Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: HUMANGGP:031995 (CXCL1)
 2,264 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Chemokines/intercrines are structurally and functionally related cytokines that induce specific actions on the immune system and are released in response to infection, inflammation, and trauma. These pathological processes are frequently accompanied with food intake suppression. In the present study, the action of chemokines/intercrines on the regulation of feeding was investigated using the intracerebroventricular microinfusion of chemokine/intercrine-alpha subfamily members [interleukin-8 (IL-8); growth-related cytokine/melanoma growth-stimulating activity (GRO-alpha/MGSA); platelet factor-4 (PF-4); beta-thromboglobulin (beta-TG); and interferon-inducible protein-10 (IP-10)] and beta-subfamily members [monocyte chemotactic protein-1/monocyte chemotactic and activating factor (MCP-1/MCAF); regulated upon activation normal T-cell expressed and presumably secreted (RANTES); macrophage inflammatory protein-1 alpha (MIP-1 alpha); and macrophage inflammatory protein-1 beta (MIP-1 beta)]. The doses administered were 1.0, 20, and 100 ng/rat of the chemokine/intercrine. The intracerebroventricular administration of three members of the alpha-subfamily (IL-8, PF-4, and IP-10) and two members of the beta-subfamily (MCP-1/MCAF and RANTES) decreased the short-term (2-h) food intake. These effective chemokines/intercrines, however, were significantly less potent than IL-1 beta in decreasing feeding. The results support the hypothesis that only a subset of immunomodulators released during pathological processes may participate in the regulation of feeding with different potencies.
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PMID:Chemokines/intercrines and central regulation of feeding. 751 92

Chemokines are a family of low molecular mass proteins with chemotactic and cell activating activities. Reverse transcription-polymerase chain reaction and Northern hybridization were used to examine their expression during murine experimental allergic encephalomyelitis (EAE), an autoimmune disease used as a model of multiple sclerosis. The mRNAs encoding RANTES, MIP-1 alpha, MIP-1 beta, TCA3 (I-309), IP-10, JE (MCP-1), KC (MGSA/gro), and MARC (MCP-3) were induced in the spinal cord 1-2 days before clinical signs were apparent. SDF, a cDNA predicted to encode a chemokine-like product, was expressed in normal as well as diseased spinal cords. No expression of C10 or MIP-2 was detected. Activated encephalitogenic T cells expressed message for RANTES, MIP-1 alpha, MIP-1 beta, and TCA3. These results define a subset of chemokines that may play an important role in the inflammatory process during murine EAE.
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PMID:Chemokine expression in murine experimental allergic encephalomyelitis. 753 12

The solution structure of the chemokine RANTES (regulated on activation, normal T-cell expressed and secreted) has been determined using NMR spectroscopy. Backbone and side-chain 1H and 15N assignments have been obtained using a combination of two-dimensional homonuclear and three-dimensional heteronuclear spectra. Regular elements of secondary structure have been identified on the basis of a qualitative interpretation of NOE data, J(NH-H alpha) coupling constants, and amide exchange rates. Three-dimensional structures were calculated from a total of 2146 experimental restraints using a combination of distance geometry and simulated annealing protocols. For the 13 best structures the average backbone (N, C alpha, C) atomic rmsd from the mean coordinates for residues 5-65 is 0.64 A (+/- 0.14 A) for the dimer and 0.50 A (+/- 0.08 A) for the individual monomers. Each monomer consists of a three-stranded antiparallel beta-sheet (residues 26-30, 38-43, 48-51) in a Greek key motif with a C-terminal helix (56-65) packed across the sheet, an arrangement similar to the monomeric structure of other members of this chemokine family (IL-8, PF4, MGSA/Gro alpha, and MIP-1 beta). Overall, the RANTES dimer resembles that previously reported for MIP-1 beta.
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PMID:The three-dimensional solution structure of RANTES. 754 19

We have demonstrated that the orphan receptor representing the putative mouse (mu) homolog of the human (hu) interleukin-8 receptor beta (IL-8R beta) binds the mouse N51 cytokine, also known as KC. The muIL-8R beta gene was constitutively expressed in NIH 3T3 cells (NIH-muIL-8R beta). Cells and plasma membranes from the NIH-muIL-8R beta clone showed binding of 125I-N51 that was displaced by unlabeled N51. Other related cytokines were assayed for their ability to displace 125I-N51. MIP-2 and GRO alpha/MGSA competed as well as N51 for the receptor, but huIL-8 and NAP-2 did not compete at all. Chimeric molecules between IL-8 and N51 were used to extend the binding analysis. The segment between the conserved cysteines 2 and 3, named domain I; cysteines 3 and 4, domain II; and cysteine 4 and the C terminus, domain III of IL-8 were replaced by the corresponding domains of N51 and vice versa. When studying the binding of 125I-N51 and the hybrid molecules to the receptor, we observed that chimeras of N51 containing either domain I, II, or III of IL-8 were agonists of N51, and chimeras of IL-8 containing domain II or III of N51 were partial agonists of N51. These results demonstrate that domain I of N51 does not confer binding specificity and suggest that the region from the third cysteine to the C terminus of the N51 molecule is more important for binding to muIL-8R beta.
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PMID:The orphan mouse receptor interleukin (IL)-8R beta binds N51. Structure-function analysis using N51/IL-8 chimeric molecules. 789 Jun 4

