Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.24.59 (MIP)
 4,906 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chemokines, a superfamily of 8- to 11-kDa mediators of inflammation, affect the attachment of immune cells to vascular endothelia by binding to cell surface glycosaminoglycans. We analyzed whether chemokines are also involved in interactions between CD4+ T lymphocytes and the subendothelial extracellular matrix (ECM). Soluble mediators, such as MIP-1 beta and RANTES, induced the binding of resting human CD4+ T cells to ECM in an integrin-dependent manner. Both MIP-1 beta and RANTES bound to intact ECM and retained their adhesive properties, and moreover, ECM-bound RANTES and MIP-1 beta prolonged the time course of interactions between the CD4+ T cells and the ECM. Because the adhesive effect of these chemokines was restricted by an inhibitor of GTP-binding proteins, the adhesive effect of ECM-bound RANTES and MIP-1 beta, which requires an intact cytoskeleton, seems to involve activation of a G protein-linked receptor. MIP-1 beta and RANTES exert their pro-adhesive effects through interactions with glycosaminoglycans, because heparinase-treated ECM did not bound chemokines and because the chemokines ability to induce T cell adhesion was abrogated if: 1) either of the chemokines is pretreaed with heparin or heparan-sulfate (HS), 2) HS is removed from intact ECM by heparinase, an HS-specific endoglycosidase, or 3) the ECM-bound chemokines are released by pretreatment with heparinase. Hence, the adhesive effects of immobilized chemokines is not restricted to T cells interacting with endothelial cells, but also affects the migration of immune cells which reside and function in the context of ECM.
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PMID:Regulation of adhesion of CD4+ T lymphocytes to intact or heparinase-treated subendothelial extracellular matrix by diffusible or anchored RANTES and MIP-1 beta. 752 18

Whether the chemokines macrophage inflammatory protein-1 beta (MIP-1 beta) and regulated on activation normal T expressed and secreted (RANTES), which interact specifically with glycosaminoglycans and thus mediate the recruitment, attachment, and migration of leukocytes to vascular endothelia and extracellular matrix, are also involved in interactions between CD4+ murine T lymphocytes and keratinocytes was examined. We have previously observed that depending on the local pH, a mammalian extracellular matrix-degrading enzyme, endo-beta-D glucuronidase (heparanase), which cleaves heparin sulfate proteoglycans, can function wither as an enzyme or as an adhesion molecule for CD4+ T lymphocytes. Herein, the involvement of heparanase in T cell-keratinocyte interactions was also probed. At 37 degree C and pH 7.2, radioactively labeled MIP-1 beta, RANTES, and heparanase bound to confluent layers of resting keratinocytes in a saturable and an heparan sulfate- or heparin-dependent manner, and thereby induced the adhesion of resting CD4+ T cells to keratinocytes. At a relatively acidic pH characteristic of inflammatory milieu, enzymatically active heparanase did not bind to the keratinocytes but, rather, inhibited the binding of MIP-1beta, RANTES, and the enzymatically quiescent heparanase to keratinocytes. These results suggest that certain chemokines and heparanase may function to restrict passing leukocytes, notable T lymphocytes, in the cutaneous micro-environment, a site which is continuously challenged with antigens. These keratinocyte-bound lymphocytes can serve as a reservoir of immediate responders to immunological stimuli.
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PMID:Keratinocytes-associated chemokines and enzymatically quiescent heparanase induce the binding of resting CD4+ T cells. 860 23

