UMLS:C0043167 - FACTA Search

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Query: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Eosinophils were shown to play a major role in the allergic inflammatory process leading to the clinical symptoms of atopic dermatitis. Only selected cytokines are capable of inducing a chemotactic response in eosinophils. In particular, the chemokine RANTES was recently shown to be a potent eosinophil chemotaxin. To examine the role of RANTES in eosinophil activation, we investigated the effect of RANTES and other chemokines on morphology and oxidative metabolism of highly purified eosinophils of normal nonatopic blood donors by assessment of functional as well as morphologic criteria. RANTES, and, to a lesser extent, MIP-1 alpha significantly induced the production of reactive oxygen species by human eosinophils, whereas MCP-1, MIP-1 beta, and interleukin (IL)-8/NAP-1 had no significant effects. RANTES stimulated only a subpopulation of the normal eosinophils. With the exception of IL-8, none of the cytokines tested had any significant effect on polymorphonuclear neutrophilic granulocytes. By scanning electron microscopy, RANTES induced characteristic changes that were completely abrogated in the presence of cytochalasin B. Based on functional and ultrastructural assays significant extracellular but not intracellular H2O2 production was detected and completely inhibited by cytochalasin B. Separation of eosinophils by discontinuous density gradients revealed the existence of two hypodense eosinophil populations, one which showed significantly reduced responses upon stimulation with RANTES. RANTES-induced production of reactive oxygen species was almost completely inhibited by staurosporine, wortmannin, or pertussis toxin. Based on these data it is evident that RANTES represents a potent eosinophil-specific activator of oxidative metabolism. Besides its chemotactic activity on T cells and eosinophils, therefore, RANTES may be involved in the functional activation of eosinophils in the skin of patients with atopic dermatitis.
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PMID:The chemokine RANTES is more than a chemoattractant: characterization of its effect on human eosinophil oxidative metabolism and morphology in comparison with IL-5 and GM-CSF. 751 98

The C-C chemokines MIP-1 alpha, MCP-1, and RANTES, but not MIP-1 beta, induce the chemotaxis of NK and IL-2-activated NK (IANK) cells, as determined in microchemotaxis assay. Only RANTES and MCP-1, but not MIP-1 alpha were able to induce the chemokinesis of NK cells. In contrast, none of the C-C chemokines tested was able to induce the chemokinesis of IANK cells. IANK cell chemotaxis in response to MCP-1 or RANTES but not MIP-1 alpha, was inhibited by pertussis toxin (PT). In contrast, cholera toxin (CT) inhibited the ability of all three chemokines to induce the chemotaxis of IANK cells. IANK cells intoxicated with PT lost their ability to migrate in response to RANTES and MCP-1 but not MIP-1 alpha, whereas those intoxicated with CT lost their ability to migrate in response to the three C-C chemokines tested. These results suggest that guanine nucleotide binding (G) proteins are coupled to C-C chemokine receptors in IANK cells. Subsequently, we observed that MIP-1 alpha, MCP-1, and RANTES, but not MIP-1 beta, enhance the binding of guanosine 5'-O-(thiotriphosphate), and increase the hydrolysis of [32P]GTP in IANK cell membranes. Further analysis showed that MIP-1 alpha, RANTES, or MCP-1 did not enhance GTP binding in membranes prepared from IANK cells intoxicated with CT, whereas only RANTES and MCP-1 but not MIP-1 alpha lost their ability to enhance GTP binding to IANK cell membranes prepared from PT-intoxicated cells. The differential inhibitory activity of CT and PT suggests that C-C chemokine receptors are coupled to different G proteins in IANK cells.
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PMID:C-C chemokines induce the chemotaxis of NK and IL-2-activated NK cells. Role for G proteins. 752 19

We have previously reported that serum amyloid A (SAA) induces adhesion and chemotaxis of human monocytes and polymorphonuclear neutrophils, in vitro as well as in vivo. Since the mechanism of SAA signaling is unknown, we have investigated the possibility that SAA, like other chemoattractants such as the chemotactic peptide FMLP and chemokines, might induce migration of monocytes by G protein activation. We report here that preincubation of monocytes with pertussis toxin (PTx) inhibited SAA chemotaxis, while incubation with cholera toxin (CTx) did not. Staurosporine and H-7, both inhibitors of protein kinase C (PKC), significantly decreased rSAA-induced chemotaxis of monocytes, suggesting that PKC may be involved in the rSAA signaling pathway. Moreover, rSAA, at concentrations that were effective in chemoattracting monocytes, resulted in transient elevation of cytoplasmic calcium concentration ([Ca2+]i), and incubation of cells with PTx markedly inhibited the mobilization of Ca2+ in response to rSAA. This suggests that both chemotaxis and the rise in [Ca2+]i, are mediated by G proteins of the Gi class. The increase in [Ca2+]i, induced in monocytes by rSAA, was comparable to that elicited by FMLP, and was severalfold greater than that induced by optimal concentrations of chemokine beta-family members such as RANTES, MCAF/MCP-1, and MIP-1 alpha. The chemoattractants FMLP, RANTES, MIP-1 alpha, and MCAF/MCP-1, all failed to desensitize rSAA-induced Ca2+ influx and chemotaxis in monocytes. This suggests that SAA uses a distinct receptor that is coupled to PTx-sensitive G proteins.
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PMID:Serum amyloid A induces calcium mobilization and chemotaxis of human monocytes by activating a pertussis toxin-sensitive signaling pathway. 756 Nov 9