Synovial pannus represents a hypertrophic and locally invasive connective tissue response to chronic inflammation that accounts in large part for the periarticular destruction of rheumatoid arthritis. Synovial fibroblasts cultured from rheumatoid synovia have been found to display an increased rate of proliferation and the constitutive expression of collagenases, growth factors, and inflammatory cytokines. The existence in rheumatoid synovium of both a pro-inflammatory state and growth dysregulation led us to investigate the expression by synovial fibroblasts of the closely homologous cytokines GRO alpha (gro/MGSA), GRO beta (MIP-2 alpha), and GRO gamma (MIP-2 beta). These cytokines are released by a variety of cell types and display overlapping growth regulatory and pro-inflammatory activities. In contrast to expectations, the majority of synovial fibroblast cell lines derived from osteoarthritic or non-inflammatory synovia showed a relative increase in the constitutive expression of GRO alpha and GRO beta when compared to synovial fibroblasts obtained from rheumatoid synovia. Considered together with evidence that GRO alpha is a growth regulator that modulates the expression of metalloproteinase activity, these findings provide evidence for a differential pathway of cytokine activation that may downregulate the proliferative and erosive response to chronic arthritis.
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PMID:Differential expression of the small inducible cytokines GRO alpha and GRO beta by synovial fibroblasts in chronic arthritis: possible role in growth regulation. 800 35

Cytokines are a heterogenous group of polypeptide mediators that have been associated with activation of numerous functions, including the immune system and inflammatory responses. The cytokine families include, but are not limited to, interleukins (IL-I alpha, IL-I beta, ILIra and IL-2-IL-15), chemokines (IL-8/ NAP-I, NAP-2, MIP-I alpha and beta, MCAF/MCP-1, MGSA and RANTES), tumor necrosis factors (TNF-alpha and TNF-beta), interferons (INF-alpha, beta and gamma), colony stimulating factors (G-CSF, M-CSF, GM-CSF, IL-3 and some of the other ILs), growth factors (EGF, FGF, PDGF, TGF alpha, TGF beta and ECGF), neuropoietins (LIF, CNTF, OM and IL-6), and neurotrophins (BDNF, NGF, NT-3-NT-6 and GDNF). The neurotrophins represent a family of survival and differentiation factors that exert profound effects in the central and peripheral nervous system (PNS). The neurotrophins are currently under investigation as therapeutic agents for the treatment of neurodegenerative disorders and nerve injury either individually or in combination with other trophic factors such as ciliary neurotrophic factor (CNTF) or fibroblast growth factor (FGF). Responsiveness of neurons to a given neurotrophin is governed by the expression of two classes of cell surface receptor. For nerve growth factor (NGF), these are p75NTR (p75) and p140trk (referred to as trk or trkA), which binds both BDNF and neurotrophin (NT)-4/5, and trkC receptor, which binds only NT-3. After binding ligand, the neurotrophin-receptor complex is internalized and retrogradely transported in the axon to the soma. Both receptors undergo ligand-induced dimerization, which activates multiple signal transduction pathways. These include the ras-dependent pathway utilized by trk to mediate neurotrophin effects such as survival and differentiation. Indeed, cellular diversity in the nervous system evolves from the concerted processes of cell proliferation, differentiation, migration, survival, and synapse formation. Neural adhesion and extracellular matrix molecules have been shown to play crucial roles in axonal migration, guidance, and growth cone targeting. Proinflammatory cytokines, released by activated macrophages and monocytes during infection, can act on neural targets that control thermogenesis, behavior, and mood. In addition to induction of fever, cytokines induce other biological functions associated with the acute phase response, including hypophagia and sleep. Cytokine production has been detected within the central nervous system as a result of brain injury, following stab wound to the brain, during viral and bacterial infections (AIDS and meningitis), and in neurodegenerative processes (multiple sclerosis and Alzheimer's disease). Novel cytokine therapies, such as anticytokine antibodies or specific receptor antagonists acting on the cytokine network may provide an optimistic feature for treatment of multiple sclerosis and other diseases in which cytokines have been implicated.
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PMID:Neurotrophins and their receptors in nerve injury and repair. 910 50

