Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:1.6.99.6 (NADPH oxidase)
10,295 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We present an up-to-date insight into the function of NADPH oxidase in human neutrophils, the signalling pathways involved in activation of this enzyme and the process of association of its components with the cytoskeleton. We also discuss the functional implications of morphological studies revealing localization of the sites of NADPH oxidase activity. An original model of the process of superoxide (O2*-) production in human neutrophils is shown. Organization of NADPH oxidase is associated with several components. Upon stimulation, tri-phox cytosolic components of NADPH oxidase (p40-phox, p47-phox and p67-phox) bind to actin filaments. This process involves other actin-binding proteins, such as cofilin and coronin. Activated protein kinase C, translocated from the plasma membrane, phosphorylates cytosolic components at a scaffold of cytoskeleton. Subsequently, p40-phox, responsible for maintaining the resting state of NADPH oxidase, is separated from other two cytosolic phox proteins following an attachment of the active form of small GTP-binding protein Rac to p67-phox. Cytosolic duo-phox proteins (p47-phox and p67-phox) conjugate with membrane components (gp91-phox, p22-phox and Rapla) of NADPH oxidase residing within membranes of intracellular compartments. This chain of events triggers production of O2*-. Then, oxidant-producing intracellular compartments associate with the plasma membrane. Eventually, intracellularly produced O2*- is released to the extracellular environment through the orifice formed by fusion of oxidant-producing compartments with the plasma membrane. Intracellular movement of the oxidant-producing compartments may be regulated by myosin light chain kinase. The review emphasizes that functional assembly of NADPH oxidase and, therefore, generation of O2*- is accomplished essentially within the intracellular compartments. Upon neutrophil stimulation, intracellularly generated O2*- is transported to the plasma membrane to be released and to ensure host defense against infection.
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PMID:Evaluation of the process for superoxide production by NADPH oxidase in human neutrophils: evidence for cytoplasmic origin of superoxide. 1133 12

Our previous studies indicated that an alternatively spliced variant mRNA of p40-phox, a cytosolic component of NADPH oxidase, is expressed but its protein is hardly detected in myeloid cells such as promyelocytic HL-60 cells and neutrophils. Here, we have examined the stability of p40-phox variant protein in undifferentiated HL-60 cells. When in vitro-translated proteins were incubated with subcellular fractions of HL-60 cells, p40-phox variant protein but not native p40-phox was degraded by the cytosol and granule fractions. The degradation of variant protein by the granule fraction was observed using sonicated but not intact granules, suggesting that the variant protein is unlikely to be degraded by the granules in intact cells. To identify the enzyme(s) involved, we examined the effects of various enzyme inhibitors on the degradation of variant protein by the cytosol fraction. Degradation was completely inhibited by proline-specific serine protease (prolyl endopeptidase) inhibitors but not by proteasome, calpain, and metalloprotease inhibitors. Furthermore, the variant protein was degraded by a purified prolyl endopeptidase, and the degradation was protected by treating HL-60 cells with a cell-permeable inhibitor (S17092-1) for prolyl endopeptidase. These observations suggest that a cytosolic prolyl endopeptidase is involved in the degradation of p40-phox variant protein in myeloid cells.
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PMID:Involvement of cytosolic prolyl endopeptidase in degradation of p40-phox splice variant protein in myeloid cells. 1140 83

PX domains are found in a variety of proteins that associate with cell membranes, but their molecular function has remained obscure. We show here that the PX domains in p47phox and p40phox subunits of the phagocyte NADPH oxidase bind to phosphatidylinositol-3,4-bisphosphate (PtdIns(3,4)P(2)) and phosphatidylinositol-3-phosphate (PtdIns(3)P), respectively. We also show that an Arg-to-Gln mutation in the PX domain of p47phox, which is found in patients with chronic granulomatous disease, eliminates phosphoinositide binding, as does the analogous mutation in the PX domain of p40phox. The PX domain of p40phox localizes specifically to PtdIns(3)P-enriched early endosomes, and this localization is disrupted by inhibition of phosphoinositide-3-OH kinase (PI(3)K) or by the Arg-to-Gln point mutation. These findings provide a molecular foundation to understand the role of PI(3)K in regulating neutrophil function and inflammation, and to identify PX domains as specific phosphoinositide-binding modules involved in signal transduction events in eukaryotic cells.
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PMID:The PX domains of p47phox and p40phox bind to lipid products of PI(3)K. 1198 47