Leukocyte recruitment is a key step in the inflammatory reaction. Several changes in the cell morphology take place during lymphocyte activation and migration: spheric-shaped resting T cells become polarized during activation, developing a well defined cytoplasmic projection designated as cellular uropod. We found that the chemotactic and proinflammatory chemokines RANTES, MCP-1, and, to a lower extent, MIP-1 alpha, MIP-1 beta, and IL-8, were able to induce uropod formation and ICAM-3 redistribution in T lymphoblasts adhered to ICAM-1 or VCAM-1. A similar chemokine-mediated effect was observed during T cells binding to the fibronectin fragments of 38- and 80-kD, that contain the binding sites for the integrins VLA-4 and VLA-5, respectively. The uropod structure concentrated the ICAM-3 adhesion molecule (a ligand for LFA-1), and emerged to the outer milieu from the area of contact between lymphocyte and protein ligands. In addition, we found that other adhesion molecules such as ICAM-1, CD43, and CD44, also redistributed to the lymphocyte uropod upon RANTES stimulation, whereas a wide number of other cell surface receptors did not redistribute. Chemokines displayed a selective effect among different T cell subsets; MIP-1 beta had more potent action on CD8+ T cells and tumor infiltrating lymphocytes (TIL), whereas RANTES and MIP-1 alpha targeted selectively CD4+ T cells. We have also examined the involvement of cAMP signaling pathway in uropod formation. Interestingly, several cAMP agonists were able to induce uropod formation and ICAM-3 redistribution, whereas H-89, a specific inhibitor of the cAMP-dependent protein kinase, abrogated the chemokine-mediated uropod formation, thus pointing out a role for cAMP-dependent signaling in the development of this cytoplasmic projection. Since the lymphocyte uropod induced by chemokines was completely abrogated by Bordetella pertussis toxin, the formation of this membrane projection appears to be dependent on G proteins signaling pathways. In addition, the involvement of myosin-based cytoskeleton in uropod formation and ICAM-3 redistribution in response to chemokines was suggested by the prevention of this phenomenon with the myosin-disrupting agent butanedione monoxime. Interestingly, this agent also inhibited the ICAM-3-mediated cell aggregation, but not the cell adhesion to substrata. Altogether, these results demonstrate that uropod formation and adhesion receptor redistribution is a novel function mediated by chemokines; this phenomenon may represent a mechanism that significantly contributes to the recruitment of circulating leukocytes to inflammatory foci.
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PMID:Chemokines regulate cellular polarization and adhesion receptor redistribution during lymphocyte interaction with endothelium and extracellular matrix. Involvement of cAMP signaling pathway. 759 74

Chemotactic cytokines related to interleukin-8 (IL-8; CXC-chemokines) or monocyte chemotactic protein-1 (MCP-1; CC-chemokines) have been shown to stimulate human basophils, and are considered important tissue-derived mediators of inflammation. We have studied the effects of four CC-chemokines and show that MCP-1, RANTES (regulated on activation, normal T expressed and secreted) and macrophage inflammatory protein-1 alpha (MIP-1 alpha) are potent basophil agonists inducing a rapid change of cytosolic free calcium ([Ca2+]i), the release of histamine and sulfido-leukotrienes, and chemotaxis. MCP-1 was the most potent stimulus of release, and the only chemokine that induced marked exocytosis in basophils without pretreatment with interleukin-3. RANTES was the strongest stimulus of chemotaxis, but only a moderate stimulus of release. MIP-1 alpha elicited relatively weak chemotaxis and release responses, but was effective at considerably lower concentrations than MCP-1 and RANTES. MIP-1 beta, by contrast, despite its high homology to MIP-1 alpha, was totally inactive. Normodense human eosinophils, tested for comparison, responded in a similar fashion to RANTES and MIP-1 alpha, but were unresponsive to MCP-1 and MIP-1 beta. All CC-chemokines except MIP-1 beta induced a similar rapid and transient rise of [Ca2+]i that was sensitive to pertussis toxin, indicating that they activate basophils via G-protein-coupled receptors. Cross-desensensitization experiments indicate that basophils bear different CC-chemokine receptors. Some interact selectively with MCP-1 or RANTES, while others are shared by RANTES and MIP-1 alpha.
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PMID:RANTES and related chemokines activate human basophil granulocytes through different G protein-coupled receptors. 768 Jun 15

