EC:1.6.3.1 - FACTA Search

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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 examined the ability of opsonized zymosan (OPZ) to stimulate translocation of protein kinase C (PKC) isoforms in human neutrophils. Neutrophils express five PKC isoforms (alpha, betaI, betaII, delta, and zeta), but little is known of their individual roles in neutrophil activation. As determined by immunoblotting, OPZ caused a time-dependent translocation of the predominant PKC isoforms (betaII, delta, and zeta) to neutrophil membranes, with a concomitant loss from the cytosol. Maximal translocation of all three isoforms occurred by 3 min. No PKC immunoreactivity was observed in a crude nuclear fraction, but PKC-delta and -zeta were found in the granule fraction after degranulation (10 min). PKC activity (Ca2+-dependent and -independent) increased 50- and 19-fold, respectively, by 10 min in the granules from OPZ-stimulated cells. Curiously, no immunoreactive cPKC (alpha and beta(I/II)) could be localized in the granule fraction to account for the Ca2+-dependent PKC activity. Localization of PKC isoforms in the neutrophil membranes and granules suggests their involvement in the regulation of functional responses triggered by OPZ. PKC isoform translocation to membranes from OPZ-stimulated cells preceded both p47phox (a cytosolic component of the NADPH oxidase) translocation and NADPH oxidase assembly. The presence of both PKC isoforms and p47phox in the membrane was transient, with the loss of p47phox occurring sooner than either the loss of membrane-associated PKC or that of NADPH oxidase activity. The apparent EC50 values for PKC translocation and NADPH oxidase assembly were similar. These data suggest that PKC isoforms regulate the assembly and activation of NADPH oxidase induced by OPZ.
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PMID:Opsonized zymosan stimulates the redistribution of protein kinase C isoforms in human neutrophils. 930 Jul 11

The NADPH oxidase generates microbicidal superoxide in phagocytes, and when defective it leads to chronic granulomatous disease (CGD). Oxidase specific proteins in the cytosol, p47phox and p67phox, as well as the small GTP binding protein p21rac are important for activation of superoxide production. Because the activity of this oxidase is normally tightly restricted to the phagocytic vacuole, and its temporal and spatial organisation might be regulated by cytoskeletal proteins, we examined the cytosolic phox proteins for interactions with cytoskeletal elements. p67phox copurified with a 57 kDa protein, identified as coronin, an actin binding protein that is important for movement and phagocytosis in Dictyostelium. Binding studies revealed that coronin attaches to the C-terminal half of p40phox, a binding partner of p67phox. The phox proteins and coronin had a similar distribution in the cell, and both accumulated around the phagocytic vacuole. PMA activation of adherent neutrophils resulted in a major rearrangement of these proteins, and of actin, which were lost from the periphery of the cell and condensed around the nucleus. The rearrangement of F-actin and coronin in adherent cells, were absent, or markedly diminished, in cells from patients lacking p47phox or p67phox in which an abnormally large proportion of the coronin was present as part of a large complex. The cytosolic phox proteins might play a regulatory role in the reorganisation of the cytoskeleton accompanying superoxide generation.
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PMID:Cytosolic phox proteins interact with and regulate the assembly of coronin in neutrophils. 936 77

The superoxide-generating NADPH oxidase complex of phagocytic cells is a multicomponent system containing a membrane-bound flavocytochrome b and a small G protein Rac as well as cytosolic factors p67phox, p47phox and p40phox which translocate to the membrane upon activation. Known mechanisms underlying the translocation of these proteins include polyphosphorylation of p47phox and specific Src homology 3/polyproline motif interactions. In this study, through two-dimensionnal electrophoresis and immunoprecipitation experiments, we show using dimethylsulfoxide-differentiated HL60 promyelocytes that p40phox is in a basal phosphorylated state in resting cells and undergoes further phosphorylation on multiple sites upon stimulation of the NADPH oxidase by either phorbol myristate acetate or by the formyl peptide fMet-Leu-Phe-Lys. Moreover, the extent of phosphorylation is strongly correlated with the level of superoxide production. Typically, in cells transiently activated by fMet-Leu-Phe-Lys, onset of superoxide production coincides with the appearance of new phosphorylated species of p40phox and, at the end of the respiratory burst, dephosphorylation of p40phox is observed. In vitro assays show that the kinase(s) involved in the phosphorylation of p40phox differ from those which participate in the phosphorylation of p47phox. This suggests that, in the cell, the phosphorylation of p40phox and of p47phox are under the control of two different kinase pathways.
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PMID:The 40-kDa component of the phagocyte NADPH oxidase (p40phox) is phosphorylated during activation in differentiated HL60 cells. 937 Mar 64

