EC:1.6.99.6 - FACTA Search

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)

Tumor necrosis factor plays a critical role in airway smooth muscle hyperresponsiveness observed in asthma. However, the mechanisms underlying this phenomenon are poorly understood. We investigated if tumor necrosis factor-stimulated airway smooth muscle produced reactive oxygen species, leading to muscular hyperresponsiveness. Tumor necrosis factor increased intracellular and extracellular oxidants production in guinea pig airway smooth muscle cells and tissue homogenates. This production was abolished by inhibitors of NADPH oxidase (diphenylene iodinium or apocynin) and was enhanced by NADPH, whereas inhibitors of mitochondrial respiratory chain, nitric-oxide synthase, cyclooxygenase, and xanthine oxidase had no effect. NADPH oxidase subunits p22(phox) and p47(phox) were detected in smooth muscle cells and tissue homogenates by Western blot, immunohistochemistry, and spectral analysis. Furthermore, oxidants production was significantly reduced by transient transfection of smooth muscle cells with p22(phox) antisense oligonucleotides. Intracellular antioxidants and diphenylene iodinium abolished tumor necrosis factor-induced muscular hyperresponsiveness and increased in phosphorylation of the myosin light chain. Finally, NADPH oxidase subunits p22(phox) and p47(phox) were also detected in human airway smooth muscle. Collectively, these results demonstrate that tumor necrosis factor-stimulated airway smooth muscle produces oxidants through a NADPH oxidase-like system, which plays a pivotal role in muscle hyperresponsiveness and myosin light chain phosphorylation.
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PMID:Tumor necrosis factor-alpha increases airway smooth muscle oxidants production through a NADPH oxidase-like system to enhance myosin light chain phosphorylation and contractility. 1194 May 77

Abdominal aortic aneurysm (AAA) is an inflammatory disorder characterized by localized connective tissue degradation and smooth muscle cell (SMC) apoptosis, leading to aortic dilatation and rupture. Reactive oxygen species are abundantly produced during inflammatory processes and can stimulate connective tissue-degrading proteases and apoptosis of SMCs. We hypothesized that reactive oxygen species are locally increased in AAA and lead to enhanced oxidative stress. In aortas from patients undergoing surgical repair, superoxide levels (measured by lucigenin-enhanced chemiluminescence) were 2.5-fold higher in the AAA segments compared with the adjacent nonaneurysmal aortic (NA) segments (6638+/-2164 versus 2675+/-1027 relative light units for 5 minutes per millimeter squared, respectively; n=7). Formation of thiobarbituric acid-reactive substances and conjugated dienes, 2 indices of lipid peroxidation, were increased 3-fold in AAA compared with NA segments. Immunostaining for nitrotyrosine was significantly greater in AAA tissue. Dihydroethidium staining indicated that increased superoxide in AAA segments was localized to infiltrating inflammatory cells and to SMCs. Expression of the NADPH oxidase subunits p47(phox) and p22(phox) and NAD(P)H oxidase activity were increased in AAA segments compared with NA segments. Thus, oxidative stress is markedly increased in AAA, in part through the activation of NAD(P)H oxidase, and may contribute to the disease pathogenesis.
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PMID:Oxidative stress in human abdominal aortic aneurysms: a potential mediator of aneurysmal remodeling. 1195 Jun 91

