Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P10145 (IL-8)
 23,849 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The present study was designed to investigate the capacity of human mononuclear phagocytes to produce a cytokine chemotactic for monocytes (monocyte chemotactic protein (MCP), alternative acronyms JE, monocyte chemotactic and activating factor, MCP-1, and tumor-derived chemotactic factor). Human PBMC exposed in vitro to bacterial LPS expressed high levels of MCP transcripts. Monocyte-depleted lymphoid cells were not induced to express MCP by LPS. Percoll-gradient purified monocytes were able to express high levels of MCP transcripts. In an effort to exclude a role of contaminating non-monocytic cells, mononuclear phagocytes were separated by flow cytometry and sorting: CD14+ cells exposed to LPS showed high levels of MCP mRNA. LPS-stimulated monocytes released chemotactic activity for monocytes that could be inhibited by absorption with anti-MCP antibodies. IL-1, TNF, IFN-gamma, granulocyte-macrophage-CSF and, to a lesser extent, macrophage-CSF, as well as inactivated streptococci, also induced MCP gene expression. Actinomycin D experiments indicated that induction of MCP in monocytes was gene transcription-dependent. The protein synthesis inhibitor cycloheximide (Cy) blocked IL-1-, TNF-, or LPS-induced MCP gene expression in monocytes. In contrast, expression of the structurally related chemotactic cytokine IL-8 was superinduced by Cy. Moreover, Cy superinduced MCP gene expression in cells other than monocytes, including endothelial cells, smooth muscle cell and fibrosarcoma cells, indicating different mechanisms of regulation in mononuclear phagocytes vs cells of other lineages. The capacity of cells of the monocyte-macrophage lineage to produce a cytokine that recruits and activates circulating monocytes may be of considerable importance in inflammatory and immunologic reactions. Thus, the mononuclear phagocyte system can autonomously regulate the extravasation and activation of immature elements of the same lineage, a key event in inflammation and immunity.
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PMID:Expression of a monocyte chemotactic cytokine by human mononuclear phagocytes. 137 May 16

The mucosal immune system consists of a number of compartments that are populated with a different assortment of cells and serve different functions. The cytokines produced by the cells in each of these compartments are currently being defined. This is best understood in relation to B cells, whose proliferation and maturation is guided by a sequence of cytokines. PP are inductive sites that preferentially stimulate IgA production. At least in part, this preference seems to be due to the T cells located in PP, which have been shown to stimulate switching to IgA production by cognate interactions and production of TGF-beta. Postswitch B cells expressing surface IgA respond to IL-5, a cytokine produced by T cells in GALT. Terminal differentiation to IgA-producing plasma cells in the lamina propria may be driven by IL-6, which can be produced by a variety of cells in the lamina propria and by epithelial cells. T cells in the lamina propria have an assortment of surface markers consistent with both activation and memory and appear to produce a variety of cytokines in the local environment that presumably act in normal host defense. IEL consist mainly of CD8+ T cells. They have been shown to produce IFN-gamma and, very likely, other cytokines that presumably act in a paracrine fashion on local enterocytes. How these cells and cytokines are perturbed during intestinal inflammation is currently being defined. A certain assortment of cytokines are greatly increased in IBD. This assortment, including IL-1, IL-6, and IL-8, is elevated in a wide variety of chronic inflammatory states in other tissues as well. A critical requirement for cytokines to exert their effects is the expression of specific receptors on target cells. Virtually nothing is known about this aspect of mucosal immunity, but receptor expression on mucosal cells must be defined before we will be able to understand the complex interactions among lymphoid cells, the cytokines they produce, and the local stromal and epithelial cells.
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PMID:Cells and cytokines in mucosal immunity and inflammation. 151 47

There is increasing evidence that epidermal cytokines may have an important role in mediating inflammatory and immune responses in the skin. A number of cell types in the epidermis are capable of secreting cytokines including keratinocytes, Langerhans cells, melanocytic cells, and even Merkle cells. Keratinocytes are the major source of cytokines in the epidermis and have been reported to secrete IL-1, IL-3, IL-6, IL-8, CSF, TNF alpha, TGF alpha, TGF beta, and PDGF. Normally these cytokines are not actively secreted by keratinocytes; however, a number of agents are capable of mediating keratinocyte cytokine production, including cytokines themselves. We examined the effect of a number of cytokines on keratinocyte IL-1, IL-6, GM-CSF, and PDGF production. It was found that these keratinocyte cytokines are all modulated by one or more cytokines, including several that keratinocytes themselves secrete. These effects appear to be mediated by high-affinity cytokine receptors on keratinocytes. We are only beginning to understand the molecular mechanisms underlying the production, regulation, and precise role of keratinocyte cytokines in normal and diseased skin; however, recent studies suggest that cytokines secreted by epidermal cells and lymphoid cells may be important modulators of keratinocyte cytokine production.
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PMID:Cytokine modulation of keratinocyte cytokines. 216 84

