Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.6.3.1 (NADPH oxidase)
 11,281 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

f-Met-Leu-Phe-stimulated luminol-enhanced chemiluminescence was found to be repeatedly defective in some MDS patients. This defect was not attributed to myeloperoxidase deficiency, nor to a defect in NADPH oxidase function, because PMA chemiluminescence was found to be normal in these individuals. An arbitrary value of 7 mV (half the mean control value) was chosen to subdivide the group: MDS patients with values < 7 mV had a mean f-Met-Leu-Phe chemiluminescence response of 2.5 +/- 0.5 compared to MDS patients with values > 7 mV who had a mean response of 15.6 +/- 1.6 mV, P < 0.01 (healthy controls 14 +/- 2 mV). The characteristics of the f-Met-Leu-Phe receptor and initial calcium flux results suggested that the receptor itself was normal in number and function in low f-Met-Leu-Phe responders. The rate of superoxide generation, which is calcium-dependent, was also found to be in the normal range in low f-Met-Leu-Phe responders, although total superoxide production was reduced in some of these patients. When MDS neutrophils with a low f-Met-Leu-Phe response were stimulated with PMA, chemiluminescence was normal, suggesting normal activity of the NADPH-oxidase complex. Furthermore, myeloperoxidase activity was reduced in only three out of the 11 low f-Met-Leu-Phe responders. Following priming with GM-CSF, f-Met-Leu-Phe chemiluminescence was 27 +/- 1.6 mV in low f-Met-Leu-Phe responders compared to controls (87.7 +/- 11 mV, P < 0.005). Thus, although responses were improved, they were not as marked as in control neutrophils. These data suggest that a subgroup of MDS patients have a low f-Met-Leu-Phe chemiluminescence response which is not due to a defect in the f-Met-Leu-Phe receptor or oxidase activity, and in the majority of cases MPO activity is normal. Initial patient survival data suggest that these patients may have an increased risk of infective mortality. It is proposed that defective f-Met-Leu-Phe chemiluminescence results from a putative defect in cell-signalling mechanism upstream of PKC, and GM-CSF priming only partially improves responsiveness.
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PMID:Identification of a subgroup of myelodysplastic patients with a neutrophil stimulation-signalling defect. 791 69

Platelet-PMN interactions have been extensively studied and a spectrum of possible effects has been demonstrated. However, the physiological relevance of many of the observed in vitro phenomena remains obscure. Here we report a novel, and potentially pathophysiologically important, mechanism by which platelets can enhance PMN reactivity. We first observed that addition of platelets to PMN suspensions enhanced the chemiluminescence response of PMN to FMLP. This enhancement occurred without augmentation of superoxide generation and did not involve mutual platelet-PMN adhesion. The soluble material responsible was biochemically and immunologically identified as PF4 derived from platelet alpha-granules. The alpha-granule release was shown to be selective and required minimal platelet stimulation. Since the PF4 effect did not influence NADPH oxidase activation, it differed markedly from that of other priming agents such as GM-CSF. Further studies showed that the PF4 effect was attributable entirely to the surface translocation and secretion of primary granule myeloperoxidase. There was marked synergy between PF4 and GM-CSF and both were required for maximal potentiation of PMN reactivity. These results demonstrate that PF4 and GM-CSF employ different pathways in PMN priming. The ease with which platelets could release PF4 at sites of vessel-wall damage and inflammation suggests that platelet-PMN interaction via PF4 is likely to be of major pathophysiological importance.
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PMID:Platelets prime PMN via released PF4: mechanism of priming and synergy with GM-CSF. 854 28

