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)

We describe a 15-yr-old girl with recurrent bacterial infections who is refractory to the effects of LPS in vivo and in vitro and IL-1 in vitro. Intravenous challenge of the patient with Escherichia coli endotoxin caused a subnormal febrile response, little alteration in the number of circulating neutrophils, and subnormal elevations in the plasma levels of TNF-alpha, IL-6, IL-8, lactoferrin, and granulocyte CSF; however, normal levels of the anti-inflammatory mediators IL-1 receptor antagonist and soluble TNF receptor (60 kDa) were induced. Studies in vitro indicated the patient's monocytes expressed CD14, the LPS receptor, and bound LPS in a specific manner, but failed to produce TNF-alpha and granulocyte CSF after stimulation with LPS, and failed to respond to IL-1, heat-killed Staphylococcus aureus, and soluble glucan. Peripheral blood patient neutrophils exhibited normal expression of CD14, but failed to respond to treatment with LPS (100-1000 ng/ml for 30 min at 37 degrees C), a treatment that caused increased expression of the surface markers, C10, CD18, CD11b, CD67, and CD45, and decreased expression of L-selectin in normal neutrophils. Treatment of normal and patient neutrophils with FMLP (0.1 microM) resulted in equivalent altered expression of these surface markers. Patient neutrophils could not be primed by either LPS or IL-1beta for enhanced FMLP-induced O2- generation, but primed normally to TNF-alpha and platelet-activating factor. This patient's hyporesponsiveness to LPS and IL-1 is most likely due to a defect very early in the signal-transduction pathway.
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PMID:Endotoxin and IL-1 hyporesponsiveness in a patient with recurrent bacterial infections. 910 66

Current models of the multistep adhesion cascade for leukocyte-endothelial interactions predict loss of L-selectin from the leukocyte surface before transendothelial migration. We have tested this hypothesis using in vitro adhesion and transendothelial migration assays and a zinc-dependent metalloproteinase inhibitor, Ro 31-9790 (N-2-((2s)-[(hydroxycarbamoyl)methyl)-4-methylvaleryl]-N-1,3 -dimethyl-L-valinamide), which prevents chemoattractant-induced (e.g., IL-8, FMLP, C5a, platelet-activating factor) L-selectin endoproteolytic cleavage from isolated human neutrophils. Inhibitor and vehicle-treated neutrophils exhibited identical behavior during both adhesive interactions with 4- and 24-h TNF-alpha-activated HUVEC monolayers under flow, (including rate of initial attachment, rolling velocities, stable adhesion, and transmigration) and in static adhesion assays. Flow cytometric analysis of transmigrated neutrophils with mAb to L-selectin revealed that vehicle treated neutrophils had minimal detectable surface L-selectin, whereas inhibitor-treated neutrophils retained comparable levels of L-selectin on their surface as neutrophils maintained at 37 degrees C. In addition, mAb to L-selectin that induce rapid shape change and homotypic adhesion (LAM1-116) did not enhance the rate or extent of neutrophil transmigration under flow or static conditions. Neutrophils preincubated with LAM 1-116 displayed similar behavior to neutrophils preincubated with the control anti-L-selectin mAb, LAM1-101. In summary, these results demonstrate that there is no requirement for L-selectin to be shed from the surface of neutrophils before, or during, their migration across endothelial monolayers, and that prevention of surface L-selectin proteolytic cleavage does not enhance or inhibit neutrophil-endothelial cell adhesive interactions.
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PMID:L-selectin shedding does not regulate human neutrophil attachment, rolling, or transmigration across human vascular endothelium in vitro. 912

Properdin is an important regulatory constituent of the complement system. In contrast to most other components of complement, biosynthesis of properdin is restricted to a few cell types only, i.e., monocytes/macrophages and peripheral blood T cells. This report demonstrates the presence of properdin mRNA in peripheral blood granulocytes and shows that properdin is stored in the granules of human neutrophils and secreted upon stimulation with TNF-alpha, C5a, IL-8, or FMLP. Subcellular fractionation using Percoll density gradients and Western blot analyses revealed that the bulk of properdin is contained in the secondary granules. Moreover, flow cytometric analyses indicated that properdin is present on the surface of neutrophils. In contrast to alternative pathway components, components of the classical pathway of complement activation, such as C2 and C4, were not detected. Our findings suggest that neutrophils can actively stabilize and amplify the alternative activation pathway of complement by secretion of properdin as part of the innate defense against microorganisms.
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PMID:Properdin, a positive regulator of complement activation, is released from secondary granules of stimulated peripheral blood neutrophils. 912 10

