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)

A model of the three-dimensional structure of the monocyte chemo-attractant and activating protein MCAF/MCP-1 is presented. The model is predicted based on the previously determined solution structure of interleukin-8 (IL-8/NAP-1) [Clore, G.M., Appella, E., Yamada, M., Matsushima, K. and Gronenborn, A.M. (1990) Biochemistry 29, 1689-1696]. Both proteins belong to a superfamily of cytokine proteins involved in cell-specific chemotaxis, host defense and the inflammatory response. The amino acid sequence identity between the two proteins is 24%. It is shown that the regular secondary structure elements of the parent structure can be retained in the modeled structure, such that the backbone hydrogen bonding pattern is very similar in the two structures. The polypeptide backbone is superimposable with an atomic r.m.s. difference of 0.9 A and all side chains can be modeled by transferring the parent side chain conformation to the new structure. Thus, the deduced structure, like the parent one, is a dimer and consists of a six-stranded antiparallel beta-sheet, formed by two three-stranded Greek keys, one from each monomer, upon which lie two symmetry-related antiparallel alpha-helices, approximately 24 A long and separated by approximately 14 A. All amino acid sequence changes can be accommodated within the parent polypeptide framework without major rearrangements. This is borne out by the fact that the IL-8/NAP-1 and modeled MCAF/MCP-1 structures have similar non-bonding energies. These results strongly suggest that both proteins and all other members of the superfamily most likely have the same tertiary structure.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modeling the three-dimensional structure of the monocyte chemo-attractant and activating protein MCAF/MCP-1 on the basis of the solution structure of interleukin-8. 185 12

The mast cell is one of the major effector cells in inflammatory reactions and can be found in most tissues throughout the body. During inflammation, an increase in the number of mast cells can be seen, e.g., in the intraepithelial cell layer after a provoked allergic reaction. Such accumulation probably requires directed migration of mature mast cells or their precursors. To study the migration of human mast cells we used as a model the human mast cell line, HMC-1, and stem cell factor-dependent (also referred to as mast cell growth factor or Kit ligand) cord blood-derived mast cells. The results show that stem cell factor is a potent chemotactic factor for human mast cells in vitro. The chemotactic response to SCF was found to be dose dependent, reaching a maximum at 50 ng/ml. The activity of SCF could be blocked by anti-SCF Abs. We also tested the effect of different intercrines, i.e., IL-8, MIP-1 alpha, MIP-1 beta, RANTES, and MCAF (also referred to as monocyte chemotactic protein 1), on human mast cell migration. Only RANTES was chemotactic for in vitro-developed mast cells. None of the tested intercrines induced migration of HMC-1 cells. For migration, the mast cells were dependent on binding to an extracellular matrix protein. Thus, coating of the filters with fibronectin was required, whereas collagen or laminin did not promote migration. Adhesion of HMC-1 cells to fibronectin could also be shown in an adhesion assay. In addition, expression of receptors for fibronectin could be detected on the surface of the mast cells. These results show that SCF is not only a growth and differentiation factor for human mast cells in vitro but also a potent chemoattractant for such cells.
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PMID:Stem cell factor is a chemotactic factor for human mast cells. 752 4

Chemokines are proinflammatory peptides regulating the functions of various hematopoietic cells. We have analyzed the effects of seven recombinant human (rh) chemokines (MCAF, RANTES, MIP-1 alpha, MIP-1 beta, IL-8, GRO, and IP-10) on the growth and function of human basophils and mast cells. We found that MCAF, but not RANTES, MIP-1 alpha, MIP-1 beta, IL-8, GRO, or IP-10, causes direct and dose-dependent histamine release from basophils (MCAF, 5 micrograms/ml: 26.9 +/- 3.4%; other chemokines: < 5% of total histamine). An increased (2.1 to 3.5-fold) response to MCAF was obtained when basophils were preincubated with rh interleukin-3 (100 units/ml). Moreover, IL-3-primed basophils became responsive to physiologic concentrations (< 1 microgram/ml) of MCAF, IL-8, and RANTES. None of the chemokines tested was able to induce histamine secretion in mast cells obtained from lung (n = 2), skin (n = 1), uterus (n = 3), or tonsils (n = 3), even when cells had been preincubated with the mast cell agonist SCF. The chemokines also failed to modulate the expression of activation antigens (CD11b/C3biR, CD25/IL-2R beta, CD63, IL-3R alpha, CD117/c-kit) on the mast cell line HMC-1 or the basophil cell line KU-812 and were unable to induce differentiation of basophils or mast cells in culture. Together, our results show that basophils respond to rhIL-8, rhMCAF, and rhRANTES and that, unlike human basophils, human mast cells are unresponsive to recombinant chemokines.
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PMID:Differential response of human basophils and mast cells to recombinant chemokines. 754 Dec 56