Dendritic cells, the professional antigen-presenting cells (APC) involved in T cell priming, express CD40, a molecule which triggering plays a key role in B cell growth and differentiation as well as monocyte activation. Herein we demonstrate that dendritic Langerhans cells (D-Lc) generated by culturing cord blood CD34+ progenitor cells with granulocyte/macrophage colony-stimulating and tumor necrosis factor alpha (TNF-alpha) express functional CD40 at a density higher than that found on B cells. Culturing D-Lc on CD40-ligand (CD40L) transfected L cells allowed D-Lc survival as 50 +/- 15% of seeded cells were recovered after 4 d while only 5% survived over control L cells. CD40 activation induced important morphological changes with a reduction of cytoplasmic content and a remarkable increase of dendrite development as well as an altered phenotype. In particular, CD40 triggering induced maintenance of high levels of major histocompatibility complex class II antigens and upregulation of accessory molecules such as CD58, CD80 (B7-1) and CD86 (B7-2). CD40 engagement also seems to turn on D-Lc maturation as illustrated by upregulation of CD25, a molecule usually expressed on interdigitating dendritic cells of secondary lymphoid organs. Finally, CD40 activated D-Lc secreted a limited set of cytokines (TNF-alpha, IL-8, and macrophage inflammatory protein 1 alpha [MIP-1 alpha]) whereas a similar activation induced elutriated monocytes to secrete IL-1 alpha, IL-1 beta, IL-6, IL-8, IL-10, TNF-alpha, and MIP-1 alpha. As D-Lc activated T cells upregulated CD40L, it is likely that CD40 activation of D-Lc observed herein with a fibroblast cell line stably expressing CD40L, mimics physiological interactions between dendritic cells and T cells.
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PMID:Activation of human dendritic cells through CD40 cross-linking. 752 69

Chemoattractants, including chemokines such as interleukin 8 (IL-8) and related proteins, activate leucocytes via seven-transmembrane-domain G-protein-coupled receptors. A cDNA for a novel receptor of this kind consisting of 327 amino acids was isolated from a human blood monocyte cDNA library. The polypeptide, termed monocyte-derived receptor 15 (MDR15), is an alternative form of the Burkitt's lymphoma receptor 1 (BLR1) encoded by a human Burkitt's lymphoma cDNA [Dobner, Wolf, Emrich and Lipp (1992) Eur. J. Immunol. 22, 2795-2799]. MDR15 and BLR1 cDNAs differ in the 5' region, where the open reading frame of MDR15 is shorter by 45 codons. Southern-blot analysis indicates that the two transcripts for MDR15 and BLR1 are encoded by the same gene. Northern-blot analysis using a probe that hybridizes with both mRNAs demonstrated high-level expression in chronic B-lymphoid leukaemia and non-Hodgkin's lymphoma cells and, to a lesser extent, peripheral blood monocytes and lymphocytes. Reverse transcription-PCR studies with MDR15- and BLR1-specific primers showed similar levels of transcripts for both receptors in RNA that was positive in Northern-blot analysis. MDR15 and BLR1 have high structural similarity to receptors for human IL-8 (about 40% amino acid identity) and other chemokines. However, none of a series of radiolabelled chemokines (IL-8, NAP-2, GRO alpha, PF4, IP10, MCP-1, MCP-2, MCP-3, I-309, RANTES and MIP-1 alpha) and other ligands (C3a and leukotriene B4) bound to Jurkat transfectants that stably expressed either MDR15 or BLR1 mRNA. The fact that MDR15 and BLR1 are expressed on leucocytes and show marked sequence similarity to chemokine receptors suggests the existence of as yet unidentified chemokines. Alternative transcript formation affecting the 5'-terminal part of the coding region may be a way to modify ligand-binding selectivity.
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PMID:Sequence variation of a novel heptahelical leucocyte receptor through alternative transcript formation. 763 92