Experiments were performed to investigate the relative role of phospholipase A2 (PLA2) in the activation and cytokine-mediated priming of neutrophil superoxide production. PLA2 activity was measured with a radiometric assay which discriminates between PLA2 and the downstream enzyme, 5-lipoxygenase. In cells that had not been primed by prior incubation with granulocyte-macrophage colony stimulating factor (GM-CSF), PLA2 and NADPH oxidase were differentially stimulated by the chemotactic peptide N-formyl-met-leu-phe (FMLP), calcium ionophore, or phorbol ester. In addition, inhibition of PLA2 by mepacrine (0-100 micromol/l) did not concomitantly inhibit FMLP-stimulated superoxide production. These findings suggest that the activity of PLA2 and NADPH oxidase may be uncoupled in the unprimed cell. In cells preincubated with GM-CSF, time- and dose-dependent priming of FMLP-stimulated PLA2 responses were observed and inhibition of PLA2 by mepacrine was accompanied by the inhibition of FMLP-stimulated superoxide production down to the level of unprimed cells. The effect of mepacrine was not due to inhibition of FMLP receptor expression. These data suggest that a mepacrine-sensitive PLA2 may have a role in the GM-CSF mediated priming of superoxide production. Using ionophore-stimulated PLA2 activity as a model, we showed that Bordatella pertussis toxin did not inhibit GM-CSF mediated priming, demonstrating that a pertussis-sensitive GTP-binding protein does not mediate signal transduction from the GM-CSF receptor to PLA2. The tyrosin kinase inhibitor, genestein, selectively inhibited GM-CSF primed but not unprimed PLA2 activity, demonstrating that GM-CSF-mediated priming requires tyrosine kinase activity.
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PMID:The regulation of neutrophil phospholipase A2 by granulocyte-macrophage colony-stimulating factor and its role in priming superoxide production. 861 70

Polymorphonuclear neutrophils play an important role against pathogens through the production of toxic oxygen metabolites by the NADPH oxidase enzyme, which reduces oxygen to superoxide anion in the respiratory burst. Neutropenia, infectious complications and impaired neutrophil function are often reported in glycogen storage disease type Ib (GSDIb), a metabolic disorder characterized by increased glycogen and decreased glucose-6-phosphatase (G-6-P) activity in the liver. Two children with GSDIb and associated neutropenia with recurrent bacterial infections were treated daily with different doses of rHu-GM-CSF. NADPH oxidase activity and chemotaxis in patients were assessed before and during therapy in stimulated and unstimulated neutrophils. During rHu-GM-CSF treatment, any increase found in the NADPH oxidase activity of patients was not significant with respect to that in controls. In one patient chemotaxis was greater than of controls. This finding suggests that in patients with GSDIb both neutropenia and PMN abnormalities may be responsible for infections, and PMN dysfunction probably depends on the degree of inherited functional G-6-P deficit.
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PMID:NADPH oxidase activity and chemotaxis by neutrophils in two patients with glycogen storage disease type Ib treated with recombinant human granulocyte-monocyte colony-stimulating factor. 864 44

Small numbers of CD34+ primitive hematopoietic progenitors are found in normal human peripheral blood. These cells differentiate to myeloid or lymphoid lineage under the influence of growth factors. We investigated the effects of IL5 and other growth factors on the production of eosinophils from peripheral blood CD34+ cells. CD34+ cells were plated in agarose with different combinations of cytokines. At 14 days of growth a triple stain technique was used to identify eosinophil, monocyte and neutrophil colonies. IL5 alone did not support colony growth. In contrast GM-CSF and IL3 alone or together supported the generation of more than 50% eosinophil colonies. Addition of IL5 increased the fraction of eosinophil colonies to over 70%. Under the best conditions (IL3 + GM-CSF + IL5), the addition of interferon-a or LPS inhibited colony growth by 51% and 58%, respectively. Since IL5 alone did not support colony growth from CD34+ cells, we determined when IL5 responsive cells appeared in culture. Cells were grown initially with IL3 + GM-CSF, washed, and plated with IL5 alone. Only when progenitors were grown at least 3 days, could IL5 serve as the single growth factor supporting pure eosinophil colony growth (47 colonies/104 cells plated at day 3 and 134 colonies/104 cells at day 7). Growth of CD34+ in liquid culture for 28 days in the presence of IL3, GM-CSF and IL5 resulted in almost 250 fold increase in cell number, yielding a population of 83% maturing eosinophils. We used our culture system and the sensitive technique of RT-PCR to analyze the kinetics of production of mRNA transcripts encoding several eosinophil proteins. Freshly isolated CD34+ cells contained no eosinophil granule protein transcripts and barely detectable amounts of some oxidase protein transcripts. At day 3 of culture no cells recognizable by histochemical staining as eosinophils could be detected, but transcripts for all five eosinophil granule proteins were present. These transcripts increased several fold during the entire culture period. Similar kinetics were seen for the NADPH oxidase protein transcripts. These studies demonstrate that within 3 days of culture, peripheral blood CD34+ cells can become committed to the eosinophil lineage as demonstrated by responsiveness to IL5 and production of specific protein transcripts.
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PMID:Growth and differentiation of eosinophils from human peripheral blood CD 34+ cells. 902 88