Leukemia inhibitory factor (LIF) is a cytokine released at the site of injuries where there is a recruitment of monocytes and polymorphonuclear cells. We analyzed the effect of LIF on human monocytes, which are a major source of chemotactic factors. We showed that supernatants of monocytes treated with LIF (50 ng/mL) for 18 hours had chemotactic activity for neutrophils and monocytes that was neutralized by anti-interleukin-8 (anti-IL-8) and anti-monocyte chemotactic and activating factor (anti-MCAF) neutralizing antibodies. Northern blot analysis showed induction of IL-8 and MCAF RNA in monocytes treated with LIF. Both IL-8 and MCAF mRNA were induced within 3 hours of stimulation. IL-8 and MCAF mRNAs expression peaked at 6 hours and 18 hours, respectively. Interferon-gamma (IFN-gamma), a potent monocyte activator, inhibited IL-8 induction by LIF. On the contrary, IFN-gamma by itself induced MCAF and did not affect the LIF-induced MCAF. These results indicate that LIF released at the site of injury by inducing IL-8 and MCAF can play an important role in recruiting leukocytes and that IFN-gamma can differentially regulate this recruitment.
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PMID:Leukemia inhibitory factor induces interleukin-8 and monocyte chemotactic and activating factor in human monocytes: differential regulation by interferon-gamma. 765 23

To study the effect of localised secretion of chemokines on tumour growth, the genes for human (hu) interleukin 8 (IL-8), hu-MCP-1 (MCAF), hu-MIP-1 alpha (LD78), murine (mu)-MCP-1 (JE), mu-MIP-1 alpha or mu-MIP-2 were introduced, via mammalian expression vectors, into Chinese hamster ovary (CHO) cells, and the ability of transfected cells to form tumours in vivo was evaluated. The production of hu-IL-8, hu-MIP-1 alpha or mu-MIP-1 alpha by transfected clones did not influence the growth rate in vitro, but drastically suppressed tumour growth when injected subcutaneously (s.c.) into nude mice. However, clones transfected with hu-MCP-1, mu-MCP-1 or mu-MIP-2 did not show any significant difference in growth rate in vivo compared with clones transfected with vector alone. Histological examination of the site of injection of CHO clones transfected with hu-IL-8, hu-MIP-1 alpha or mu-MIP-1 alpha showed predominantly neutrophilic infiltration. These results indicate that chemokines have potent anti-tumour activity when released, even at low doses, at the tumour site, which may be mediated by recruitment and targeting of neutrophilic granulocytes to chemokine-releasing cells. Our studies highlight the potential usefulness of localised chemokine secretion in inducing potent host anti-tumour defensive responses.
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PMID:Chemokine gene transfection into tumour cells reduced tumorigenicity in nude mice in association with neutrophilic infiltration. 766 85