Oxidative stress produces dual effects on the respiratory burst of rat alveolar macrophages. Preincubation with hydroperoxide concentrations [H2O2 or tert-butyl hydroperoxide (t-BOOH); < 50 microM] enhances stimulation of the respiratory burst, whereas higher concentrations inhibit stimulation. Both the enhancement and inhibition are markedly attenuated by buffering t-BOOH-induced changes in intracellular Ca2+ concentration ([Ca2+]i). Phosphorylation of the NADPH oxidase component p47phox and its translocation from cytoplasm to plasma membrane are essential in respiratory burst activation. Phorbol 12-myristate 13-acetate (PMA)-stimulated p47phox phosphorylation was negligibly affected by 25 or 100 microM t-BOOH. Nonetheless, 25 microM t-BOOH increased PMA-stimulated p47phox translocation, whereas 100 microM t-BOOH decreased PMA-stimulated translocation. In unstimulated cells, however, neither phosphorylation nor translocation of p47phox was affected by t-BOOH. Buffering of the t-BOOH-mediated changes of [Ca2+]i abolished the effects of t-BOOH on PMA-stimulated translocation in parallel to effects upon the respiratory burst. The results suggest that the dual effects of hydroperoxides are mediated, in part, by Ca(2+)-dependent processes affecting the assembly of the respiratory burst oxidase at steps that are separate from p47phox phosphorylation.
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PMID:Ca(2+)-dependent p47phox translocation in hydroperoxide modulation of the alveolar macrophage respiratory burst. 937 33

The cytosolic proteins p47phox and p67phox, each containing two SH3 domains, are required for activation of the superoxide-producing phagocyte NADPH oxidase in a cell-free system with human neutrophil membrane and the small GTPase Rac. Here we focus on roles of proline-rich regions (PRRs) that reside in p47phox and p67phox. Deletion of the p47phox PRR, to which the C-terminal SH3 domain of p67phox binds, results in three-fold decreased activation of the enzyme in the cell-free system with the full-length p67phox, suggesting a modulatory role of the p47phox PRR. The modulation is likely mediated via the C-terminal region of p67phox, since the p47phox mutant protein fully activates the oxidase in combination with the N-terminus of p67phox. Neither deletion of the p67phox PRR nor substitutions for prolines in the region affects the ability to support superoxide production under the cell-free conditions, indicating that the PRR of p67phox has no primary function in the oxidase activation.
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PMID:Roles for proline-rich regions of p47phox and p67phox in the phagocyte NADPH oxidase activation in vitro. 942 54

Human promyelocytic cells, NB4, differentiate into neutrophils in response to all-trans retinoic acid (ATRA). It has recently been proposed that NB4 cells have bilineage potential because these cells are also able to differentiate into monocyte/macrophages when exposed to a combination of 1,25-dihydroxyvitamin D3 (VD3) and phorbol myristate acetate (PMA). Differentiation of myeloid cells into neutrophils or monocytes is associated with the acquisition of the O2- producing enzyme, NADPH oxidase, which plays a critical role in microbial killing. In this study, the expression of the components of the NADPH oxidase complex during the differentiation of NB4 cells into neutrophils or macrophages has been investigated. Whereas cells exposed to ATRA were able to produce O2- after 2 days of differentiation, they remain unable to generate O2- when exposed to PMA or PMA + VD3. With the exception of p21rac, none of the other oxidase components was expressed in non-differentiated cells. Addition of ATRA induced the progressive expression and accumulation of p22phox, p91phox, p47phox and p67phox. Compared to the other components, p67phox was expressed late and its expression appeared to correlate most closely with the generation of O2- in the differentiation process. In PMA or PMA + VD3-differentiated NB4 cells, expression of the NADPH oxidase components was incomplete. Therefore, ATRA induced the expression of a functional NADPH oxidase complex in neutrophil-like NB4 cells. In contrast, when NB4 cells are exposed to monocytic differentiating agents, they acquire only part of the phenotypic characteristics of monocytes and lack one of the major phagocytic functionalities, the respiratory burst oxidase.
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PMID:Expression of NADPH oxidase is induced by all-trans retinoic acid but not by phorbol myristate acetate and 1,25 dihydroxyvitamin D3 in the human promyelocytic cell line NB4. 944 31

