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)

Reactive oxygen species (ROS) generated by the NADPH oxidases are conventionally thought to be cytotoxic and mutagenic and at high levels induce an oxidative stress response. The phagocyte NADPH oxidase catalyzes the NADPH-dependent reduction of molecular oxygen to generate superoxide O2-., which can dismute to generate ROS species. Together, these ROS participate in host defence by killing or damaging invading microbes. Flavocytochrome b558 is the catalytic core of the phagocyte NADPH oxidase and consists of a large glycoprotein gp91phox or Nox-2 and a small protein p22phox. The other components of the NADPH oxidase are cytosolic proteins, namely p67phox, p47phox, p40phox and Rac. A defect in any of the genes encoding gp91phox, p22phox, p67phox or p47phox results in chronic granulomatous disease, a genetic disorder characterized by severe and recurrent infections. Evidence is rapidly accumulating that low level of ROS were produced by NADPH oxidase homologs in non-phagocytic cells. To date, six human homologs (Nox-1, Nox-3, Nox-4, Nox-5, Duox-1 and Duox-2) have been recently identified in a variety of non-phagocytic cells. The identification of Nox-1 was quickly followed by the cloning of Nox-3, Nox-4, and Nox-5. In parallel, two very large members of the Nox family were discovered, namely Duox-1 and Duox-2, initially also referred to as thyroid oxidases. The physiological functions of Nox-dependent ROS generation are in progress and still require detailed characterization. Activation mechanisms and tissue distribution of the different members of the Nox family are very different, suggesting distinct physiological functions. Nox family enzymes are likely to be involved in a variety of physiological events including cell proliferation, host defence, differentiation, apoptosis, senescence and activation of growth-related signaling pathways. An increase and a decrease in the function of Nox enzymes can contribute to a wide range of pathological processes.
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PMID:[The Nox/Duox family of ROS-generating NADPH oxidases]. 1710 Oct 97

Activation of the phagocyte NADPH oxidase (phox) requires the association of cytosolic proteins (p67-phox, p47-phox, p40-phox, and Rac1/2) with the membrane cytochrome b558, leading to a hemoprotein conformation change. To clarify this mechanism, the phagocyte NADPH oxidase complex was isolated through cytochrome b558 purification after three chromatographic steps. The purified neutrophil complex was constitutively active in the absence of an amphiphile agent with a maximum turnover (125 mol O2(-) x s(-1) x mol heme b(-1)), indicating that cytochrome b558 has been activated by cytosolic proteins and is in an "open conformation," able to transfer a maximum rate of electrons. In contrast, the phox complex prepared with B lymphocyte cytosol shows a lower constitutive turnover (approximately 50 mol O2(-) x s(-1) x mol heme b(-1)). Analysis of phox complex components by Western blot and mass spectrometry showed the presence of cytosolic factors (especially p67-phox) and structural proteins (moesin, ezrin). To investigate the difference in activity of phox complexes, we evaluated the effect of MRP8 and MRP14, specifically expressed in neutrophils, on the activity of the B lymphocyte complex. MRPs induce the switch between the partially and the fully "open" cytochrome b558 conformation. Moreover, their effect was independent of p67-phox. Data point out two potential cytochrome b558 activation states.
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PMID:Regulation of phagocyte NADPH oxidase activity: identification of two cytochrome b558 activation states. 1722 53

The NADPH oxidase complex of neutrophils and macrophages is an important weapon used by these cells to kill microbial pathogens. The regulation of this enzyme complex is necessarily complicated by the diverse receptor types that are needed to trigger its activation and also the tight control that is required to deliver this activation at the appropriate time and place. As such, several signalling pathways have been established to regulate the NADPH oxidase downstream of cell surface receptors. Central amongst these are PI3K- (phosphoinositide 3-kinase)-dependent pathways, blockade of which severely limits activation of the oxidase to several soluble and particulate stimuli. The precise roles of the phosphoinositide products of PI3K activity in regulating NADPH oxidase assembly and activation are still unclear, but there is emerging evidence that they play a key role via regulation of guanine nucleotide exchange on Rac, a key component in the oxidase complex. There is also very strong evidence that the PI3K products PtdIns(3,4)P2 and PtdIns3P can bind directly to the PX (Phox homology) domains of the core oxidase components p47phox and p40phox respectively. However, the significance of these interactions in terms of membrane localization or allosteric consequences for the oxidase complex remains to be established.
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PMID:The role of PI3Ks in the regulation of the neutrophil NADPH oxidase. 1723 80

The superoxide-producing phagocyte NADPH oxidase is activated during phagocytosis to destroy ingested microbes. The adaptor protein p40phox associates via the PB1 domain with the essential oxidase activator p67phox, and is considered to function by recruiting p67phox to phagosomes; in this process, the PX domain of p40phox binds to phosphatidylinositol 3-phosphate [PtdIns(3)P], a lipid abundant in the phagosomal membrane. Here we show that the PtdIns(3)P-binding activity of p40phox is normally inhibited by the PB1 domain both in vivo and in vitro. The crystal structure of the full-length p40phox reveals that the inhibition is mediated via intramolecular interaction between the PB1 and PX domains. The interface of the p40phox PB1 domain for the PX domain localizes on the opposite side of that for the p67phox PB1 domain, and thus the PB1-mediated PX regulation occurs without preventing the PB1-PB1 association with p67phox.
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PMID:Full-length p40phox structure suggests a basis for regulation mechanism of its membrane binding. 1729 Feb 25

