three reciprocal pathways by which epidermal cytokines regulate the growth of epidermal cells: 1) a paracrine mechanism by which keratinocyte-derived cytokines (e.g., IL-7 and TNF alpha) promote the growth of DETC, 2) an autocrine mechanism by which DETC-derived cytokines (e.g., IL-2 and IL-4) support their own growth, and 3) a reciprocal pathway in which a cytokine produced by resident epidermal leukocytes (e.g., gamma IFN) modulates the growth of keratinocytes.
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PMID:Reciprocal cytokine-mediated cellular interactions in mouse epidermis: promotion of gamma delta T-cell growth by IL-7 and TNF alpha and inhibition of keratinocyte growth by gamma IFN. 840 21

Langerhans cells (LC) are Ag-presenting cells required for induction of primary immune responses in skin. After activation by Ag, LC express increased levels of MHC class II Ag, exhibit increased accessory cell activity, and migrate to regional lymph nodes where they stimulate T cells. One of the earliest manifestations of LC activation is the accumulation of increased amounts of IL-1 beta mRNA in LC within 15 min after exposure to contact allergens in vivo. To determine if enhanced IL-1 beta production by LC could be causally linked to epicutaneous sensitization, we injected IL-1 beta intradermally into the ears of BALB/c mice and extracted total epidermal RNA 4 h later. A quantitative reverse transcriptase-polymerase chain reaction technique was used to compare changes in IL-1 alpha, IL-1 beta, macrophage inflammatory protein 2, IL-10, TNF-alpha, and 1-A alpha chain mRNA signals caused by intradermally-injected IL-1 beta to those caused by intradermal IL-1 alpha or TNF alpha, or by topical application of the contact allergen trinitrochlorobenzene (3% TNCB). Intradermal injection of 25 ng IL-1 beta resulted in 5-to 100-fold enhancement of mRNA signals for IL-1 alpha, IL-1 beta, MIP-2, IL-10, TNF alpha, and class II I-A alpha, mimicking the changes caused by allergen. In contrast, injection of equivalent amounts of IL-1 alpha or TNF alpha did not significantly alter the epidermal cytokine pattern. Simulating the effects of topically applied TNCB, intradermally-injected IL-1 beta (but not IL-1 alpha or TNF alpha) also caused enhancement of LC MHC class II expression. In addition, LC derived from IL-1 beta-injected skin were 2 to 3 times more potent accessory cells in an anti-CD3 proliferation assay than LC from IL-1 alpha or sham-injected skin. Finally, injection of hamster anti-mIL-1 beta mAb into the skin prior to TNCB treatment completely prevented sensitization to this allergen, although injections of similar amounts of hamster anti-mIL-1 alpha mAb or PBS were without effect. Taken together, our data indicate that dendritic cell-derived IL-1 beta may be a critical molecule required for initiation of primary immune responses in skin.
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PMID:An essential role for Langerhans cell-derived IL-1 beta in the initiation of primary immune responses in skin. 847 27

The aim of this study was to measure the level of cytokines produced by peripheral blood mononuclear cells (PBMNC) in patients with aplastic anemia (AA) and to determine their effect on the clonal growth of normal bone marrow (BM) cells. Twenty-one patients with AA and 11 normal controls were enrolled in this study. Medium conditioned by PBMNC of AA patients in the presence of lipopolysaccharide (LPS) was found to be suppressive to the colony growth of normal BM cells. Thus, we further determined the presence in the PBMNC-conditioned medium (CM) of both inhibitory cytokines: macrophage inflammatory protein-1 alpha (MIP-1 alpha), tumor necrosis factor-alpha (TNF-alpha), transforming growth factor-beta 2 (TGF-beta 2), and interferon-gamma (IFN-gamma), and stimulatory cytokines: interleukin-3 (IL-3) and stem cell factor (SCF). Spontaneous production of MIP-1 alpha was higher in the AA patients than the normal controls (1887 +/- 174 pg/ml vs 1643 +/- 93 pg/ml), but the difference was not significant. After LPS stimulation, the production of MIP-1 alpha was markedly increased in the AA patients, and its level was significantly higher than that of the normal controls (2360 +/- 149 pg/ml vs 1517 +/- 92 pg/ml, p = 0.0022). The level of TNF alpha was also higher in the AA patients. However, IFN-gamma, TGF-beta 2, SCF, and IL-3 were not detectable in the PBMNC-CM of either AA patients or normals. The myelopoietic suppressing effect of AA-PBMNC-CM from each AA patient was significantly blocked by pretreatment with anti-TNF-alpha, resulting in a colony-forming enhancement of 174% +/- 12%. A similar effect was noted in six of 11 AA patients by pretreatment with anti-MIP-1 alpha. We conclude that TNF alpha and MIP-1 alpha can be overproduced by the PBMNC of some AA patients, which may play a role in the progression of AA.
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PMID:Overproduction of inhibitory hematopoietic cytokines by lipopolysaccharide-activated peripheral blood mononuclear cells in patients with aplastic anemia. 853 59

Macrophage inflammatory protein 2 (MIP-2) and CINC (Cytokine-Induced-Neutrophil-Chemoattractant) are members of the chemokine family of inflammatory and immunoregulatory cytokines. MIP-2 and CINC exhibit potent neutrophil chemotactic activity and are thought to be key mediators of inflammatory cell recruitment in response to tissue injury and infection. In the present studies, we examined the potential involvement of MIP-2 and CINC in particle-elicited inflammation in the rat lung and the role of TNF alpha in particle-induced chemokine expression. Acute intratracheal instillation exposure of F344 rats to alpha quartz or titanium dioxide was shown to markedly increase steady-state levels of MIP-2 and CINC mRNA in lung tissue; a response which was associated with a significant increase in neutrophils in the bronchoalveolar lavage fluid. Additional studies demonstrated that acute inhalation of crocidolite fibers by rats also induced increased MIP-2 and CINC expression. Since previous studies had demonstrated that TNF alpha stimulates MIP-2 and CINC expression in vitro and that particle exposure induces TNF alpha production in rat lung we examined the role of TNF alpha in alpha quartz-induced MIP-2 gene expression. We demonstrated that passive immunization of mice against TNF alpha markedly attenuated the increased lung MIP-2 mRNA seen in response to alpha quartz inhalation. Collectively, these findings suggest that the chemokines MIP-2 and CINC play a role in neutrophil recruitment to the rat lung after particle exposure and indicate that particle-induced expression of these chemokines is mediated, at least in part, by production of TNF alpha.
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PMID:TNF alpha and increased chemokine expression in rat lung after particle exposure. 859 99


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