We established an improved non-radioactive in situ hybridization (ISH) method to detect mRNA of cytokines in cell preparations and tissues. Via this method we could demonstrate various cytokines in stimulated peripheral blood mononuclear cells (PBMC), lymphoid cell lines and human lymphoid tissues. The probes for the in situ hybridization were made by labelling cytokine-specific PCR products with digoxigenin (Dig) in a repeated PCR. This resulted in an intrinsic labelling of the probe with several Dig-UTP molecules. Incorporation of Dig-11-dUTPs was shown on ethidium bromide-stained agarose gels by a higher molecular weight of the PCR products with incorporated Dig-dUTPs when compared to control PCR products without digoxigenin. Cytospin-centrifuged cells of PHA-stimulated PBMC or lymphoid cell lines and frozen sections of various human lymphoid tissues were hybridized with the Dig-labelled cytokine probes and the hybridized probes were detected immuno-histochemically. In this way, we detected and localized cytokine mRNAs (IL-2, IL-4, IL-6, IL-8, IL-10) in PBMC, in the human T-cell line Jurkat, in the follicular lymphoma cell line DoHH2, and in human lymph nodes and tonsils. The in situ hybridization had a high sensitivity as the results correlated closely with the detection of cytokine mRNA by reverse transcriptase-PCR (RT-PCR) data from the same samples. We showed that Jurkat and DoHH2 cells produce several cytokines constitutively and that, after activation with the phorbol ester PMA, expression of several cytokine mRNAS was enhanced.
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PMID:An improved, sensitive, non-radioactive in situ hybridization method for the detection of cytokine mRNAs. 765 59

This study evaluated the efficacy and mode of action of rapamycin (RPM) in a model of accelerated (24-hr) rejection of LBNF1 cardiac allografts in specifically sensitized LEW rats. RPM treatment (0.25 mg/kg/day i.p.) between the day of sensitizing skin grafts (day -7) and subsequent heart (day 0) transplantation (Tx), abrogated fulminant rejection and prolonged cardiac allograft survival to 46 +/- 22 days (mean +/- SD, P < 0.0001). The delayed introduction of RPM until day -2 or day -1 was equally effective, whereas treatment initiated after cardiac Tx was ineffectual. Untreated accelerated rejection was associated with strong production of circulating IgM, whereas an IgG alloantibody response was not detected until after rejection was complete. RPM therapy (day -7 to -1) diminished this systemic IgM response and prevented the switch from IgM to IgG alloantibody production. Immunohistologic evaluation at 24 hr after cardiac Tx showed that compared with untreated hosts RPM treatment largely abolished intragraft cellularity, and was associated with decreased mononuclear and endothelial cell activation. Specifically, Ia and ICAM-1 upregulation was abolished, and no cells elaborating IL-2 or IFN-gamma were detected. In addition, RPM treatment prevented intragraft production of the proinflammatory cytokines IL-1 beta, IL-6, and IL-8. The effects of RPM therapy on recipient cellular responses were evaluated in vitro by mixed lymphocyte reaction. Surprisingly, the donor-specific proliferative response of cells from RPM-treated hosts at 1 or 7 days after Tx was markedly increased, compared with cells from rejecting, untreated controls, and bioassay of IL-2 within supernatants of MLR cultures showed comparable levels of IL-2 in both groups. The effects of RPM upon adhesion properties of lymph node lymphocytes were also tested in an in vitro binding assay. The binding of naive cells to sections of cardiac allografts collected from RPM-treated hosts at 24 hr post-Tx was decreased compared with that in untreated recipients. Interestingly, the binding of mononuclear cells to high endothelial venules of peripheral lymph nodes in RPM-treated hosts remained relatively high. Thus, treatment with RPM prevents and/or erases the sensitization, which otherwise leads to accelerated allograft rejection. Abrogation of allograft injury by RPM was associated with profound and long-lasting depression of host IgM and IgG alloantibody responses in the circulation, and selective downregulation of host cellular immunity and endothelial activation at the graft site. In contrast, antigen alloreactivity and endothelial adhesivity in peripheral lymphoid tissues were spared, indicating novel and potent selective effects of RPM therapy in allograft recipients.
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PMID:Abrogation by rapamycin of accelerated rejection in sensitized rats by inhibition of alloantibody responses and selective suppression of intragraft mononuclear and endothelial cell activation, cytokine production, and cell adhesion. 815 43