The major proteoglycan in macrophages and platelets is the chondroitin sulphate proteoglycan serglycin. To study the biological role of serglycin, its binding to secreted and cell-associated proteins from macrophages and blood platelets was examined. Affinity chromatography with serglycin-Sepharose and chondroitin sulphate-Sepharose was used to isolate proteoglycin-binding proteins from macrophages and platelets. Antibodies against human macrophage inflammatory protein-1 alpha (MIP-1 alpha) precipitated a 14-kDa 35S-methionine-labeled protein among the chondroitin sulfate binding proteins secreted from the macrophage-like U937 cells after stimulation. Two proteins from murine macrophage J774 cells with molecular masses of approximately 10 and 14 kDa were precipitated by an antiserum against the murine MIP-1 alpha. Protein sequencing of fragments obtained by trypsin digestion of a 14-kDa chondroitin sulfate-binding protein from cell extracts of stimulated U937 cells revealed 100% homology with lysozyme, a bacteriolytic enzyme. Fragment of one other protein with approximate molecular mass of 8 kDa showed high homology with bone morphogenetic protein. Inhibition studies showed that chondroitin 6-sulfate inhibited the bacteriolytic activity of lysozyme in a competitive manner more efficiently than heparin and chondroitin 4-sulphate. Amino-terminal sequencing of two proteins from platelet extracts that bound to serglycin-Sepharose revealed that they corresponded to multimeric forms of human platelet factor 4 (PE4). Chondroitin sulfate-Sepharose was shown to be equally efficient in retaining PF4 from platelet extracts as serglycin-Sepharose indicating that the glycosaminoglycan chains mediate the binding to PF4 in the intact proteoglycan molecule. Competition experiments showed that serglycin was as efficient as heparin sulfate in blocking the binding of [3H] chondrotin sulfate to PF4, whereas heparin was one order of magnitude more efficient. Affinity measurements using fluoresceinamine-labeled glycosaminoglycans showed that the affinity of heparin for PF4 is on the order of 30 nM, whereas chondroitin sulfate has an affinity of 260 nM. Both PF4, MIP-1 alpha, and lysozyme play important role in different types of inflammatory reactions. The interaction with serglycin may indicate that this proteoglycan is involved in the regulation of the inflammatory response.
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PMID:Serglycin-binding proteins in activated macrophages and platelets. 861 3

Occupational exposure to vanadium is common in petrochemical, mining, steel, and utilities industries and results in toxic effects largely confined to the respiratory system. Vanadium exposure has been associated with inflammatory changes in the upper and lower respiratory tracts in addition to changes in pulmonary function. We investigated the abilities of several vanadium compounds to increase mRNA levels for selected cytokines in bronchoalveolar lavage (BAL) cells and also to induce pulmonary inflammation. Rats (200-250 g) were intratracheally instilled with either sodium metavanadate (NaVO3), vanadyl sulfate (VOSO4), vanadium pentoxide (V2O5) at several concentrations, or vehicle alone. Pulmonary inflammation was assessed by cytologic analysis of cells recovered from the respiratory tract (1 hr to 10 days postexposure). All three vanadium compounds were capable of inducing pulmonary inflammation in a dose-dependent manner. Neutrophil influx was greatest following exposure to VOSO4 (peaked at approximately 40% of cell population) and lowest following exposure to V2O5 (peaked at approximately 20 %). Significant neutrophil influx was detected as early as 4 hr following the instillation of NaVO3 and VOSO4 but not until 24 hr upon exposure to V2O5. The VOSO4-induced inflammatory response persisted longer (5 days) than that induced by NaVO3 and V2O5. Analysis of inflammatory cytokine mRNA expression closely followed these cytologic observations. Levels of mRNA for macrophage inflammatory protein-2 (MIP-2) and KC, considered the principal neutrophil chemotactic factors expressed in the rat, were rapidly induced as early as 1 hr following exposure, continued to be expressed throughout 48 hr, and were low but detectable at 5 and 10 days. NaVO3 and VOSO4, both very soluble forms of vanadium, tended to induce pulmonary inflammation and inflammatory cytokine mRNA expression more rapidly and more intensely than the less soluble form, V2O5. Analysis of KC mRNA expression in BAL cells 24 hr after instillation of NaVO3 by PCR in situ hybridization confirmed the increase in KC mRNA levels and indicated that alveolar macrophages have the highest expression level observed. Vanadium content of lavage fluid, BAL cells, and lung indicated rapid clearance of the metal from the lung surface and substantial accumulation by BAL cells and lung tissue. The rapid expression of MIP-2 and KC mRNA in BAL cells prior to the observed neutrophilia implicate them as important in the initiation of inflammation.
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PMID:Vanadium-induced chemokine mRNA expression and pulmonary inflammation. 865 98

