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)

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

Guinea pig gastric pit cells express an isozyme of gp91-phox, mitogen oxidase 1 (Mox1), and essential components for the phagocyte NADPH oxidase (p67-, p47-, p40-, and p22-phox). Helicobacter pylori lipopolysaccharide (LPS) and Escherichia coli LPS have been shown to function as potent activators for the Mox1 oxidase. These cells spontaneously secreted about 10 nmol of superoxide anion (O(2)(-))/mg of protein/h under LPS-free conditions. They expressed the mRNA and protein of Toll-like receptor 4 (TLR4) but not those of TLR2. LPS from type I H. pylori at 2.1 endotoxin units/ml or higher stimulated TLR4-mediated phosphorylations of transforming growth factor beta-activated kinase 1 and its binding protein 1 induced TLR4 and p67-phox and up-regulated O(2)(-) production 10-fold. In contrast, none of these events occurred with H. pylori LPS from complete or partial deletion mutants of the cag pathogenicity island. Lipid A was confirmed to be a bioactive component for the priming effects, while removal of bisphosphates from lipid A completely eliminated the effects, suggesting the importance of the phosphorylation pattern besides the acylation pattern for the bioactivity. H. pylori LPS is generally accepted as having low toxicity; however, our results suggest that type I H. pylori lipid A may be a potent stimulator for innate immune responses of gastric mucosa by stimulating the TLR4 cascade and Mox1 oxidase in pit cells.
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PMID:Type I Helicobacter pylori lipopolysaccharide stimulates toll-like receptor 4 and activates mitogen oxidase 1 in gastric pit cells. 1140 77

Chronic granulomatous disease (CGD) is a rare inherited immunodeficiency that is caused by a functional defect of the NADPH oxidase of phagocytes, and that leads to severe recurrent infections. CGD results from the absence or the dysfunction of various components of NADPH oxidase, and autosomal recessive CGD with the lack of p67-phox (A67 CGD) is the rarest form of the disease. Identifying familiar mutations in subjects with A67 CGD provides the most reliable method of detecting carriers and is the basis for prenatal diagnosis. In the present study, we report the detailed characterization of the first duplication in the p67-phox gene identified in a 30-year-old patient affected by systemic aspergillosis attributable to p67-phox deficiency. We show that this new mutation involving exons 9 and 10 is the result of a tandem duplication of approximately 1.1 kb, which resulted from the juxtaposition of intron 8 to intron 10. We have sequenced both the junction fragment of this duplication and the corresponding wild-type regions and have found that the breakpoint regions in intron 8 and in intron 10 show limited homology. Our result suggests that this interchange arose as an illegitimate recombination event. As in other non-homologous rearrangements previously reported, the duplication breakpoints are located within the sequence motif 5'-CCAG-3' and its complement 5'-CTGG-3'.
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PMID:A 1.1-kb duplication in the p67-phox gene causes chronic granulomatous disease. 1149 76

It has been previously reported that although inducible nitric oxide synthase (iNOS) gene knockout (NOS2(-/-)) mice resolve Chlamydia trachomatis genital infection, the production of reactive nitrogen species (RNS) via iNOS protects a significant proportion of mice from hydrosalpinx formation and infertility. We now report that higher in vivo RNS production correlates with mouse strain-related innate resistance to hydrosalpinx formation. We also show that mice with a deletion of a key component of phagocyte NADPH oxidase (p47(phox-/-)) resolve infection, produce greater amounts of RNS in vivo, and sustain lower rates of hydrosalpinx formation than both wild-type (WT) NOS2(+/+) and NOS2(-/-) controls. When we induced an in vivo chemical block in iNOS activity in p47(phox-/-) mice using N(G)-monomethyl-L-arginine (L-NMMA), a large proportion of these mice eventually succumbed to opportunistic infections, but not before they resolved their chlamydial infections. Interestingly, when compared to WT and untreated p47(phox-/-) controls, L-NMMA-treated p47(phox-/-) mice resolved their infections more rapidly. However, L-NMMA-treated p47(phox-/-) mice lost resistance to chronic chlamydial disease, as evidenced by an increased rate of hydrosalpinx formation that was comparable to that for NOS2(-/-) mice. We conclude that phagocyte oxidase-derived reactive oxygen species (ROS) regulate RNS during chlamydial urogenital infection in the mouse. We further conclude that while neither phagocyte oxidase-derived ROS nor iNOS-derived RNS are essential for resolution of infection, RNS protect from chronic chlamydial disease in this model.
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PMID:Role for inducible nitric oxide synthase in protection from chronic Chlamydia trachomatis urogenital disease in mice and its regulation by oxygen free radicals. 1170 10