We have examined the ligand specificity and signal transduction pathways of a recently cloned receptor for monocyte chemoattractant protein-1 (MCP-1). In human 293 cells stably transfected with the MCP-1 receptor, MCP-1 bound specifically with high affinity (Kd = 260 pM) and induced a rapid mobilization of calcium from intracellular stores. The closely related chemokines MIP-1 alpha, MIP-1 beta, RANTES, interleukin 8 (IL-8), and Gro-alpha were inactive at concentrations as high as 300 nM. Activation of the MCP-1 receptor potently inhibited adenylyl cyclase with an IC50 = 90 pM. Activation of the MIP-1 alpha/RANTES receptor also mediated inhibition of adenylyl cyclase activity but with a different pharmacological profile: MIP-1 alpha (110 pM, IC50), RANTES (140 pM), MIP-1 beta (10 nM), and MCP-1 (820 nM). Mobilization of intracellular calcium and inhibition of adenylyl cyclase were blocked by pertussis toxin, suggesting that the MCP-1 receptor coupled to G alpha i. These results demonstrate that the MCP-1 receptor binds and signals in response to picomolar concentrations of MCP-1 in a highly specific manner. Signaling was manifested as mobilization of intracellular calcium and inhibition of adenylyl cyclase and was mediated by a pertussis toxin-sensitive G-protein(s).
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PMID:Signal transduction and ligand specificity of the human monocyte chemoattractant protein-1 receptor in transfected embryonic kidney cells. 789 Jul 8

The responses of lymphocytes to six CC chemokines--MCP-1, MCP-2, MCP-3, MIP-1 alpha, MIP-1 beta, and RANTES--were studied using cloned human CD4+ and CD8+ T cells. All CC chemokines tested induced migration of both types of lymphocytes, whereas two CXC chemokines used as controls, IL-8 and IP-10, were inactive. The monocyte chemotactic proteins (MCP-1, MCP-2, and MCP-3) showed a typically bimodal concentration dependence, and were considerably more effective than MIP-1 alpha, MIP-1 beta, or RANTES. All CC chemokines also induced a rapid and transient rise in cytosolic free Ca2+ in either type of T cell. The rise was prevented by Bordetella pertussis toxin treatment, indicating that G-protein-coupled receptors are involved in signaling. It was most pronounced with MCP-1 and MCP-3, which is in agreement with the efficacy of these chemokines as chemoattractants. The responses to MCP-2, MIP-1 alpha, MIP-1 beta, and RANTES were weaker, and no changes were obtained on stimulation with IL-8 or IP-10. Freshly isolated human blood lymphocytes were also tested, but neither migration nor Ca2+ changes were observed. Low numbers of high-affinity receptors for MCP-1 were found on CD4+ and CD8+ cells ( < 900 per cell, Kd < 1 nM), and desensitization experiments showed that MCP-1, MCP-2, and MCP-3 share receptors. Owing to their superior effectiveness on CD4+ and CD8+ T cells, the monocyte chemotactic proteins could play a major role in the recruitment of activated T lymphocytes.
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PMID:Monocyte chemotactic proteins MCP-1, MCP-2, and MCP-3 are major attractants for human CD4+ and CD8+ T lymphocytes. 792 71

Macrophage inflammatory proteins-1 (MIP-1) alpha and beta are members of the C-C branch of the platelet factor 4 superfamily of cytokines, recently designated the "chemokine" superfamily. It has been suggested that the major cellular targets for the biologic activities of the C-C chemokines are the mononuclear leukocytes. However, the original designation of murine MIP-1 proteins as inflammatory mediators was based on suggestions that they activated neutrophil functions such as chemotaxis, the respiratory burst, and degranulation. In this study, we have evaluated the ability of human (Hu) MIP-1 alpha and beta to affect purified human neutrophil function. Although both rHuMIP-1 alpha and -1 beta stimulated significant calcium mobilization in human monocytes, only HuMIP-1 alpha exerted a detectable effect on neutrophils. HuMIP-1 alpha stimulated a small, dose-dependent increase in intracellular calcium, which was accompanied by a simultaneous change in right-angle light scatter, the latter indicating induction of shape change. While the effect of HuMIP-1 alpha on calcium mobilization in neutrophils was small when compared with that elicited by IL-8 or Gro alpha, it had similar characteristics to that by other receptor-dependent neutrophil agonists in that it was dependent on pertussis toxin-sensitive G proteins and on both mobilization of calcium from intracellular sources as well as influx from the extracellular environment. In addition, stimulation of neutrophils with HuMIP-1 alpha led to desensitization to subsequent additions of HuMIP-1 alpha. The stimulatory effect of HuMIP-1 alpha on neutrophil calcium mobilization and shape change was not coupled to other standard measures of neutrophil effector function. For instance, neither HuMIP-1 alpha nor -1 beta had any detectable stimulatory effect on the Na+/H+ antiport, degranulation, actin polymerization, or chemotaxis. Moreover, although HuMIP-1 alpha binding could easily be measured on monocytes or monocytic cell lines, the number of sites were too few to characterize on neutrophils by the same technique. Taken together, these results show that neither HuMIP-1 alpha nor -1 beta stimulate significant neutrophil activation and support the concept that the biologic effects of members of the C-C branch of the platelet factor 4 superfamily are not primarily directed toward neutrophils.
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PMID:Uncoupling of early signal transduction events from effector function in human peripheral blood neutrophils in response to recombinant macrophage inflammatory proteins-1 alpha and -1 beta. 848 47