The chemokines monocyte chemoattractant protein-1 (MCP-1) and macrophage inflammatory protein-1alpha (MIP-1alpha) aid in directing leukocytes to specific locales within the brain and spinal cord during central nervous system inflammation. However, it remains unclear how these chemokines exert their actions across a vascular barrier, raising speculation that interaction with endothelial cells might be required. Therefore, experiments were performed to determine whether binding domains for these chemokines exist along the outer surface of brain microvessels, a feature that could potentially relay chemokine signals from brain to blood. Using a biotinylated chemokine binding assay with confocal microscopy and three-dimensional image reconstruction, spatially resolved binding sites for MCP-1 and MIP-alpha around human brain microvessels were revealed for the first time. Binding of labeled MCP-1 and MIP-1alpha could be inhibited by unlabeled homologous but not heterologous chemokine, and was independent of the presence of heparan sulfate, laminin, or collagen in the subendothelial matrix. This is the first evidence of specific and separate binding domains for MCP-1 and MIP-1alpha on the parenchymal surface of microvessels, and highlights the prospect that specific interactions of chemokines with microvascular elements influence the extent and course of central nervous system inflammation.
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PMID:Visualization of chemokine binding sites on human brain microvessels. 1020 33

The ability of chemokines to bind to glycosaminoglycans (GAGs) on cell surfaces and in the extracellular matrix is thought to play a crucial role in chemokine function. We investigated the structural basis for chemokine binding to GAGs by using in vitro mutagenesis to identify amino acids of chemokine macrophage-inflammatory protein-1 beta (MIP-1 beta) that contribute to its interaction with the model GAG heparin. Among six basic residues that are organized into a single basic domain in the folded MIP-1 beta monomer, three (R18, K45, and R46) were found to contribute significantly to heparin binding. Of these, R46 was found to play a dominant role, and proved essential for the interaction of MIP-1 beta with both heparin and heparan sulfate in physiological salt. The results of this mutational analysis have implications for the structure of the MIP-1 beta-heparin complex, and a comparison of these results with those obtained by mutational analysis of the MIP-1 alpha-heparin interaction suggests a possible structural difference between the MIP-1 beta-heparin and MIP-1 alpha-heparin complexes. To determine whether GAG binding plays an important role in receptor binding and cellular activation by MIP-1 beta, the activities of wild-type MIP-1 beta and R46-substituted MIP-1 beta were compared in assays of T lymphocyte chemotaxis. The two proteins proved equipotent in this assay, arguing that interaction of MIP-1 beta with GAGs is not intrinsically required for functional interaction of MIP-1 beta with its receptor.
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PMID:Structure and function of the glycosaminoglycan binding site of chemokine macrophage-inflammatory protein-1 beta. 1043 52

We previously found that the tryptophan catabolite picolinic acid (PA) is a costimulus for the activation of macrophage effector functions. In this study, we have investigated the ability of PA to modulate the expression of chemokines in macrophages. We demonstrate that PA is a potent activator of the inflammatory chemokines MIP (macrophage inflammatory protein)-1 alpha and MIP-1 beta (MIPs) mRNA expression in mouse macrophages in a dose- and time-dependent fashion and through a de novo protein synthesis-dependent process. The induction by PA occurred within 3 h of treatment and reached a peak in 12 h. The stimulatory effects of PA were selective for MIPs because other chemokines, including monocyte chemoattractant protein-1, RANTES, IFN-gamma-inducible protein-10, MIP-2, and macrophage-derived chemokine, were not induced under the same experimental conditions and were not an epiphenomenon of macrophage activation because IFN-gamma did not affect MIPs expression. Induction of both MIP-1 alpha and MIP-1 beta by PA was associated with transcriptional activation and mRNA stabilization, suggesting a dual molecular mechanism of control. Iron chelation could be involved in MIPs induction by PA because iron sulfate inhibited the process and the iron-chelating agent, desferrioxamine, induced MIPs expression. We propose the existence of a new pathway leading to inflammation initiated by tryptophan catabolism that can communicate with the immune system through the production of PA, followed by secretion of chemokines by macrophages. These results establish the importance of PA as an activator of macrophage proinflammatory functions, providing the first evidence that this molecule can be biologically active without the need for a costimulatory agent.
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PMID:The tryptophan catabolite picolinic acid selectively induces the chemokines macrophage inflammatory protein-1 alpha and -1 beta in macrophages. 1070 21