The aim of the present study was to investigate the in vivo effects of granulocyte colony-stimulating factor (G-CSF) on neutrophil (PMN) function. G-CSF was administered once daily as s.c. injection for 6 d (d1-6) to healthy male volunteers. PMN migration (modified Boyden chamber), chemiluminescence (CL), adherence to nylon fibers and phagocytosis of IgG- and IgG-C3-coated particles were investigated before (d1), during (d2, d5) and 3 wk after G-CSF 7.5-10 micrograms/kg/d (n = 12). PMN surface expression of adhesion- and Fc gamma-receptors was measured on d1, d5, d8 and 3 wk after G-CSF 3-5 micrograms/kg (n = 12). Results obtained after G-CSF were compared to baseline using Wilcoxon's signed rank test. G-CSF induced PMNs showed a significantly (p < 0.05) decreased chemokinetic response (d5) as well as a reduced chemotaxis towards zymosan activated serum, FMLP and IL-8, respectively. Chemotaxis was reduced both at d2 and d5. Neutrophil adherence, phagocytosis and luminol-enhanced CL increased, whereas G-CSF had no effect on lucigenin-enhanced CL. G-CSF (3-5 micrograms/kg) caused an enhanced expression of CD11b, CD18, CD35, CD64 (Fc gamma RI) and CD32 (Fc gamma RII), respectively. We conclude that neutrophils produced in response to G-CSF have a reduced chemotaxis but an enhanced adherence and phagocytic capacity. G-CSF in vivo does not stimulate the respiratory burst.
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PMID:Effects of in vivo administration of G-CSF on neutrophil functions in healthy volunteers. 915 Jul 14

Acquired neutrophil dysfunction is considered an important cause of increased susceptibility to infection in patients with burns. In the early postinjury phase, large amounts of circulating chemo-attractants, cytokines and endotoxins induce strong systemic activation of neutrophils which may impair their motile functions. Actin is the most prevalent component of the microfilament lattice that generates force for the neutrophil motile responses, and in the present study we examined the dynamics of actin polymerization and depolymerization in neutrophils from 11 patients with large burns. At admission, the amount of polymerized actin in unstimulated neutrophils was 39.9 per cent higher than that of parallel controls. In addition, there was a positive correlation between the amount of polymerized actin and the total body surface area (TBSA) burn. The time course of patient neutrophil actin polymerization in response to FMLP, C5a, (Ser-IL-8)72, (Ala-IL-8)77 and crosslinking of surface Fc gamma RII was similar to that of controls, and the maximal amount of neutrophil F-actin was demonstrated after 30 s stimulation. At the peak of actin polymerization, however, patient neutrophils contained 27.3, 24.0, 24.7 and 25.6 per cent more polymerized actin than control cells stimulated with FMLP, (Ser-IL,-8)77, (Ala-8)77 and Fc gamma RII crosslinking, respectively. However, the relative increase of neutrophil F-actin following stimulation was significantly lower in patients than in controls. Moreover, the rate of patient neutrophil actin depolymerization was 39.0, 23.5, 63.3 and 51.7 per cent lower than that of controls after stimulation with FMLP, C5a (Ser-IL-8)72 and Fc gamma RII crosslinking, respectively. At discharge, the dynamics of neutrophil actin polymerization and depolymerization were similar to that of controls. The results demonstrate that in neutrophils during the early postburn phase, there are increased basal levels of polymerized actin, a lower responsiveness to stimulation and a reduced rate of actin depolymerization. As periodic polymerization and depolymerization of actin is essential for all neutrophil motile responses, it is probable that the alterations observed may contribute significantly to the overall neutrophil dysfunction following thermal injury.
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PMID:Impaired actin polymerization and depolymerization in neutrophils from patients with thermal injury. 917 79

