EC:1.6.3.1 - FACTA Search

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

We determined the effects of okadaic acid (OA), a specific inhibitor of protein phosphatases 1 (PP1) and 2A (PP2A), on protein phosphorylation and on the activation of the NADPH oxidase in human neutrophils. In otherwise unstimulated cells, OA induced phosphoprotein accumulation, revealing the presence of constitutively active protein kinases. Pulse-chase experiments in electropermeabilized cells confirmed that this effect was due, at least in part, to inhibition of dephosphorylation. OA potentiated phosphoprotein accumulation induced by phorbol esters and by the chemotactic peptide N-formyl-methionyl-leucyl-phenylalanine (FMLP). In phorbol ester-stimulated cells, OA prolonged the respiratory response after inhibition of protein kinase C (PKC) with staurosporine, consistent with a reduced rate of dephosphorylation of active phosphorylated components. Similarly, OA delayed the inactivation of the burst after displacement of FMLP from its receptor by a competitive antagonist. This suggests that the substrates of the protein kinases activated by FMLP are dephosphorylated by PP1 and/or PP2A. That phosphatases control the intensity and duration of the respiratory response is suggested by the finding that OA magnified and prolonged the oxidative burst elicited by FMLP. In contrast, pretreatment with OA produced a time-dependent inhibition of the phorbol ester-induced respiratory burst. Under conditions where inhibition of the phorbol ester response was nearly complete, activation by the chemoattractant peptide not only persisted but was in fact accentuated. These findings provide strong evidence that receptor-mediated stimulation of the NADPH oxidase can occur by pathways not involving PKC.
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PMID:Modulation of neutrophil activation by okadaic acid, a protein phosphatase inhibitor. 131 Feb 15

Activation of the superoxide-generating NADPH oxidase by phorbol ester or zymosan induced a cytoplasmic acidification when liver macrophages were incubated in sodium-free media or in the presence of amiloride. Staurosporine or desensitization of protein kinase C inhibited phorbol ester- and zymosan-induced pH changes and generation of superoxide. The intracellular pH remained unchanged in cells incubated in physiological sodium media. Ionomycin and arachidonic acid did not induce a change in intracellular pH or a generation of superoxide. Fluoride, which has been shown to induce a translocation of protein kinase C in these cells, did not elicit superoxide generation but induced a decrease in intracellular pH. These experiments support (1) a role of the Na+/H+ antiporter in macrophages as a metabolic regulator of intracellular pH upon stimulation of the superoxide-generating NADPH oxidase, and (2) suggest an involvement of protein kinase C in this process.
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PMID:Relationship between intracellular pH changes, activation of protein kinase C and NADPH oxidase in macrophages. 131 15

Propranolol, a beta-adrenergic receptor antagonist, also inhibits phosphatidate phosphohydrolase, the enzyme that converts phosphatidic acid into diacylglycerol. This latter effect has prompted recent use of propranolol in studies examining the importance of diacylglycerol and phosphatidic acid in cellular signalling events. Here, we show that propranolol is also an inhibitor of protein kinase C. At concentrations greater than or equal to 20 microM, propranolol reduced [3H]phorbol dibutyrate binding (IC50 = 200 microM) and phorbol myristate acetate-stimulated superoxide anion release (IC50 = 130 microM) in human neutrophils. Scatchard analysis showed that propranolol lowers the number of phorbol diester binding sites without significantly affecting their affinity. In vitro kinetic analysis, performed in a mixed micellar assay with protein kinase C purified from human neutrophils, suggested a competitive inhibition of propranolol with the cofactor phosphatidylserine. Complex kinetic patterns were observed with respect to diacylglycerol and ATP, approximating competitive and noncompetitive inhibition, respectively. Taken together, these results suggest that the drug interacts at the level of the regulatory domain of the enzyme. Fifty % inhibition occurred at approximately 150 microM propranolol. Similar levels of inhibition were obtained using exogenous (histone) and endogenous (p47-phox, a NADPH oxidase component) substrates. Protein kinase C-alpha and protein kinase C-beta, two protein kinase C isozymes present in human neutrophils, were inhibited by propranolol in a comparable manner. In the range of concentrations tested (30-1000 microM), neither cAMP-dependent protein kinase nor neutrophil protein tyrosine kinases were affected. The racemic form of propranolol and the (+) and the (-) stereoisomers were equally active, and other beta-adrenergic receptor antagonists (pindolol) and agonists (isoproterenol) were inactive. This suggests that the inhibitory action of propranolol on protein kinase C is related to the amphipathic nature of the drug rather than to its beta-adrenergic receptor blocking ability. Analogs of propranolol were synthesized and found to be more potent protein kinase C inhibitors, with IC50 values in the 10-20 microM range. We conclude that the ability of propranolol to inhibit both protein kinase C and PA phosphohydrolase complicates interpretation of results when this drug is used in signal transduction studies. In addition, propranolol may be a useful prototype for the synthesis of new protein kinase C inhibitors.
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PMID:Propranolol, a phosphatidate phosphohydrolase inhibitor, also inhibits protein kinase C. 132