We have tested the histamine releasing properties and priming abilities of a wide range of recombinant or purified cytokines and growth factors on the basophils of 20 subjects (10 atopic and 10 nonatopic). We found that monocyte chemotactic and activating factor/monocyte chemoattractant protein-1 (MCAF/MCP-1), RANTES, human macrophage inflammatory protein-1 alpha and human inflammatory protein-1 beta, Connective tissue activating peptide III and Neutrophil Activating Peptide-2 (NAP-2) cause histamine release from basophils and are all members of the intercrine/chemokine family. MCAF/MCP-1 was as potent as anti-IgE or C5a and it is clearly the major contributor to histamine releasing factor activity. RANTES was the second major histamine releasing factor among the positive cytokines. Both MCAF/MCP-1 and RANTES are present in conditioned mononuclear cell media and can be separated using Mono Q anion exchange chromatography. We also demonstrated that RANTES has unusual chromatographic properties in spite of its isoelectric point of > 9.0 because it is largely found in peak-2 of the Mono Q column rather than peak-1 in which intercrines such as MCAF/MCP-1, IL-8, and connective tissue activating peptide III are found. All other cytokines and growth factors tested were negative, with the exception of IL-3, which caused histamine release in a subpopulation of subjects, and also primed basophils for release by anti-IgE. Other basophil primers for anti-IgE-dependent histamine release were IL-5, mast cell growth factor (c-kit ligand), and insulin-like growth factor II. Using specific neutralizing antibodies we have shown that MCAF/MCP-1, RANTES, and IL-3 contribute significantly to the activity found in mononuclear cell culture supernatants. Granulocyte-macrophage-CSF, IP-10, I-309, IL-7, IL-8, IL-9, IL-10, IL-11, IgE-binding factor, TNF-alpha, TGF-beta 1, fibroblast growth factor, epidermal growth factor, and endothelial cell growth factor were negative for direct histamine release and as primers of basophils. Our results indicate that cytokines belonging to the intercrine/chemokine family are major constituents of the activity known as "histamine releasing factor" found in MNC supernatants.
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PMID:Characterization of the human basophil response to cytokines, growth factors, and histamine releasing factors of the intercrine/chemokine family. 767 99

A number of cytokines have been implicated in the suppression of myeloid stem and progenitor cell proliferation. It has been suggested that some of these act directly on the stem/progenitors themselves, based on the effects of these cells, plated in culture at low seeding densities, on highly enriched populations. These studies, however, do not definitively rule out effects on accessory cells. To more rigorously evaluate direct-acting suppressive effects of cytokines, such cytokines were assessed for their effects on colony formation initiated by single bone marrow (BM) or umbilical cord blood (CB) CD34 cells sorted into single wells in the presence of a combination of growth-stimulating cytokines (erythropoietin [Epo], steel factor [SLF], granulocyte-macrophage colony-stimulating factor [GM-CSF], and interleukin-3 [IL-3]) and in the presence or absence of serum. Under these conditions, it was demonstrated that H-ferritin, transforming growth factor-beta 1 (TGF-beta 1), and members of the chemokine family (macrophage inflammatory protein-1 alpha [MIP-1 alpha], MIP-2 beta, platelet factor 4 [PF4], IL-8, and macrophage chemotactic and activating factor [MCAF]) had direct significant suppressive activities on single stem/progenitor cells from adult human BM in the presence or absence of serum. Single sorted CB cells were much less sensitive to inhibition by these cytokines. The reasons for this differential sensitivity are not known. Of possible relevance to this for cytokines, such as H-ferritin and the chemokines that have actions during S-phase of the cell cycle, CB progenitors were in slower cycle at initiation of culture than were BM progenitors.
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PMID:Comparative effects of suppressive cytokines on isolated single CD34(3+) stem/progenitor cells from human bone marrow and umbilical cord blood plated with and without serum. 769 34

This thesis discusses the phenotypic characteristics of different inflammatory dermatological diseases and sets this into context with the specific chemotactic ability of different cytokines. It further discusses the biological properties of different chemotactic cytokines and their relevance in certain inflammatory diseases. The term chemotaxis was introduced in 1884 by Pfeffer, who described it as directional migration of leukocytes along a gradient. Regular studies of chemotaxis were, however, not possible until 1962 when Boyden developed the chemotaxis chamber technique. This test has since then been improved, and it is now possible to define and characterize chemoattractants and examine the special chemotactic behavior of leukocytes. We investigated T lymphocyte responses towards different chemoattractants using a modified Boyden chamber technique and found that approximately 50% of normal individuals have cells which respond whereas T-cells from the remaining persons did not respond. We therefore chose human T lymphocytic cell lines as target cells for chemotaxis screening to avoid inter-individual variations among donors. T lymphocytic infiltrates dominated by CD4+, CD45R0+ memory T cells are characteristic for many dermatological inflammatory diseases. We have therefore performed experiments to evaluate whether an earlier described epidermal lymphocyte chemotactic factor (ELCF) from skin overlying a tuberculin skin reaction in addition with other cytokines specifically attracts different subsets of lymphocytes. ELCF which probably reflects a mixture of different epidermal T lymphocyte chemotactic factors rather than a single factor was shown to specifically attract CD4+, CD45R0+ T lymphocytes in contrast to fMLP, IL-8, C5a and LTB4, which induced equal chemotaxis for both CD4+ and CD8+ T lymphocytes. A newly described inhibitory cytokine IL-10 selectively attracted the CD8+ subpopulation of T lymphocytes, and it is suggested that IL-10 could be an important factor in the downregulation of an inflammatory response. The recently discovered neutrophil chemotactic and activating factor IL-8 has been shown to be chemotactic for T lymphocytes as well. It belongs to a family of 8,000-10,000 KDa peptides of which a monocyte chemotactic and activating factor MCAF is also a member. We showed that mRNA for IL-8 could be expressed in highly purified T lymphocytes only upon stimulation with ionomycin and PHA or PMA and PHA, and to a lesser extent PMA and IL-2. This is consistent with other reports of T lymphocytes requiring two signals for cytokine production. We showed that it was only the CD4+ subpopulation of the T lymphocytes that expressed IL-8 mRNA.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Chemotactic cytokines and inflammation. Biological properties of the lymphocyte and monocyte chemotactic factors ELCF, MCAF and IL-8. 790 57