The phagocyte NADPH oxidase is activated during phagocytosis to produce superoxide, a precursor of microbicidal oxidants. The formation of the active oxidase complex at the membrane requires translocation of the Rac GTPase and two specialized cytosolic proteins that harbor SH3 domains, p67phox and p47phox. Another SH3-domain-containing protein p40phox, which is constitutively associated with p67phox in phagocytes, also enters the complex upon cell stimulation. Here we describe how we cloned mouse cDNAs encoding p40phox and its partner in phagocytes, p67phox. Both p40phox and p67phox comprise several protein-binding modules that are structurally and functionally well conserved between mouse and human, indicating their nature as adaptor proteins. We have also systematically investigated expression of the gene for p40phox in comparison with those for p67phox and p47phox. Distributions of the mRNAs for the three proteins among tissues are similar, with the most abundant expression in the spleen. The messages are abundant not only in phagocytic cells, but also in B cell lineage. The p40phox gene, but not the other two, is expressed in some types of cells such as plasma cells and T lymphocytes. Furthermore, in situ hybridization analysis shows that the p40phox mRNA is distributed in neuronal cells of mouse brain, providing evidence that one of the genes for the specialized oxidase factors is expressed in neurons. These observations raise the possibility that the adaptor protein p40phox plays a heretofore unsuspected role via interacting with other proteins in the cells that do not express p67phox or p47phox.
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PMID:Functional modules and expression of mouse p40(phox) and p67(phox), SH3-domain-containing proteins involved in the phagocyte NADPH oxidase complex. 949 28

The superoxide-generating NADPH oxidase, dormant in resting phagocytes, is activated during phagocytosis following assembly of the membrane-integrated protein cytochrome b558 and cytosolic factors. Among the latter are the three proteins containing Src homology 3 (SH3) domains, p67phox, p47phox and p40phox. While the first two factors are indispensable for the activity, p40phox is tightly associated with p67phox in resting cells and is suggested to have some modulatory role. Here we describe a systematic analysis of the interaction between p40phox and p67phox using the yeast two-hybrid system and in vitro binding assays with recombinant proteins. Both methods unequivocally showed that the minimum requirements for stable interaction are the C-terminal region of p40phox and the region between the two SH3 domains of p67phox. This interaction is maintained even in the presence of anionic amphiphiles used for the activation of the NADPH oxidase, raising a possibility that it mediates constitutive association of the two factors in both resting and activated cells. The C-terminal region of p40phox responsible for the interaction contains a characteristic stretch of amino acids designated as the PC motif, that also exists in other signal-transducing proteins from yeast to human. Intensive site-directed mutagenesis to the motif in p40phox revealed that it plays a critical role in the binding to p67phox. Thus the PC motif appears to represent a novel module for protein-protein interaction used in a variety of signaling pathways.
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PMID:The PC motif: a novel and evolutionarily conserved sequence involved in interaction between p40phox and p67phox, SH3 domain-containing cytosolic factors of the phagocyte NADPH oxidase. 949 29