Cytochrome b(558) is the catalytic core of the phagocyte NADPH oxidase that mediates the production of bactericidal reactive oxygen species. Cytochrome b(558) is formed by two subunits gp91-phox and p22-phox (1/1), non-covalently associated. Its activation depends on the interaction with cytosolic regulatory proteins (p67-phox, p47-phox, p40-phox and Rac) leading to an electron transfer from NADPH to molecular oxygen and to the release of superoxide anions. Several studies have suggested that the activation process was linked to a change in cytochrome b(558) conformation. Recently, we confirmed this hypothesis by isolating cytochrome b(558) in a constitutively active form. To characterize active and inactive cytochrome b(558) conformations, we produced four novel monoclonal antibodies (7A2, 13B6, 15B12 and 8G11) raised against a mixture of cytochrome b(558) purified from both resting and stimulated neutrophils. The four antibodies labeled gp91-phox and bound to both native and denatured cytochrome b(558). Interestingly, they were specific of extracellular domains of the protein. Phage display mapping combined to the study of recombinant gp91-phox truncated forms allowed the identification of epitope regions. These antibodies were then employed to investigate the NADPH oxidase activation process. In particular, they were shown to inhibit almost completely the NADPH oxidase activity reconstituted in vitro with membrane and cytosol. Moreover, flow cytometry analysis and confocal microscopy performed on stimulated neutrophils pointed out the capacity of the monoclonal antibody 13B6 to bind preferentially to the active form of cytochrome b(558). All these data suggested that the four novel antibodies are potentially powerful tools to detect the expression of cytochrome b(558) in intact cells and to analyze its membrane topology. Moreover, the antibody 13B6 may be conformationally sensitive and used as a probe for identifying the active NADPH oxidase complex in vivo.
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PMID:New insights into the membrane topology of the phagocyte NADPH oxidase: characterization of an anti-gp91-phox conformational monoclonal antibody. 1739 83

Chronic granulomatous disease (CGD) is a rare inherited disorder in which phagocytes lack NADPH oxidase activity. Patients with CGD suffer from recurrent bacterial and fungal infections because of the absence of superoxide anions (O2- degrees ) generatingsystem. The NADPH oxidase complex is composed of a membranous cytochrome b558, cytosolic proteins p67phox, p47phox, p40phox and two small GTPases Rac2 and Rap1A. Cytochrome b558 consists of two sub-units gp91phox and p22phox. The most common form of CGD is due to mutations in CYBB gene encoding gp91phox. In some rare cases, the mutated gp91phox is normally expressed but is devoided of oxidase activity. These variants called X+ CGD, have provided interesting informations about oxidase activation mechanisms. However modelization of such variants is necessary to obtain enough biological material for studies at the molecular level. A cellular model (knock-out PLB-985 cells) has been developed for expressing recombinant mutated gp91phox for functional analysis of the oxidase complex. Recent works demonstrated that this cell line genetically deficient in gp91phox is a powerful tool for functional analysis of the NADPH oxidase complex activation.
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PMID:[The X+ chronic granulomatous disease as a fabulous model to study the NADPH oxidase complex activation]. 1750 70

Nonphagocytic NADPH oxidases have recently been suggested to play a major role in the regulation of physiological and pathophysiological processes, in particular, hypertrophy, remodeling, and angiogenesis in the systemic circulation. Moreover, NADPH oxidases have been suggested to serve as oxygen sensors in the lung. Chronic hypoxia induces vascular remodeling with medial hypertrophy leading to the development of pulmonary hypertension. We screened lung tissue for the expression of NADPH oxidase subunits. NOX1, NOXA1, NOXO1, p22phox, p47phox, p40phox, p67phox, NOX2, and NOX4 were present in mouse lung tissue. Comparing mice maintained for 21 days under hypoxic (10% O(2)) or normoxic (21% O(2)) conditions, an upregulation exclusively of NOX4 mRNA was observed under hypoxia in homogenized lung tissue, concomitant with increased levels in microdissected pulmonary arterial vessels. In situ hybridization and immunohistological staining for NOX4 in mouse lungs revealed a localization of NOX4 mRNA and protein predominantly in the media of small pulmonary arteries, with increased labeling intensities after chronic exposure to hypoxia. In isolated pulmonary arterial smooth muscle cells (PASMCs), NOX4 was localized primarily to the perinuclear space and its expression levels were increased after exposure to hypoxia. Treatment of PASMCs with siRNA directed against NOX4 decreased NOX4 mRNA levels and reduced PASMC proliferation as well as generation of reactive oxygen species. In lungs from patients with idiopathic pulmonary arterial hypertension (IPAH), expression levels of NOX4, which was localized in the vessel media, were 2.5-fold upregulated. These results support an important role for NOX4 in the vascular remodeling associated with development of pulmonary hypertension.
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PMID:Hypoxia-dependent regulation of nonphagocytic NADPH oxidase subunit NOX4 in the pulmonary vasculature. 1767 80