Host responses during the later stages of Salmonella-macrophage interactions are critical to controlling infection but have not been well characterized. After 24 h of infection, nearly half of interferon-gamma-primed murine RAW 264.7 macrophage-like cells infected by Salmonella enterica serovar Typhimurium contained filamentous bacteria. Bacterial filamentation indicates a defect in completing replication and has been previously observed in bacteria responding to a variety of stresses. To understand whether macrophage gene expression was responsible for this effect on Salmonella Typhimurium replication, we used gene arrays to profile interferon-gamma-primed RAW 264.7 cell gene expression following infection. We observed an increase in MEK1 kinase mRNA at 8 h, an increase in MEK protein at 24 h, and measured phosphorylation of MEK's downstream target kinase, ERK1/2, throughout the 24-h infection period. Treatment of cells with MEK kinase inhibitors significantly reduced numbers of filamentous bacteria observed within macrophages after 24 h and increased the number of intracellular colony-forming units. Phagocyte NADPH oxidase inhibitors and antioxidants also significantly reduced bacterial filamentation. Either MEK kinase or phagocyte oxidase inhibitors could be added 4-8 h after infection and still significantly decrease bacterial filamentation. Oxidase activity appears to mediate bacterial filamentation in parallel to MEK kinase signaling, while inducible nitric-oxide synthase inhibitors had no significant effect on bacterial morphology. In summary, Salmonella Typhimurium infection of interferon-gamma-primed macrophages triggers a MEK kinase cascade at later infection times, and both MEK kinase and phagocyte NADPH oxidase activity impair bacterial replication. These two signaling pathways mediate a host bacteriostatic pathway and may play an important role in innate host defense against intracellular pathogens.
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PMID:Macrophages inhibit Salmonella typhimurium replication through MEK/ERK kinase and phagocyte NADPH oxidase activities. 1182 96

Neutrophils represent the first line of defence against invading microorganisms. An important part of this defence mechanism is the generation of superoxide (O2*-) and its reactive derivatives after stimulation by a variety of agents. This oxidant production is linked to the activation of NADPH oxidase, which is composed of cytosolic components (p47-phox and p67-phox) and membrane components (p22-phox and gp91-phox). Previous studies have shown that NADPH oxidase resides in the plasma membrane and the traditional view holds that cytoplasmic components of NADPH oxidase are brought into the neighbourhood of the plasma membrane and then conjugated with its membrane components upon stimulation. This review focuses on the evaluation of NADPH oxidase-activated sites in human neutrophils. Based on electron microscopic analysis, O2*- is first generated upon stimulation with certain stimulants, such as phorbol myristate acetate, within a specialized intracellular compartment containing alkaline phosphatase, and not on the plasma membrane, as previously thought. In addition, the cytosolic component of NADPH oxidase, p47-phox, accumulates at the juxtaposition of intracellular compartments but not of the plasma membrane. These results demonstrate that initial O2*- production occurs in an intracellular pool in human neutrophils. The oxidant-producing granules then bind directly to the plasma membrane or fuse to form larger structures that eventually become to be associated with the plasma membrane, and O2*- is released extracellularly from the neutrophils.
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PMID:Study of NADPH oxidase-activated sites in human neutrophils. 1200 67

NO appears as an important determinant in auto and paracrine macrophage function. We hypothesized that NO switches monocyte/macrophage function from a pro- to an anti-inflammatory phenotype by activating anti-inflammatory properties of the peroxisome proliferator-activated receptor (PPAR)gamma. NO-releasing compounds (100 micro M S-nitrosoglutathione or 50 micro M spermine-NONOate) as well as inducible NO synthase induction provoked activation of PPARgamma. This was proven by EMSAs, with the notion that supershift analysis pointed to the involvement of PPARgamma. PCR analysis ruled out induction of PPARgamma mRNA as a result of NO supplementation. Reporter assays, with a construct containing a triple PPAR response element in front of a thymidine kinase minimal promoter driving the luciferase gene, were positive in response to NO delivery. DNA binding capacity as well as the transactivating capability of PPARgamma were attenuated by addition of the antioxidant N-acetyl-cysteine or in the presence of the NO scavenger 2-phenyl-4,4,5,6-tetramethyl-imidazoline-1-oxyl 3-oxide. Having established that NO but not lipophilic cyclic GMP analogs activated PPARgamma, we verified potential anti-inflammatory consequences. The oxidative burst of macrophages, evoked by phorbol ester, was attenuated in association with NO-elicited PPARgamma activation. A cause-effect relationship was demonstrated when PPAR response element decoy oligonucleotides, supplied in front of NO delivery, allowed to regain an oxidative response. PPARgamma-mediated down-regulation of p47 phagocyte oxidase, a component of the NAD(P)H oxidase system, was identified as one molecular mechanism causing inhibition of superoxide radical formation. We conclude that NO participates in controlling the pro- vs anti-inflammatory phenotype of macrophages by modulating PPARgamma.
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PMID:Activation of peroxisome proliferator-activated receptor gamma by nitric oxide in monocytes/macrophages down-regulates p47phox and attenuates the respiratory burst. 1219 33