Soluble immune complexes activate a rapid burst of reactive oxidant secretion from neutrophils that have previously been primed with GM-CSF. Binding of these complexes to the cell surface of unprimed neutrophils results in the generation of intracellular Ca2+ transients, but the NADPH oxidase fails to become activated. No phospholipase D activity was observed following the addition of soluble immune complexes to unprimed cells. Upon priming with GM-CSF, the intracellular Ca2+ signal generated following soluble complex binding was greatly extended and phospholipase D was activated: there was also increased phosphorylation of proteins on tyrosine residues and the NADPH oxidase was activated. When Ca2+ influx was prevented, this phospholipase D activity was not observed. This primed oxidase activity was completely inhibited by erbstatin. Treatment of unprimed neutrophils with pervanadate (to inhibit protein tyrosine phosphatases) mimicked the effects of priming in that pervanadate-treated neutrophils secreted reactive oxidants in response to soluble immune complexes. The data indicate that during priming a new signaling pathway is activated that involves Ca2+ influx, phosphorylation on tyrosine residues, phospholipase D activity, and NADPH oxidase activation.
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PMID:Stimulation of primed neutrophils by soluble immune complexes: priming leads to enhanced intracellular Ca2+ elevations, activation of phospholipase D, and activation of the NADPH oxidase. 964 77

Monocytes differentiate from myeloid precursors towards the macrophage state of differentiation under the influence of 1,25-dihydroxy vitamins D3 (1,25 [OH]2 vitamin D3) and other factors and this is further propagated by colony stimulating factors (MCSF and GMCSF). Macrophage activation and phagocytosis of foreign particles are regularly accompanied by a so called "respiratory burst", an increase in the production of reactive oxygen species (ROS), exerted by the enzyme complex NADPH oxidase. A number of antioxidant enzymes is expressed at the same time to protect the cells from the cytotoxic effects of ROS directed against engulfed microorganisms. The selenium-dependent glutathione peroxidases and thioredoxin reductases are important examples. The cytosolic GPx isoenzyme (cGPx) and thioredoxin reductase alpha (TrxR alpha) are upregulated during the process of differentiation and under the influence of 1.25 (OH)2 vitamin D3. GPx isoenzymes neutralize H2O2. TrxR reduce sulfhydryl-groups like in cysteins either directly or via their cofactor thioredoxin and thus are involved in protein folding and critical protein-protein and protein-DNA interactions, e.g. modulation of dimerization and/or DNA-binding and ligand binding of transcription factors (glucocorticoid receptor and other steroid receptors, NF kappa B). In addition, the antibiotic peptide NK-lysin was shown to be a substrate for TrxR alpha, suggesting that TrxR protects the cell itself from the cytotoxic effects of NK-lysin. Selenium is incorporated into selenocysteine (Secys) in a regulated fashion in the presence of a hairpin structure (Secis element) in the 3'UTR of selenoprotein genes. Secis elements direct the insertion of Secys at UGA codons, which function as opal stop codons in the absence of a suitable Secis element and in selenium deficiency. The above mentioned processes might therefore be altered in relative selenium deficiency or vice versa be upregulated through selenium supplementation. We have shown that TrxR alpha is a 1.25 (OH)2 vitamin D3-responsive early gene in monocytic cells and that TrxR activity as well as GPx activity in these cells can be upregulated by the addition of selenium in vitro and ex vivo. Recent work demonstrates that thioredoxin rapidly enters the cell nucleus upon treatment of cells with H2O2, but little is known about the compartimentalization of the respiratory burst and the intracellular localization of antioxidant enzymes during that process. Macrophage function is insufficient if the generation of a respiratory burst is altered like in hereditary chronic granulomatous disease on one hand, but on the other hand is as well disturbed, if there is a lack in antioxidant enzyme activity. Thioredoxin has been identified as a lymphocyte growth factor and might therefore be involved in the crosstalk between macrophages and lymphocytes. The relevance of the above mentioned and other yet undefined monocytic selenoproteins remains to be elucidated in detail as well as the relevance of selenium supplementation in nutrition in general and in situations of critical infectious disease and autoimmunity.
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PMID:[Expression of selenoproteins in monocytes and macrophages--implications for the immune system]. 1055 25