We previously demonstrated that some fish have unique response in the form of reactive oxygen species (ROS) production. In the present study, we cloned and sequenced the full-length cDNAs for carp (Cyprinus carpio) phagocyte NADPH oxidase components: gp91phox, p22phox, p47phox, p67phox and p40phox. These amino acid sequences were compared with other teleost and mammalian homologues, to elucidate the features of ROS production of fish neutrophils. The phylogeny analysis clearly demonstrates that the radiation of phagocyte oxidase components took place in the common ancestor of teleosts and mammals. Thereafter, the overall structure and expression pattern of phagocyte oxidase have been highly conserved in two different strains. However the amino acid identity of p67phox and p47phox was relatively lower than the amino acid identities of other components. Moreover, a synteny analysis supports the hypothesis that there was strong selective pressure in the p67phox and p47phox genes. Thus, it is likely that the higher divergence of p67phox and p47phox are responsible for the difference of ROS responses between different species of teleosts.
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PMID:Characterization of teleost phagocyte NADPH oxidase: molecular cloning and expression analysis of carp (Cyprinus carpio) phagocyte NADPH oxidase. 1799 60

Neutrophils play an essential role in host defense against microbial pathogens and in the inflammatory reaction. Upon activation, neutrophils produce superoxide anion (O*2), which generates other reactive oxygen species (ROS) such as hydrogen peroxide (H2O2), hydroxyl radical (OH*) and hypochlorous acid (HOCl), together with microbicidal peptides and proteases. The enzyme responsible for O2* production is called the nicotinamide adenine dinucleotide phosphate (NADPH) oxidase or respiratory burst oxidase. This multicomponent enzyme system is composed of two trans-membrane proteins (p22phox and gp91phox/NOX2, which form the cytochrome b558), three cytosolic proteins (p47phox, p67phox, p40phox) and a GTPase (Rac1 or Rac2), which assemble at membrane sites upon cell activation. NADPH oxidase activation in phagocytes can be induced by a large number of soluble and particulate factors. Three major events accompany NAPDH oxidase activation: (1) protein phosphorylation, (2) GTPase activation, and (3) translocation of cytosolic components to the plasma membrane to form the active enzyme. Actually, the neutrophil NADPH oxidase exists in different states: resting, primed, activated, or inactivated. The resting state is found in circulating blood neutrophils. The primed state can be induced by neutrophil adhesion, pro-inflammatory cytokines, lipopolysaccharide, and other agents and has been characterized as a "ready to go" state, which results in a faster and higher response upon exposure to a second stimulus. The active state is found at the inflammatory or infection site. Activation is induced by the pathogen itself or by pathogen-derived formylated peptides and other agents. Finally, inactivation of NADPH oxidase is induced by anti-inflammatory agents to limit inflammation. Priming is a "double-edged sword" process as it contributes to a rapid and efficient elimination of the pathogens but can also induce the generation of large quantities of toxic ROS by hyperactivation of the NADPH oxidase, which can damage surrounding tissues and participate to inflammation. In order to avoid extensive damage to host tissues, NADPH oxidase priming and activation must be tightly regulated. In this review, we will discuss some of the mechanisms of NADPH oxidase priming in neutrophils and the relevance of this process to physiology and pathology.
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PMID:Priming of the neutrophil NADPH oxidase activation: role of p47phox phosphorylation and NOX2 mobilization to the plasma membrane. 1853 19

Cerebellar granule neurons (CGN) cultured in a medium containing 25 mM KCl and treated with staurosporine (ST) or transferred to a medium with 5 mM KCl (K5) die apoptotically. CGN death is mediated by an increase in reactive oxygen species (ROS) production. When CGN are treated with antioxidants all apoptotic parameters and cell death are markedly diminished, showing a central role for ROS in this process. Recently, it has been suggested that a possible ROS source involved in cell death is a NADPH oxidase. In that regard, we found expression in CGN of the components of NADPH proteins, p40phox, p47phox and p67phox, and p22phox, as well as three homologues of the catalytic subunit of this complex, NOX1, 2, and 4. The inhibition of NADPH oxidase with diphenylene iodonium or 4-(2-aminoethyl)benzenesulfonyl fluoride significantly reduced ROS production, NADPH oxidase activity, all the apoptotic events, and cell death induced by both K5 and ST. We conclude that ROS could be an early signal of apoptotic neuronal death and that NADPH oxidase, including NOX1, 2, and/or 4, could have a central role in apoptotic death induced by different conditions in these neurons.
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PMID:Role of NADPH oxidase in the apoptotic death of cultured cerebellar granule neurons. 1867 40

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