As with the neutrophil NADPH oxidase, the B lymphocyte NADPH oxidase consists of a membrane-bound flavocytochrome b and regulatory factors including Rac and the cytosolic phox protein triad p67phox, p47phox, and p40phox. Here we demonstrate by phosphoamino acid analysis and the use of the potent PKC inhibitor GFX that, in response to stimulation of B lymphocytes with sodium orthovanadate and H(2)O(2), the p40phox component of the cytosolic phox triad is selectively phosphorylated on serine and threonine residues by a PKC-type protein kinase. The pattern of p40phox phosphorylation was closely related to the kinetics of tyrosine phosphorylation of PKC-delta, the main PKC isotype of B lymphocytes. Blocking H(2)O(2)-dependent tyrosine phosphorylation of PKC by genistein resulted in inhibition of p40phox phosphorylation. The correlation between the tyrosine phosphorylation of PKC-delta and the serine/threonine phosphorylation of p40phox, together with the inhibition of p40phox phosphorylation by rottlerin, a selective inhibitor of PKC-delta, makes the activated PKC-delta a likely candidate in the process of the oxidant-dependent phosphorylation of p40phox in B cells.
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PMID:Oxidant-dependent phosphorylation of p40phox in B lymphocytes. 1157 65

The NADPH oxidase of phagocytes is a membrane-bound heterodimeric flavocytochrome which catalyses the transfer of electrons from NADPH in the cytoplasm to oxygen in the phagosome. A number of cytosolic proteins are involved in its activation/deactivation: p47phox, p67phox, p40phox and the small GTP-binding protein, rac. The cytosolic phox proteins interact with the cytoskeleton in human neutrophils and, in particular, an interaction with coronin has been reported (Grogan A., Reeves, E., Keep, N. H., Wientjes, F., Totty, N., Burlingame, N. L., Hsuan, J., and Segal, A. W. (1997) J. Cell Sci. 110, 3071-3081). Here, we report on the interaction of another cytoskeletal protein, moesin, with the phox proteins. Moesin belongs to the ezrin-radixin-moesin family of F-actin-binding proteins and we show that it binds to p47phox and p40phox in a phosphoinositide-dependent manner. Furthermore, we show that its N-terminal part binds to the PX domain of p47phox and p40phox.
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PMID:The NADPH oxidase components p47(phox) and p40(phox) bind to moesin through their PX domain. 1171 84

Neutrophil disfunction, caused by a decreased production of effective radical oxygen species by myeloperoxidase (MPO) and NADPH oxidase within the neutrophil, may result in susceptibility to opportunistic fungal infections. In vitro, MPO produces OCl, which kills bacteria and viruses. In the case of MPO deficiency, susceptibility to Candida albicans infection was observed. Furthermore, it was demonstrated that MPO knockout mice were primarily susceptible to C. albicans infection. With regards to NADPH oxidase deficiency, such a patient was found to have severe chronic granulomatous disease (CGD) due to Aspergillus infection. This deficiency may have resulted from a gene mutation and/or abnormality of the NADH oxidase components, particularly cytochrome b558 (gp91phox and p22phox) in membrane and cytosol factors p47phox, p67phox, p40phox and others in neutrophil. Thus,irregular regulation of transcription factors for gene expression of phox molecules and MPO permits susceptibility to Aspergillus and Candida infections.
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PMID:[Contribution of neutrophils to Aspergillus infection]. 1214 29

The NADPH oxidase complex of phagocytes comprises a membrane-associated flavocytochrome b559, and 4 cytosolic components: p47phox, p67phox, p40phox, and the small GTPase Rac. Activation of the oxidase in vivo is the result of assembly of the cytosolic components with cytochrome b559 and is mimicked in vitro by a cell-free system consisting of membranes, p47phox, p67phox, nonprenylated or prenylated Rac, and an anionic amphiphile as activator (defined as "p47phox and amphiphile-dependent" or canonical pathway). We reported that prenylated Rac1 is capable of activating the NADPH oxidase in vitro in the absence of p47phox and amphiphile (defined as "p47phox and amphiphile-independent" pathway). We now demonstrate that the 2 pathways exhibit distinctive susceptibilities to inhibitors: 1) The anionic amphiphile lithium dodecyl sulfate, an activator of the canonical pathway, has the opposite effect (inhibition) on oxidase activation by prenylated Rac and p67phox; 2) GDP and, paradoxically, GTP (but not GMP, ATP, ADP, and AMP) prevent oxidase activation by the p47phox and amphiphile-independent pathway but do not affect activation by the canonical pathway; 3) The Rac-binding domain of p21-activated kinase is a potent inhibitor of activation by the p47phox and amphiphile-independent pathway while exerting a milder inhibitory effect on the canonical pathway; 4) The C-terminal polybasic Rac1 peptide 177-191 and the cationic antibiotic neomycin sulfate inhibit activation by the canonical pathway but do not affect activation by the p47phox and amphiphile-independent pathway; 5) Binding of prenylated Rac1 to membrane-mimicking phospholipid vesicles is, nevertheless, enhanced when these contain negatively charged lipids. It is proposed that preferential inhibition of oxidase activation, via the p47phox and amphiphile-independent pathway, is a reflection of interference by the inhibitors with Rac-dependent recruitment of p67phox to the membrane.
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PMID:Two pathways of activation of the superoxide-generating NADPH oxidase of phagocytes in vitro--distinctive effects of inhibitors. 1287 68