Human normal and transformed (Caco-2) colon tissues as well as guinea pig gastric mucosal cells express Nox1, which is a homolog of the phagocyte NADPH oxidase subunit, gp91(phox) of membrane-bound cytochrome b(558). It was reported that Nox1-transfection to NIH 3T3 cells could provide O(2)(-)-generating ability, independently of regulatory cytosolic factors (Rac2, p67(phox), and p47(phox)) that are obligatory in the phagocyte oxidase system. Here, we detected and sequenced a p67(phox) homolog in Caco-2 almost identical to the neutrophil sequence, except for three nucleotide substitutions, two of which changed lysines 181 and 328 to arginines. Investigation of its ability to support O(2)(-)-generation in cell-free reconstitution experiments combining with neutrophil cytochrome b(558) showed O(2)(-)-generation, provided that recombinant p47(phox) was added. This result demonstrates that the intrinsic p67(phox) homolog of Caco-2 was able to function as a phagocyte p67(phox) for cytochrome b(558). The requirement of p47(phox) addition suggested that this component was absent in Caco-2 cells. Caco-2 membranes, used as a source of Nox1 in place of cytochrome b(558), did not show significant O(2)(-)-generation, which was mainly explained by their very little Nox1 expression.
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PMID:Expression of a p67(phox) homolog in Caco-2 cells giving O(2)(-)-reconstituting ability to cytochrome b(558) together with recombinant p47(phox). 1220 19

Activation of the superoxide-producing phagocyte NADPH oxidase, crucial in host defense, requires the cytosolic proteins p67(phox) and p47(phox). They translocate to the membrane upon cell stimulation and activate flavocytochrome b(558), the membrane-integrated catalytic core of this enzyme system. The activators p67(phox) and p47(phox) form a ternary complex together with p40(phox), an adaptor protein with unknown function, comprising the PX/PB2, SH3 and PC motif- containing domains: p40(phox) associates with p67(phox) via binding of the p40(phox) PC motif to the p67(phox) PB1 domain, while p47(phox) directly interacts with p67(phox) but not with p40(phox). Here we show that p40(phox) enhances membrane translocation of p67(phox) and p47(phox) in stimulated cells, which leads to facilitated production of superoxide. The enhancement cannot be elicited by a mutant p40(phox) carrying the D289A substitution in PC or a p67(phox) with the K355A substitution in PB1, each being defective in binding to its respective partner. Thus p40(phox) participates in activation of the phagocyte oxidase by regulating membrane recruitment of p67(phox) and p47(phox) via the PB1-PC interaction with p67(phox).
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PMID:The adaptor protein p40(phox) as a positive regulator of the superoxide-producing phagocyte oxidase. 2748

In an early step in the assembly of the phagocyte NADPH oxidase, p47-phox translocates from the cytosol to the membrane, mediated by engagement of the N-termini of two p47-phox Src homology 3 (SH3) domains with a proline-rich region (PRR) in the p22-phox subunit of cytochrome b (558). In response to phagocyte activation, several serine residues in a C-terminal arginine/lysine-rich domain of p47-phox are phosphorylated, leading to changes in the conformation of p47-phox and exposure of its N-terminal SH3 domain that is normally masked by internal association with the arginine/lysine-rich domain. We report that triple alanine substitutions at Asp-217, Glu-218 and Glu-223 in a short sequence that links the tandem p47-phox SH3 domains unmasked the N-terminal SH3 domain, similar to the effects of aspartic acid substitutions at Ser-310 and Ser-328 in the arginine/lysine-rich region. Recombinant p47-phox proteins with mutations in either the linker region or the arginine/lysine-rich domain were active in the absence of arachidonic acid stimulation in a cell-free NADPH oxidase system consisting of recombinant p67-phox, Rac1-guanosine 5'-[gamma-thio]triphosphate and neutrophil membranes. Supplementing neutrophil membranes with phosphoinositides or other negatively charged phospholipids markedly enhanced cell-free superoxide generation by these p47-phox mutants in the absence of arachidonic acid, to levels equivalent to those generated by wild-type p47-phox following arachidonic acid activation. This enhancement may be related to recruitment to the membrane of p47-phox mediated by a novel secondary phox homology (PX) domain binding site that broadly recognizes phospholipids. No specific enhancement by specific phosphorylated phosphatidylinositols was found to suggest a dominant role for the p47-phox primary PX domain binding site. Truncated p47-phox S310D S328D lacking the C-terminal PRR was inactive in the cell-free system without arachidonic acid, but was fully active with arachidonic acid. This suggests that activation of NADPH oxidase in an arachidonate-free cell-free system requires association of the p47-phox C-terminal PRR with the p67-phox C-terminal SH3 domain.
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PMID:Properties of phagocyte NADPH oxidase p47-phox mutants with unmasked SH3 (Src homology 3) domains: full reconstitution of oxidase activity in a semi-recombinant cell-free system lacking arachidonic acid. 1265 Jun 41


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