The generation of superoxide anion and release of granule contents are essential to the bactericidal function of neutrophils, but may also contribute to host tissue damage during inflammation. In previous studies (J. Immunol. 146:2388), we have demonstrated that the acute phase reactant alpha-1-antichymotrypsin (ACT), a potent inhibitor of the serine protease cathepsin G, also suppresses superoxide anion generation. The inhibitory effect of ACT was not directly linked to its antiproteolytic activity and may reflect interaction at a site other than its reactive loop. To further characterize the mechanism of inhibition, we investigated the direct effects of ACT on the NADPH oxidase enzyme complex and the signaling pathways that regulate motivation of the respiratory burst. We present evidence that ACT does not intefer with agonist-stimulated calcium mobilization or translocation and activity of protein kinase C. ACT was an effective inhibitor of superoxide anion generation in membrane preparations isolated from PMA-activated cells. These results support the notion that ACT is acting on a component of the active assembled NADPH oxidase complex. Thus, ACT may have an important role in regulation of specific aspects of the inflammatory processes and the modulation of toxic oxygen-based host tissue damage.
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PMID:Alpha-1-antichymotrypsin inhibits the NADPH oxidase-enzyme complex in phorbol ester-stimulated neutrophil membranes. 132 90

We have compared assays for products of the neutrophil respiratory burst in normal EBV-transformed B cell lines stimulated with agonists of protein kinase C. Those measuring O2- directly or its immediate product, H2O2, were successful. Of these, the most sensitive were the lucigenin- and luminol-based chemiluminescence assays for O2- and H2O2 respectively. Cell lines from CGD patients, with X-linked or autosomal recessive genetic defects in the neutrophil NADPH oxidase, did not respond in these assays, indicative of their inability to produce O2-. The defects in the lines studied encompass both proteins forming the cytochrome b-245 membrane component, and the 47 kDa cytosolic component of the NADPH oxidase. The possession of the disease associated phenotype by these cell lines provides evidence that in the normal situation both neutrophils and B cells produce O2- via the same system.
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PMID:Superoxide production by normal and chronic granulomatous disease (CGD) patient-derived EBV-transformed B cell lines measured by chemiluminescence-based assays. 133 Dec 41

The mode of activation of an H(+)-conducting pathway present in the membrane of neutrophils was investigated. (1) Resting neutrophils released protons through an electrogenic Cd(2+)-inhibitable (K0.5 approximately 20 microM) route when a pH gradient and appropriate charge compensation was provided. (2) The rate of H+ efflux was stimulated over 2.5-fold by 4 beta-phorbol 12-myristate 13-acetate (PMA; K0.5 approximately 0.7 nM) or by 4 beta-phorbol 12,13-dibutyrate (K0.5 approximately 20 nM) even when the NADPH oxidase was blocked by p-chloromercuribenzoate. (3) Staurosporine inhibited the effect of PMA. (4) The H+ egress was not enhanced by 4 alpha-phorbol 12,13-didecanoate. (5) Low concentrations of Cd2+ (less than 40 microM) inhibited the H+ flux without influencing the oxidase. The results raise the possibility that protein kinase C could be involved in the activation of an electrogenic H(+)-conducting pathway in the membrane of neutrophils. The activation of this route by phorbol esters seems to be independent of the stimulation of NADPH oxidase.
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PMID:Phorbol 12-myristate 13-acetate activates an electrogenic H(+)-conducting pathway in the membrane of neutrophils. 137 86

A cytosolic factor of 47 kDa required for activation of the NADPH oxidase, and referred to as p47, has been purified in its functional form from the cytosol of resting bovine neutrophils. The purification was monitored by the determination of the activating potency of p47 in a cell-free system of oxidase activation. The recovery was around 10% and the purification factor greater than 1000. P47 was phosphorylated in vitro by protein kinase A and protein kinase C. [32P] labeled p47 was resolved by isoelectric focusing into two major labeled bands of pI 7.0 and 8.5. Polyclonal antibodies were used to demonstrate that p47 is localized specifically in the cytosol of resting neutrophils, and that, upon activation of neutrophils, p47 is translocated from the cytosol to the membrane.
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PMID:Purification and properties of a functional 47-kilodalton cytosolic factor required for NADPH-oxidase activation in bovine neutrophils. 149 61