Plasma membranes of neutrophil cells contain the redox component of the O2(-)-generating NADPH oxidase complex, namely a heterodimeric flavocytochrome b consisting of an alpha subunit of 22 kDa and a beta subunit of 85-105 kDa of a glycoprotein nature. The NADPH oxidase is dormant in resting neutrophils. When neutrophils are exposed to a variety of particulate or soluble stimuli, the oxidase becomes activated, due to the assembly on the membrane-bound flavocytochrome b of three cytosolic factors, p47phox, p67phox and Rac 2 (or Rac 1). The effect of phenylarsine oxide (PAO), which reacts specifically with vicinal and neighbouring thiol groups in proteins, was assayed on the NADPH oxidase activity of bovine neutrophils, elicited after activation of the oxidase in a cell-free system consisting of plasma membranes and cytosol from resting neutrophils, GTP[S], ATP and arachidonic acid; the effect of PAO on the oxidase activation itself was measured independently. PAO preferentially inhibited oxidase activation rather than the elicited oxidase activity, and inhibition resulted from binding of PAO to the membrane component of the cell-free system. To determine the PAO-binding protein responsible for the loss of oxidase activation, we used photoaffinity labeling with a tritiated azido derivative of PAO, 4-[N-(4-azido-2-nitrophenyl)amino-[3H]acetamido]phenylarsine oxide, ([3H]azido-PAO). Photoirradiation of plasma membranes from resting neutrophils in the presence of [3H]azido-PAO resulted in the prominent labeling of a protein of 85-105 kDa whose migration on SDS/PAGE coincided with that of the beta subunit of flavocytochrome b as identified by immunoreaction. Upon deglycosylation, the photolabeled band at 85-105 kDa was shifted to 50-60 kDa as was the immunodetected beta subunit. Similar results were obtained with isolated flavocytochrome b in liposomes. Photoaffinity labeling of the beta subunit of the membrane-bound flavocytochrome b or the isolated flavocytochrome b in liposomes resulted in abolition of oxidase activation in the reconstituted cell-free system. Incorporation of [3H]azido-PAO into flavocytochrome b was negligible when photoaffinity labeling was performed on neutrophil membranes that had been previously activated. The results suggest that the beta subunit of flavocytochrome contains two target sites for PAO which are accessible in resting neutrophils, but not in activated neutrophils.
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PMID:Phenylarsine oxide as an inhibitor of the activation of the neutrophil NADPH oxidase--identification of the beta subunit of the flavocytochrome b component of the NADPH oxidase as a target site for phenylarsine oxide by photoaffinity labeling and photoinactivation. 949 37

Site-directed mutagenesis was used to generate a series of substitutions and deletions in the carboxyl-terminal 11 residues of gp91phox, the 91-kDa subunit of the phagocyte NADPH oxidase flavocytochrome b558. This region encompasses 559RGVHFIF565, implicated as a contact point for the cytosolic oxidase subunit p47phox during oxidase activation, and a carboxyl-terminal phenylalanine (Phe570), which corresponds in position to a highly conserved aromatic residue that interacts with the flavin group in the ferredoxin-NADP+ reductase flavoenzyme family, of which gp91phox is a member. Mutant proteins were expressed in human myeloid leukemia cells which lack expression of endogenous gp91phox due to targeted disruption of the X-linked gp91phox gene. Although specific residues within 559RGVHFIF565 had previously been identified by alanine scanning as essential for peptide inhibition of oxidase activity in a cell-free assay, comparable substitutions in the gp91phox polypeptide had either no or only a modest effect on oxidase activity in whole cells. Replacement of nonpolar with polar or charged residues had greater effects on oxidase activity, but were also associated with decreased gp91phox expression, suggesting that overall protein structure was perturbed. No stable gp91phox protein was detected upon deletion of the terminal 11 amino acids. Alanine substitution or deletion of the carboxyl-terminal Phe570 in gp91phox resulted in a 2-fold reduction in superoxide production. This contrasts with a approximately 300-800-fold reduction reported for comparable mutations in pea ferredoxin-NADP+ reductase, which suggests that structural or functional differences exist between the carboxyl terminus of gp91phox and other ferredoxin-NADP+ reductases.
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PMID:Probing the role of the carboxyl terminus of the gp91phox subunit of neutrophil flavocytochrome b558 using site-directed mutagenesis. 949 94

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