Neutrophils and other phagocytic cells support host defense by ingesting microbes and destroying them with reactive oxygen species or oxygen independent mechanisms. Production of ROS is initiated by the phagocyte NADPH oxidase (phox), an enzyme system composed of several constituents. During activation of the cell cytosolic phox proteins (p47phox, p67phox, p40phox, and Rac2) translocate to the plasma membrane and specific granules fuse with the plasma membrane increasing the amount of flavocytochrome b(558). The resultant assembly of phox components results in formation of a complete complex and expression of activity. In this study, we evaluated the oxidase activity of specific granules. In the SDS cell-free system, specific granules expressed oxidase activity in the presence of cytosol in a manner similar to plasma membrane. In contrast to plasma membrane, activity of specific granules was latent, diminishing rapidly over time. In addition, this subcellular fraction contained an inhibitor, possibly related to contamination with azurophilic granules explaining previously published discrepant results. Experiments with recombinant p47phox, p67phox, and dilute cytosol or fractionated cytosol as a source of Rac demonstrated that specific granules have requirements identical to specific granules for oxidase activity. Finally, analysis of neutrophils stimulated with PMA demonstrated translocation of p47phox and to p67phox to specific granules as well as plasma membrane. Both plasma membrane and specific granules from PMA stimulated cells expressed oxidase activity with addition of NADPH demonstrating an assembled oxidase complex. These studies establish a critical role for specific granules as a site for assembly and activation of the oxidase enzyme system and an important constituent for the microbicidal activity of the neutrophil.
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PMID:NADPH oxidase activity of neutrophil specific granules: requirements for cytosolic components and evidence of assembly during cell activation. 1505 19

Reactive oxygen species are a critical weapon in the killing of Aspergillus fumigatus by polymorphonuclear leukocytes (PMN), as demonstrated by severe aspergillosis in chronic granulomatous disease. In the present study, A. fumigatus-produced mycotoxins (fumagillin, gliotoxin [GT], and helvolic acid) are examined for their effects on the NADPH oxidase activity in human PMN. Of these mycotoxins, only GT significantly and stoichiometrically inhibits phorbol myristate acetate (PMA)-stimulated O2- generation, while the other two toxins are ineffective. The inhibition is dependent on the disulfide bridge of GT, which interferes with oxidase activation but not catalysis of the activated oxidase. Specifically, GT inhibits PMA-stimulated events: p47phox phosphorylation, its incorporation into the cytoskeleton, and the membrane translocation of p67phox, p47phox, and p40phox, which are crucial steps in the assembly of the active NADPH oxidase. Thus, damage to p47phox phosphorylation is likely a key to inhibiting NADPH oxidase activation. GT does not inhibit the membrane translocation of Rac2. The inhibition of p47phox phosphorylation is due to the defective membrane translocation of protein kinase C (PKC) betaII rather than an effect of GT on PKC betaII activity, suggesting a failure of PKC betaII to associate with the substrate, p47phox, on the membrane. These results suggest that A. fumigatus may confront PMN by inhibiting the assembly of the NADPH oxidase with its hyphal product, GT.
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PMID:Fungal metabolite gliotoxin inhibits assembly of the human respiratory burst NADPH oxidase. 1515 43

The superoxide-producing NADPH oxidase complex of phagocytes plays a crucial role in host defenses against microbial infection. NADPH oxidase consists of a membrane heterodimeric protein, composed of gp91phox and p22phox, and cytosolic proteins, p40phox, p47phox and p67phox. In the present study, cDNAs of all the components of NADPH oxidase were cloned from peripheral white blood cells of the Japanese pufferfish utilizing the reverse transcription-polymerase chain reaction. The sequences of these cDNAs showed that the pufferfish gp91phox, p22phox, p40phox, p47phox and p67phox clones contained open reading frames encoding 565, 186, 348, 423 and 495 amino acids, respectively. Comparison of the deduced amino acid sequences showed that the pufferfish gp91phox, p22phox, p40phox, p47phox and p67phox sequences shared 68.0, 61.8, 53.8, 54.7 and 41.9% identity with those of human components, respectively. gp91phox has three potential N-linked glycosylation sites. gp91phox and p22phox have six and three hydrophobic regions, respectively, that are predicted to be transmembrane regions. p47phox and p67phox have two potential Src homology 3 domains and p40phox has one. The functional domains are highly conserved in many animals, though the sequence of the components of the pufferfish showed low homology with that of mammals. The Fugu NADPH oxidase genes were expressed in various tissues of unstimulated fish. The level of gp91phox, p47phox and p67phox expression were high only in the blood and kidney, while p22phox and p40phox were constitutively expressed in a wide range of tissues. These results suggest that Japanese pufferfish NADPH oxidase components possess functional activities similar to those of human.
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PMID:Molecular cloning and sequencing of Japanese pufferfish (Takifugu rubripes) NADPH oxidase cDNAs. 1518 32


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