Macrophage Inflammatory Protein-1 alpha (MIP-1 alpha) can inhibit the proliferation of multipotent haemopoietic cells. Using the FDCP-Mix A4 multipotent stem cell line, MIP-1 alpha was shown to inhibit 1L-3 stimulated cell cycling (assessed using the [3H]-thymidine "suicide" assay). Furthermore, MIP-1 alpha can inhibit 1L-3-stimulated [3H]-thymidine incorporation in FDCP-Mix cells, with half maximal inhibition observed at 3 ng/ml MIP-1 alpha. Prostaglandin E2, but not MIP-1 alpha was able to elevate cyclic AMP levels in FDCP-Mix A4 cells although both agents can cause growth inhibition. However, MIP-1 alpha addition resulted in a pertussis-toxin-insensitive increase in the level of the second messenger inositol 1,4,5 triphosphate (Ins 1,4,5P3). This response was both rapid (maximal at 5 seconds) and transient. A half maximal effect was observed at 5 ng/ml MIP-1 alpha and the dose dependency correlated with that for MIP-1 alpha mediated growth inhibition. A rapid increase in cytosolic Ca2+ levels was also observed in response to MIP-1 alpha. Inositol lipid hydrolysis and an increase in cytosolic Ca2+ (signals normally associated with proliferation) may therefore be implicated in growth inhibitory mechanisms in multipotent cells.
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PMID:Macrophage inflammatory protein-1 alpha mediated growth inhibition in a haemopoietic stem cell line is associated with inositol 1,4,5 triphosphate generation. 861 22

The proteolytic cleavage product of complement component 3, (C3a), is like C4a and C5a, is a potent anaphylatoxin and induces the production of inflammatory mediators in phagocytes. Notably, mast cells respond to C3a with the release of vasoactive substances, including histamine. We have examined the function and receptor binding of C3a in a human leukemic mast cell line, HMC-1. Similar to chemoattractant agonists in leukocytes, C3a induced rapid cytosolic free calcium concentration increases in HMC-1 cells. EGTA did not diminish this response, indicating that mobilizable Ca2+ was from intracellular stores. Receptors of C3a in HMC-1 cells couple in part to Bordetella pertussis toxin-sensitive G-proteins and, therefore, appear to belong to the family of serpentine receptors that require G-proteins for signal transduction. HMC-1 cells express two types of C3a receptors, C3aR1 and C3aR2, that were shown to bind 125I-C3a with high-(Kd1 = 2.1-4.8 nM) or low-affinity (Kd2 = 30-150 nM), and both receptors are expressed at high level: 3 x 10(5)-6 x 10(5) C3aR1/cell and 5 x 10(5)-2.3 x 10(6) C3aR2/cell. Results from cross-linking experiments with 125I-C3a fully agree with the presence of two different classes of C3a receptors in HMC-1 cells. Two membrane proteins with apparent molecular masses of 54-61 kDa (p57) and 86-107 kDa (p97) could be covalently modified with 125I-C3a, and this cross-linking was inhibited with an excess of unlabeled C3a. Many of the known agonists for leukocytes including 13 chemokines (IL-8, NAP-2, GRO alpha, ENA-78, IP10, PF4, MCP-1, 2 and 3, RANTES, MIP-1 alpha, MIP-1 beta and I309), three neuropeptides (neuropeptide Y, somatostatin and calcitonin), as well as C5a, did not activate HMC-1 cells, indicating that C3a is one of a few protein ligands for which this cell line expresses specific receptors. The apparent selectivity for C3a and the abundant expression of C3a receptors make the HMC-1 cell line an excellent choice for the cloning of the receptor genes.
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PMID:Expression of high- and low-affinity receptors for C3a on the human mast cell line, HMC-1. 862 64

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