The effects of nitric oxide (NO) on human neutrophil chemotactic responses and release of interleukin (IL)-8 was studied. Neutrophils exposed to chemoattractants (IL-8, FMLP, leukotriene B4, and C5a) failed to show increases in intracellular guanosine 3',5'-cyclic monophosphate (cGMP), an indicator of NO production. Although NO increased cGMP in neutrophils, neither of two NO donors (sodium nitroprusside and 3-morpholino-sydonimine) nor a NO synthase inhibitor (N omega-nitro-L-arginine) altered FMLP- or IL-8-elicited neutrophil chemotaxis (P > .25 for all). However, lipopolysaccharide-induced IL-8 production was increased in a dose-dependent manner by a combination of sodium nitroprusside and N-acetylcysteine (P = .03) or by S-nitrosoglutathione (P = .004). NO-augmented IL-8 release was not reproduced by treating neutrophils with dibutyryl-cGMP. Up-regulation of IL-8 release by NO was associated with increased IL-8 mRNA levels (P = .009). These data suggest that NO does not directly affect neutrophil chemotaxis but may indirectly alter chemotactic responses by increasing IL-8 production via a cGMP-independent pathway.
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PMID:Effects of nitric oxide on chemotaxis and endotoxin-induced interleukin-8 production in human neutrophils. 941 78

Neutrophil (PMN) activation is critical in inflammation and reperfusion injury, suggesting that PMN-directed therapies may be of clinical use. Here, leukotriene B4 (LTB4)-induced PMN influx in ear skin was equivalent between 5-lipoxygenase knockout and wild-type mice. To explore actions of lipoxin (LX) in PMN-mediated tissue injury, we prepared several novel LX stable analogues, including analogues of LXA4 and aspirin-triggered 15-epi-LXA4 as well as LXB4, and examined their impact in PMN infiltration and vascular permeability. Each applied topically to mouse ears inhibited dramatically PMN-mediated increases in vascular permeability (IC50 range of 13-26 nmol) with a rank order of 15(R/S)-methyl-LXA4 > 16-para-fluoro-phenoxy-LXA4 approximately 5(S)-methyl-LXB4 >/= 16-phenoxy-LXA4 > 5(R)-methyl-LXB4. These LX mimetics were as potent as an LTB4 receptor antagonist, yet results from microphysiometry with mouse leukocytes indicated that they do not act as LTB4 receptor level antagonists. In addition, within 24 h of delivery, > 90% were cleared from ear biopsies. Neither IL-8, FMLP, C5a, LTD4, nor platelet-activating factor act topically to promote PMN influx. When applied with LTB4, PGE2 enhanced sharply both infiltration and vascular permeability, which were inhibited by a fluorinated stable analogue of aspirin-triggered LX. These results indicate that mimetics of LXs and aspirin-triggered 15-epi-LXA4 are topically active in this model and are potent inhibitors of both PMN infiltration and PMN-mediated vascular injury.
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PMID:Neutrophil-mediated changes in vascular permeability are inhibited by topical application of aspirin-triggered 15-epi-lipoxin A4 and novel lipoxin B4 stable analogues. 946 77

Mitogen-activated protein (MAP) kinase-mediated signal-transduction pathways convert extracellular stimulation into a variety of cellular functions. However, the roles of MAP kinases in neutrophils are not well understood yet. Protein phosphorylation analysis of cellular MAP kinases indicates that exposure of human neutrophils to chemotactic factor FMLP as well as granulocyte-macrophage CSF, PMA, or ionomycin rapidly induced the activation of p38 and p44/42 MAP kinases, but stimulation with inflammatory cytokine TNF-alpha triggered the activation of p38 MAP kinase only. To study the cellular functions of these MAP kinases, the inhibitor SB20358, which specifically inhibited enzymatic activity of cellular p38 MAP kinase, and the inhibitor PD98059, which specifically blocked the induced protein phosphorylation and activation of p44/42 MAP kinase in intact neutrophils, were utilized. Inhibition of the cellular p38 MAP kinase activation almost completely abolished the TNF-alpha-stimulated IL-8 production and superoxide generation of human neutrophils. In addition, the FMLP-induced neutrophil chemotaxis as well as superoxide generation were suppressed markedly by inhibiting the activation of cellular p38 MAP kinase, but not p44/42 MAP kinase. Moreover, RIA indicates that the activation of cellular p38 MAP kinase was required for the neutrophil IL-8 production stimulated by granulocyte-macrophage CSF or LPS as well as TNF-alpha, but not for that induced by PMA or ionomycin. These results demonstrate that the activation of cellular p38 MAP kinase is indispensable for the TNF-alpha- or FMLP-mediated cellular functions in human neutrophils, and suggest that p38 MAP kinase may play a different role in response to distinct stimulation.
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PMID:p38 mitogen-activated protein kinase activation is required for human neutrophil function triggered by TNF-alpha or FMLP stimulation. 946 62