The NADPH oxidase is a multicomponent enzyme that transfers electrons from NADPH to O2 to generate superoxide (O2*-), the precursor of microbicidal oxygen species that play an important role in host defense. Flavocytochrome b558, a heterodimeric oxidoreductase comprised of gp91(phox) and p22(phox) subunits, contains two nonidentical, bis-histidine-ligated heme groups imbedded within the membrane. Four histidine residues that appear to serve as noncovalent axial heme ligands reside within the hydrophobic N terminus of gp91(phox), but the role of p22(phox) in heme binding is unclear. We compared biochemical and functional features of wild type flavocytochrome b558 with those in cells co-expressing gp91(phox) with p22(phox) harboring amino acid substitutions at histidine 94, the only invariant histidine residue within the p22(phox) subunit. Substitution with leucine, tyrosine, or methionine did not affect heterodimer formation or flavocytochrome b558 function. The heme spectrum in purified preparations of flavocytochrome b558 containing the p22(phox) derivative was unaffected. In contrast, substitution of histidine 94 with arginine appeared to disrupt the intrinsic stability of p22(phox) and, secondarily, the stability of mature gp91(phox) and abrogated O2*- production. These findings demonstrate that His94 p22(phox) is not required for heme binding or function of flavocytochrome b558 in the NADPH oxidase.
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PMID:Mutagenesis of p22(phox) histidine 94. A histidine in this position is not required for flavocytochrome b558 function. 1204 18

Production of superoxide anions by the multicomponent enzyme of human neutrophil NADPH oxidase is accompanied by extensive phosphorylation of p47(phox), one of its cytosolic components. p47(phox) is an excellent substrate for protein kinase C (PKC), but the respective contribution of each PKC isoform to this process is not clearly defined. In this study, we found that PKC isoforms known to be present in human neutrophils (PKC alpha, beta, delta, and zeta) phosphorylate p47(phox) in a time- and concentration-dependent manner, with apparent K(m) values of 10.33, 3.37, 2.37, and 2.13 microM for PKC alpha, beta II, delta, and zeta, respectively. Phosphopeptide mapping of p47(phox) showed that, as opposed to PKC zeta, PKC alpha, beta II, and delta are able to phosphorylate all the major PKC sites. The use of p47(phox) mutants identified serines 303, 304, 315, 320, 328, 359, 370, and 379 as targets of PKC alpha, beta II, and delta. Comparison of the intensity of phosphopeptides suggests that Ser 328 is the most phosphorylated serine. The ability of each PKC isoform to induce p47(phox) to associate with p22(phox) was tested by using an overlay technique; the results showed that all the PKC isoforms that were studied induce p47(phox) binding to the cytosolic fragment of p22(phox). In addition, PKC alpha, beta II, delta, and zeta were able to induce production of superoxide anions in a cell-free system using recombinant cytosolic proteins. Surprisingly, PKC zeta, which phosphorylates a subset of selective p47(phox) sites, induced stronger activation of the NADPH oxidase. Taken together, these results suggest that PKC alpha, beta II, delta, and zeta expressed in human neutrophils can individually phosphorylate p47(phox) and induce both its translocation and NADPH oxidase activation. In addition, phosphorylation of some serines could have an inhibitory effect on oxidase activation.
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PMID:Phosphorylation of p47phox sites by PKC alpha, beta II, delta, and zeta: effect on binding to p22phox and on NADPH oxidase activation. 1205 6

Chronic granulomatous disease (CGD) is a rare congenital disorder in which phagocytes cannot generate superoxide (O(2)(-)) and other microbicidal oxidants because of mutations in one of the four components of the O(2)(-)-generating NADPH oxidase complex. A subgroup (approximately 5% of identified CGD patients) has been reported to have mutations in the gene encoding the small p22 phox subunit of the flavocytochrome b (558), the redox element of phagocyte NADPH oxidase. Here, we report the case of an autosomal recessive CGD patient with a defect in the p22 phox subunit. Neutrophils failed to produce O(2)(-) in response to soluble and particulate stimuli, and cytochrome b (558) was absent as measured by immunoblotting and difference absorption spectra. Mutations in the p22 phox mRNA of the patient were detected by reverse transcription/polymerase chain reaction amplification and sequencing. The defect in the mRNA was a 179-bp insertion associated with a 21-bp deletion of the beginning of exon 5 at position 315 from the translation start codon of the p22 phox cDNA. This defect was also detected in the patient's parents. In the genomic DNA of the patient, the molecular defect was a homozygous 36-bp deletion in the linking sequence between intron 4 and exon 5. This genomic deletion corresponded to 15 bp of the 3' extremity of intron 4 and 21 bp of the beginning of exon 5 (the same deletion of exon 5 seen in the corresponding mRNA). The splicing mRNA error is attributable to the loss of the ag acceptor site of intron 4 and the utilization of a cryptic splice site with an ag sequence at position 355-356 of intron 4.
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PMID:A novel and unusual case of chronic granulomatous disease in a child with a homozygous 36-bp deletion in the CYBA gene (A22(0)) leading to the activation of a cryptic splice site in intron 4. 1207 15