Dendrimers are hyperbranched macromolecules that can be chemically synthesized to have precise structural characteristics. We used anionic, polyamidoamine, generation 3.5 dendrimers to make novel water-soluble conjugates of D(+)-glucosamine and D(+)-glucosamine 6-sulfate with immuno-modulatory and antiangiogenic properties respectively. Dendrimer glucosamine inhibited Toll-like receptor 4-mediated lipopolysaccharide induced synthesis of pro-inflammatory chemokines (MIP-1 alpha, MIP-1 beta, IL-8) and cytokines (TNF-alpha, IL-1 beta, IL-6) from human dendritic cells and macrophages but allowed upregulation of the costimulatory molecules CD25, CD80, CD83 and CD86. Dendrimer glucosamine 6-sulfate blocked fibroblast growth factor-2 mediated endothelial cell proliferation and neoangiogenesis in human Matrigel and placental angiogenesis assays. When dendrimer glucosamine and dendrimer glucosamine 6-sulfate were used together in a validated and clinically relevant rabbit model of scar tissue formation after glaucoma filtration surgery, they increased the long-term success of the surgery from 30% to 80% (P = 0.029). We conclude that synthetically engineered macromolecules such as the dendrimers described here can be tailored to have defined immuno-modulatory and antiangiogenic properties, and they can be used synergistically to prevent scar tissue formation.
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PMID:Polyvalent dendrimer glucosamine conjugates prevent scar tissue formation. 1525 95

In order to seek a novel biomarker for predicting skin sensitization, changes in the gene expression profile of THP-1 cells on exposure to 2,4-dinitrochlorobenzene (DNCB), p-phenylenediamine (pPD) and nickel sulfate (Ni) were assessed using oligo-DNA microarrays. While the change in gene expression varied depending on the sensitizers, up-regulation of MIP-1 beta mRNA expression was detected in both DNCB-treated and Ni-treated THP-1 cells. This finding was validated by RT-PCR and confirmed at the protein level by ELISA. Secretion of MIP-1 beta from THP-1 was detected after 24-h treatment with sensitizers such as DNCB, Ni, 2-mercaptobenzothiazole (2-MBT) and cobalt sulfate (Co), while pPD and non-sensitizers such as sodium dodecyl sulfate (SDS) and benzalkonium chloride (BC) had no effect. The use of both MIP-1 beta production and CD86 expression as criteria reduced the number of false-negatives, and the results were in good agreement with those of in vivo assays. MIP-1 beta may be useful as a novel biomarker in in vitro sensitization assay using THP-1 cells, either alone or in combination with known markers.
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PMID:MIP-1beta, a novel biomarker for in vitro sensitization test using human monocytic cell line. 1631 67

Leptin-deficient ob/ob mice exhibit several metabolic and immune abnormalities, including thymus atrophy and markedly reduced inflammatory responses. We evaluated whether transplantation of wild-type (WT) white adipose tissue (WAT) into ob/ob mice could mimic the effect of recombinant leptin administration in normalizing metabolic, immune and inflammatory abnormalities. Female ob/ob mice received a subcutaneous transplantation of WAT obtained from WT littermates. A separate group of ob/ob mice was sham-operated. Despite raising leptin levels to only 15% of those observed in WT mice, WAT transplantation normalized metabolic abnormalities (glycemia, ALT, liver weight) in ob/ob mice and prevented further body weight gain. The transplanted group demonstrated normalization of thymus and spleen cellularity, thymocyte subpopulations and rates of thymocyte apoptosis. In the model of dextran sulfate sodium-induced colitis, WAT transplantation restored inflammation to levels equivalent to those of WT mice. Colonic production of IL-6 and MIP-2 was markedly reduced in the non-transplanted ob/ob group compared to transplanted ob/ob and WT mice. Our data indicate that WAT transplantation is an effective way to normalize metabolic as well as immune and inflammatory parameters in ob/ob mice. The threshold of leptin sufficient to normalize metabolic, immune and inflammatory function is significantly lower than levels present in lean WT mice. Finally, leptin derived exclusively from WAT is sufficient to normalize metabolic, immune and inflammatory parameters in ob/ob mice.
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PMID:Transplantation of wild-type white adipose tissue normalizes metabolic, immune and inflammatory alterations in leptin-deficient ob/ob mice. 1736 40


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