GAS6 is a ligand for the tyrosine kinase receptors Rse, Axl, and Mer, but its function is poorly understood. Previous studies reported that both GAS6 and Axl are expressed by vascular endothelial cells (EC), which play a key role in leukocyte extravasation into tissues during inflammation through adhesive interactions with these cells. The aim of this work was to evaluate the GAS6 effect on the adhesive function of EC. Treatment of EC with GAS6 significantly inhibited adhesion of polymorphonuclear cells (PMN) induced by phorbol 12-myristate 13-acetate (PMA), platelet-activating factor (PAF), thrombin, interleukin-1beta (IL-1beta) and tumor necrosis factor-alpha (TNF-alpha), but not that induced by FMLP and IL-8. GAS6 did not affect adhesion to resting EC. Titration experiments showed that high concentrations of GAS6 were needed to inhibit PMN adhesion and that inhibition was dose-dependent at the concentration range of 0.1 to 1 microg/mL. One possibility was that high concentrations were needed to overwhelm the effect of endogenous GAS6 produced by EC. In line with this possibility, treatment of resting EC with soluble Axl significantly potentiated PMN adhesion. Analysis of localization of GAS6 by confocal microscopy and cytofluorimetric analysis showed that it is concentrated along the plasma membrane in resting EC and treatment with PAF induces depletion and/or redistribution of the molecule. These data suggest that GAS6 functions as a physiologic antiinflammatory agent produced by resting EC and depleted when proinflammatory stimuli turn on the proadhesive machinery of EC.
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PMID:GAS6 inhibits granulocyte adhesion to endothelial cells. 951 31

Stimulation of human neutrophils with inflammatory mediators such as TNF-alpha or platelet-activating factor (PAF) induces translocation of adhesion molecule Mac-1 (CD11b/CD18) from secretory vesicles to the plasma membrane. Type II phospholipase A2 (PLA2-II) also induces translocation of Mac-1 from secretory vesicles. However, there are more Mac-1 molecules in gelatinase granules and specific granules than in secretory vesicles. Therefore, different combinations of PLA2-II and other mediators were examined for their ability to induce gelatinase granules and specific granules to induce Mac-1 surface expression. The combination of PLA2-II and PAF synergistically increased Mac-1 surface expression, and the effect was greater than the combinations of PLA2-II with TNF-alpha, IL-8, or FMLP. Additionally, the combination of PLA2-II and PAF induced exocytosis of both secretory vesicles and gelatinase granules, which did not occur with either PLA2-II alone or PAF alone. The induction was accompanied by marked production of leukotriene B4. AA861, an inhibitor of 5-lipoxygenase, did not inhibit exocytosis of secretory vesicles but did inhibit exocytosis of gelatinase granules and decrease Mac-1 surface expression. It was also found that Ca2+ influx is essential for 5-lipoxygenase activation, because Ni2+, which blocks the influx of extracellular Ca2+, inhibited the production of leukotriene B4. These results suggest that stimulation by the combination of PLA2-II and PAF, unlike stimulation by each mediator alone, causes exocytosis of gelatinase granules via the 5-lipoxygenase pathway, resulting in a synergistic increase in neutrophil Mac-1 surface expression during inflammatory processes.
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PMID:Synergistic effect of type II phospholipase A2 and platelet-activating factor on Mac-1 surface expression and exocytosis of gelatinase granules in human neutrophils: evidence for the 5-lipoxygenase-dependent mechanism. 959 Feb 57


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