Reactive oxygen intermediates (ROIs) are involved in many neurological diseases. Despite the toxic nature of these compounds, low concentrations of ROIs can function as signaling molecules. One target for their signaling function is the inducible transcription factor NF-kappa B. Predominantly in lymphoid cells, induction of NF-kappa B in response to oxidative stress leads to transcriptional activation of many genes which are relevant for pathogen defense. These include the TNF, IL-6, IL-8, GM-CSF, beta-interferon, MHC class I and V-CAM genes. However, NF-kappa B is also abundant in various cell types of the nervous system, including neurons. We propose that NF-kappa B plays a role as a redox-controlled transcriptional activator also in cells of the nervous system and in that property may contribute to neurological disorders. Our finding that some neurons from healthy brain contain constitutively active NF-kappa B suggests a role of NF-kappa B in normal brain function as well.
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PMID:Potential involvement of the transcription factor NF-kappa B in neurological disorders. 826 32

Primary infection with Epstein-Barr virus (EBV) may arise as infectious mononucleosis (IM) in adolescents and young adults. Morphologically, IM-affected lymphoid tissue is characterized by expanded interfollicular areas with formation of atypical lymphoid blasts. It is assumed that morphology and clinical presentation of IM are related to characteristic patterns of cytokine production by EBV-infected and reactive cells. We studied IM tonsils of eight patients and six normal tonsils with a double in situ hybridization procedure using [35S]-labeled RNA probes specific for various cytokines and digoxigenin-labeled probes for the detection of the nuclear EBV encoded RNA transcripts, EBER 1 and 2. All of the IM cases displayed the same distinct cytokine gene expression pattern. When compared with interfollicular areas of normal tonsils, expression of lymphotoxin (LT), tumor necrosis factor-alpha (TNF-alpha), interleukin-6 (IL-6), and IL-1 beta, but not IL-8 or IL-1 alpha was strongly enhanced in interfollicular areas in IM tonsils. LT was expressed predominantly by EBV-infected cells. TNF-alpha transcripts were also present in EBV-infected cells, although in smaller proportions. IL-6 specific signals were only found in few EBV-infected cells. IL-1 alpha-, IL-1 beta-, and IL-8-specific signals were not observed in EBV-infected cells, but were present at high signal intensity in many cells within and around foci of EBV-infected cells (IL-1 beta), next to areas of necrosis (IL-8, IL-1 beta), or in epithelial cells (IL-1 alpha). These data suggest that EBV infection in form of IM results in induction of specific sets of cytokine genes in EBV-infected and in neighboring EBV-negative cells contributing to the characteristic morphology and cellular arrangement of the lesion as well as the clinical presentation.
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PMID:Patterns of cytokine gene expression in infectious mononucleosis. 829 33

Neutral endopeptidase 24.11 (NEP/CALLA/CD10), an enzyme expressed on early lymphoid progenitors, neutrophils, and various other cell types, inactivates many biologically active peptides, including the bacterial chemotactic peptide N-formylmethionyl-leucyl-phenylalanine (fMLP). Inhibition of CD10/NEP on the surface of human neutrophils (PMNs) in vitro inhibits migration toward this chemotaxin, suggesting that enzymatic inactivation by NEP regulates the neutrophil response to fMLP. Because PMNs in inflammatory sites are exposed to various cytokines, we evaluated the effects of selected cytokines on CD10/NEP activity in vitro. Of five cytokines tested--interleukin-1 (IL-1), IL-6, and IL-8, granulocyte colony-stimulating factor, and granulocyte-macrophage colony-stimulating factor (GM-CSF)--GM-CSF provided the most consistent increase in surface NEP activity. Low concentrations (10(-9)-10(-7) M) of GM-CSF increased NEP activity in a time- and concentration-dependent manner to more than 225% that of control (phosphate-buffered saline-treated) cells. Cytofluorometry of cells stained with a fluorescent antibody to CD10 indicated that GM-CSF increased expression of surface CD10/NEP antigen in a similar manner. The effect of GM-CSF on NEP activity was enhanced still further by simultaneous exposure to IL-1, suggesting that combinations of cytokines may direct and regulate the neutrophil response within an inflammatory site. Rapid upregulation of CD10/NEP underscores the importance of this enzyme for control of peptide mediators of inflammation.
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PMID:Up-regulation of neutral endopeptidase (CALLA) in human neutrophils by granulocyte-macrophage colony-stimulating factor. 831 51


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