Murine macrophage inflammatory protein-2 (MIP-2), a member of the alpha-chemokine family, is one of several proteins secreted by cells in response to lipopolysaccharide. Many of the alpha-chemokines, such as interleukin-8, gro-alpha/MGSA, and neutrophil activating peptide-2 (NAP-2), are associated with neutrophil activation and chemotaxis. We describe the expression, purification, and characterization of murine MIP-2 from Pichia pastoris. Circular dichroism spectroscopy reveals that MIP-2 exhibits a highly ordered secondary structure consistent with the alpha/beta structures of other chemokines. Recombinant MIP-2 is chemotactic for human and murine neutrophils and up-regulates cell surface expression of Mac-1. MIP-2 binds to human and murine neutrophils with dissociation constants of 6.4 nM and 2.9 nM, respectively. We further characterize the binding of MIP-2 to the human types A and B IL-8 receptors and the murine homologue of the IL-8 receptor. MIP-2 displays low-affinity binding to the type A IL-8 receptor (Kd > 120 nM) and high-affinity binding to the type B IL-8 receptor (Kd 5.7 nM) and the murine receptor (Kd 6.8 nM). The three-dimensional structure of IL-8 and sequence analysis of six chemokines (IL-8, gro-alpha, NAP-2, ENA-78, KC, and MIP-2) that display high-affinity binding to the IL-8 type B receptor are used to identify an extended N-terminal surface that interacts with this receptor. Two mutants of MIP-2 establish that this region is also involved in binding and activating the murine homologue of the IL-8 receptor. Differences in the sequence between IL-8 and related chemokines identify a unique hydrophobic/aromatic region surrounded by charged residues that is likely to impart specificity to IL-8 for binding to the type A receptor.
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PMID:Functional and receptor binding characterization of recombinant murine macrophage inflammatory protein 2: sequence analysis and mutagenesis identify receptor binding epitopes. 926 Feb 77

The solution structure of murine macrophage inflammatory protein-2 (MIP-2), a heparin-binding chemokine that is secreted in response to inflammatory stimuli, has been determined using two-dimensional homonuclear and heteronuclear NMR spectroscopy. Structure calculations were carried out by means of torsion-angle molecular dynamics using the program X-PLOR. The structure is based on a total of 2390 experimental restraints, comprising 2246 NOE-derived distance restraints, 44 distance restraints for 22 hydrogen bonds, and 100 torsion angle restraints. The structure is well-defined, with the backbone (N, Calpha, C) and heavy atom atomic rms distribution about the mean coordinates for residues 9-69 of the dimer being 0.57 +/- 0.16 A and 0.96 +/- 0.12 A, respectively. The N- and C-terminal residues (1-8 and 70-73, respectively) are disordered. The overall structure of the MIP-2 dimer is similar to that reported previously for the NMR structures of MGSA and IL-8 and consists of a six-stranded antiparallel beta-sheet (residue 25-29, 39-44, and 48-52) packed against two C-terminal antiparallel alpha-helices. A best fit superposition of the NMR structure of MIP-2 on the structures of MGSA, NAP-2, and the NMR and X-ray structures of IL-8 are 1.11, 1.02, 1.27, and 1.19 A, respectively, for the monomers, and 1.28, 1.10, 1.55, and 1.36 A, respectively, for the dimers (IL-8 residues 7-14 and 16-67, NAP-2 residues 25-84). At the tertiary level, the main differences between the MIP-2 solution structure and the IL-8, MGSA, and NAP-2 structures involve the N-terminal loop between residues 9-23 and the loops formed by residues 30-38 and residues 53-58. At the quaternary level, the difference between MIP-2 and IL-8, MGSA, or NAP-2 results from differing interhelical angles and separations.
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PMID:Solution structure of murine macrophage inflammatory protein-2. 962 82

Chemokines play an essential role in immune and inflammatory reactions via the recruitment of leukocytes. Studying the role of chemokines in vivo is complicated by the redundancy of their action and by their promiscuous receptor usage. The simultaneous analysis of several chemokines is, therefore, advantageous in order to obtain a comprehensive view of chemokine participation in inflammatory and infectious processes. At present, no multi-probe detection systems are available for the analysis of recently described chemokines. In this study, new multi-probe RNase protection assay (RPA) template sets were developed for the analysis of murine chemokines. Chemokine cDNA fragments were generated by RT-PCR and individually subcloned into the plasmid pGEM-T providing a T7 promotor. In this way, two multi-probe template sets were constructed each containing six chemokine sequences (CXCL12/SDF-1, XCL1/lymphotactin, CCL20/exodus-1, CCL25/TECK, CX3CL1/fractalkine, CXCL1/KC, and CCL20/MDC, CXCL9/MIG, CCL9/10/MIP-1gamma, CXCL13/BLC, CCL12/MCP-5, CCL19/ELC, respectively) and templates for the two house-keeping genes L32 and GAPDH. The evaluation of these RPA template sets in various murine models demonstrated their suitability for the analysis of the above chemokines both under constitutive and infection-induced conditions. To reduce the personal radiation hazard, we found that 32P could be replaced by 33P without any loss of assay-sensitivity. These new RPA multi-probe sets provide valuable tools for the simultaneous quantitative determination of gene expression of multiple murine chemokines of both constitutive and inducible type.
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PMID:Novel multi-probe RNase protection assay (RPA) sets for the detection of murine chemokine gene expression. 1122 73


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