Bacterial superinfections are an important cause of morbidity and mortality during influenza A virus (IAV) epidemics. We demonstrate that incubation with the combination of IAV and Streptococcus pneumoniae caused marked reductions in survival of neutrophils in vitro compared with treatment with control buffer or IAV or S. pneumoniae alone. This cooperative effect was in part mediated by acceleration of neutrophil apoptosis as evidenced by increases in annexin-V binding and caspase-3 activation. However, GM-CSF did not increase survival of neutrophils exposed to IAV and S. pneumoniae. IAV enhanced neutrophil uptake of S. pneumoniae significantly. Furthermore, the combination of IAV and S. pneumoniae caused significantly more hydrogen peroxide production than IAV or S. pneumoniae alone. This increased respiratory burst activity contributed to the diminished neutrophil survival caused by IAV and S. pneumoniae. The NADPH oxidase inhibitor, diphenyleneiodonium, significantly improved survival of neutrophils treated with IAV and S. pneumoniae. These findings may help to explain the increased susceptibility of IAV-infected patients to infections with S. pneumoniae.
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PMID:Neutrophil survival is markedly reduced by incubation with influenza virus and Streptococcus pneumoniae: role of respiratory burst. 1120 67

Influenza A virus (IAV)-induced impairment of neutrophil function or survival may be a cause of bacterial superinfection of IAV-infected subjects. This study was performed to determine the mechanism through which the combination of IAV and Escherichia coli co-operatively reduces neutrophil survival. Neutrophil binding of annexin-V and caspase-3 activation was significantly increased by either IAV or E. coli, supporting the concept that the micro-organisms accelerate neutrophil apoptosis. The anti-apoptotic agent granulocyte-macrophage colony stimulating factor (GM-CSF) did not improve, but further reduced, survival of neutrophils treated with IAV and E. coli. As addition of E. coli resulted in greater neutrophil uptake of IAV and greater neutrophil respiratory burst responses to IAV, this study tested whether respiratory burst activation by IAV and E. coli contributes to reducing neutrophil survival. The cell-permeant NADPH oxidase inhibitor, diphenylene iodonium, significantly increased survival of neutrophils treated with either E. coli alone or the combination of IAV and E. coli. In contrast, catalase, which is not cell permeant, did not alter survival of E. coli- and IAV-treated neutrophils. Azide enhanced neutrophil hydrogen peroxide responses to IAV and E. coli, and reduced survival of these cells. These results indicate that co-operative induction of intracellular respiratory burst responses by IAV and E.coli mediates the reduced neutrophil survival caused by these pathogens in vitro.
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PMID:Role of the respiratory burst in co-operative reduction in neutrophil survival by influenza A virus and Escherichia coli. 1201 55

Human polymorphonuclear neutrophils play a key role in host defenses against invading microorganisms. In response to a variety of stimuli, neutrophils release large quantities of superoxide anion (O2.-) in a phenomenon known as the respiratory burst. O2.- is the precursor of potent oxidants, which are essential for bacterial killing and also potentiate inflammatory reactions. Regulation of this production is therefore critical to kill pathogens without inducing tissue injury. Neutrophil production of O2.- is dependent on the respiratory burst oxidase, or NADPH oxidase, a multicomponent enzyme system that catalyzes NADPH-dependent reduction of oxygen to O2.-. NADPH oxidase is activated and regulated by various neutrophil stimuli at infectious or inflammatory sites. Proinflammatory cytokines such as GM-CSF, TNF and IL-8 modulate NADPH oxidase activity through a priming phenomenon. These cytokines induce a very weak oxidative response by PMN but strongly enhance neutrophil release of reactive oxygen species on exposure to a secondary applied stimulus such as bacterial N-formyl peptides. Priming phenomena are involved in normal innate immune defense and in some inflammatory diseases. The mechanisms underlying the priming process are poorly understood, although some studies have suggested that priming with various agonists is regulated at the receptor and post-receptor levels. Resolution of inflammation involves desensitization phenomena and cytokines are involved in this process by various mechanisms. A better understanding of phenomena involved in the regulation of NADPH oxidase could help to develop novel therapeutic agents for inflammatory diseases involving abnormal neutrophil superoxide production.
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PMID:[Regulation of human neutrophil oxidative burst by pro- and anti-inflammatory cytokines]. 1213 31


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