This review outlines evidence that IL-1, IL-2, and TNFs modulate neutrophil functions. These cytokines affect some or all of the following functions of the neutrophil: adherence, cell migration, respiratory burst, lysosomal enzyme release, and cell surface receptor expression. TNFs, especially TNF alpha, remains one of the most highly studied cytokine with respect to regulation of neutrophil function. TNFs are a direct stimuli for the neutrophil respiratory burst and weak stimuli of lysosomal enzyme release. The cytokines enhance cell adhesion and inhibit neutrophil migration. The TNFs augment the oxidative burst and lysosomal enzyme release response to a wide range of soluble and particulate cell stimuli. These changes in the cell seem to be closely correlated with the increased fungicidal, bactericidal, tumoricidal, and protozoacidal activity of the TNF-primed neutrophils. In contrast to TNFs, IL-1 and IL-2 inhibit neutrophil adherence, and this provides evidence that the cytokine family represents a regulatory system. Another form of regulation of TNF alpha and IL-1 neutrophil-activating activity is by the release of inhibitors to these cytokines (58). We have evidence which shows that the soluble TNF alpha inhibitor (a cleaved product of the TNF alpha receptor) (59) binds and inhibits TNF from activating and priming neutrophils (60). Priming of neutrophils by TNFs involves surface receptor binding but is independent of protein kinase C system, pertussis toxin-sensitive guanine nucleotide regulatory protein, and direct burst of respiratory activity. The translocation of cell surface receptors and constituents of the NADPH oxidase from stored vesicles may be the major mechanism of TNF-induced cell priming.
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PMID:Activation of neutrophils by interleukins-1 and -2 and tumor necrosis factors. 150 43

Vanadate (V) potentiated (4- to 10-fold) the activation of cellular phospholipase A2 (PLA2) induced by H2O2 (H), a phorbol ester (T), a Ca(2+)-ionophore (A) and opsonized zymosan in macrophages. V+H induced in intact cells the activation and translocation of PLA2 and protein kinase C (PKC) to the plasma membrane. V+H and V+T+A induced strong chemiluminescence (CL) which was abrogated by a specific NADPH oxidase inhibitor diphenylene iodonium (DPI). DPI markedly suppressed the stimulation of PLA2 by V+T+A and V+OZ. The results suggest that the formation of endogenous reactive oxygen species (ROS) is important for PLA2 activation.
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PMID:Reactive oxygen species are involved in the activation of cellular phospholipase A2. 150 82

Cell-free synovial fluid from patients with rheumatoid arthritis stimulated the NADPH oxidase activity in human neutrophils, which reached a peak 15-20 min after addition. Insoluble immunoglobulin aggregates isolated from these fluids activated a similar pattern of oxidase activity. However, when synovial fluid was added to neutrophil suspensions which had been previously exposed to granulocyte-macrophage colony-stimulating factor, the stimulated oxidase activity was biphasic, in that an additional transient activity was observed which reached a peak within 5 min of addition. The additional neutrophil-stimulating activity could not be sedimented by centrifugation at 330,000 g-min, and only activated oxidase activity in neutrophils which had previously been primed. The neutrophil-stimulating activity in this soluble fraction was removed by Protein A affinity chromatography, and activity was recovered in eluates from this column. Thus activity in this soluble fraction from synovial fluid is attributed to the presence of soluble immunoglobulin aggregates. Whereas oxidase activity stimulated by the isoluble immunoglobulin aggregates was inhibited by staurosporine (and hence largely dependent on the activity of protein kinase C), the activity stimulated by the soluble immunoglobulin aggregates was staurosporine-insensitive. The soluble immunoglobulin aggregates were present at significantly higher levels in synovial fluids from patients with rheumatoid arthritis compared with those from other joint arthropathies. Thus rheumatoid synovial fluids possess heterogeneous immunoglobulin aggregates which activate neutrophils via distinct molecular pathways. As neutrophils within rheumatoid joints are primed, the soluble immunoglobulin aggregates are likely to be of importance in disease pathology.
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PMID:Activation of neutrophil reactive-oxidant production by synovial fluid from patients with inflammatory joint disease. Soluble and insoluble immunoglobulin aggregates activate different pathways in primed and unprimed cells. 153 May 67

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