Monocyte chemotactic and activating factor/monocyte chemoattractant protein-1 (MCAF/MCP-1), RANTES, and macrophage inflammatory protein (MIP)-1 alpha are chemokines known to activate basophils (MCAF/RANTES) and eosinophils (RANTES/MIP-1 alpha). IL-8 inhibits MCAF-induced histamine release from basophils. We questioned whether a relationship exists between the levels of these chemokines and various inflammatory mediators released from mast cells, eosinophils, and basophils as assessed in nasal secretions obtained from patients during the allergy season and out of season. Samples were assessed for MCAF/MCP-1, RANTES, MIP-1 alpha, IL-8, histamine, tryptase and eosinophil cationic protein (ECP) in three subject groups: subjects with allergic rhinitis (n = 18), atopic subjects without rhinitis (n = 9), and healthy individuals (n = 6). Statistically significant differences were apparent only in the subjects with symptoms as follows. MCAF/MCP-1 increased during the season from 336 +/- 47 pg/ml to 829 +/- 137 pg/ml (p < 0.001), whereas IL-8 decreased from a baseline of 1932 +/- 335 pg/ml to 1070 +/- 202 pg/ml (p < 0.028). The ratio of IL-8 to MCAF/MCP-1 decreased during the symptomatic season from the baseline of 6.66 +/- 1.06 seen during winter to 1.3 +/- 0.22 during ragweed season (p < 0.001). Histamine increased from 6.3 +/- 1.5 to 89 +/- 15.5 ng/ml (p < 0.001), ECP increased from 20.6 +/- 6.4 to 237.1 +/- 50.2 ng/ml (p < 0.001), and tryptase increased from 2.34 +/- 0.6 to 9.7 +/- 2.3 U/ml (p < 0.001). Most samples did not have detectable quantities of MIP-1 alpha or RANTES. We also found a correlation between the level of MCAF/MCP-1 and IL-8 and the level of histamine or IL-8 and ECP. Our results suggest that the chemokines MCAF/MCP-1 and IL-8 may participate in the pathogenesis of allergic rhinitis, contributing to the attraction of the proinflammatory cells and mediator release, which might be very important during the late phase of the allergic reaction. Furthermore, the ratio of certain chemokines, such as MCAF/MCP-1 and IL-8 may reflect the magnitude of the reaction, as does the presence of histamine and ECP.
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PMID:Chemokines in seasonal allergic rhinitis. 856 22

Leishmania major, the causative agent of cutaneous leishmaniasis, is an intracellular parasite of monocytic cells. Leishmania lesions are characterized by recruitment of neutrophils, eosinophils, and blood monocytes. To clarify the mechanism of this cellular influx we examined the expression of IL-8 and MCAF, cytokines chemotactic for neutrophils and monocytes, respectively, in human monocytes infected by L. major. Supernatants of monocytes infected with L. major had chemotactic activity for neutrophils and monocytes that was neutralized by anti-IL-8 and anti-MCAF antibodies. Both IL-8 and MCAF mRNAs were induced within 1 hr of infection. Furthermore we showed that infection of monocytes with L. major induces IL-8 and MCAF but not the proinflammatory cytokines IL-1 beta and TNF alpha. These data suggest that the expression of chemokines may contribute to the cellular recruitment in Leishmania lesions.
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PMID:Leishmania major: infection of human monocytes induces expression of IL-8 and MCAF. 861 27


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