During the host defense process, neutrophils migrate into infected tissues where they become activated, resulting in the assembly of a superoxide anion-generating complex known as the NADPH oxidase. Despite the importance of this system in animal host defense, almost nothing is known about the NADPH oxidase in neutrophils from wild ruminant species. In the present studies, we provide a molecular analysis of the bison leukocyte NADPH oxidase. Using reverse transcriptase-polymerase chain reaction and rapid amplification of cDNA ends, we cloned and sequenced the full-length cDNAs for five bison NADPH oxidase components: p22(phox), p40(phox), p47(phox) and p67(phox), and gp91(phox). When compared to other species, the deduced amino acid sequences of the bison homologs were most similar to those of bovine. Interestingly, a bison p40(phox) alternative splice product was isolated, which was similar to that observed for human p40(phox) in that the cDNAs contained sequence from intron 8. Consistent with the high degree of similarity between bison and bovine amino acid sequences, immunoblot analysis showed that the bison homologs migrated similarly to their bovine counterparts. Overall, these studies show that the bison and bovine NADPH oxidase genes are highly conserved between these two species, despite their divergence from a common ancestor over 1 million years ago.
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PMID:Molecular analysis of the bison phagocyte NADPH oxidase: cloning and sequencing of five NADPH oxidase cDNAs. 1222 6

The effect of glutamine on the activity of the NADPH oxidase complex from rat neutrophils was investigated. Superoxide anion (O(2)(-)) production was assessed: (1) by scintillation counting by using lucigenin, and (2) by reduction of cytochrome c over 10 min. The effects of glutamine and PMA on the expression of the NADPH oxidase components p22( phox ), gp91( phox ) and p47( phox ) were also determined. Glutamine at 1 and 2 mM increased O(2)(-) generation in the presence of PMA by 100% and 74% respectively, in neutrophils maintained previously for 3 h in medium deprived of this amino acid. DON (6-diazo-5-oxo-L-norleucine), an inhibitor of phosphate-dependent glutaminase and thus of glutamine metabolism, caused a significant decrease in O(2)(-) production by neutrophils stimulated with PMA both in the absence (44%) and in the presence (66%) of glutamine. PMA markedly increased the expression of gp91( phox ), p22( phox ) and p47( phox ) mRNAs. Glutamine (2 mM) increased the expression of these three proteins both in the absence and in the presence of PMA. We postulate that glutamine leads to O(2)(-) production in neutrophils, probably via the generation of ATP and regulation of the expression of components of NADPH oxidase.
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PMID:Glutamine plays a role in superoxide production and the expression of p47phox, p22phox and gp91phox in rat neutrophils. 1224 40

Increased reactive oxygen species (ROS) production is implicated in the pathophysiology of left ventricular (LV) hypertrophy and heart failure. However, the enzymatic sources of myocardial ROS production are unclear. We examined the expression and activity of phagocyte-type NADPH oxidase in LV myocardium in an experimental guinea pig model of progressive pressure-overload LV hypertrophy. Concomitant with the development of LV hypertrophy, NADPH-dependent O2- production in LV homogenates, measured by lucigenin (5 micro mol/L) chemiluminescence or cytochrome c reduction assays, significantly and progressively increased (by approximately 40% at the stage of LV decompensation; P<0.05). O2- production was fully inhibited by diphenyleneiodonium (100 micromol/L). Immunoblotting revealed a progressive increase in expression of the NADPH oxidase subunits p22(phox), gp91(phox), p67(phox), and p47(phox) in the LV hypertrophy group, whereas immunolabeling studies indicated the presence of oxidase subunits in cardiomyocytes and endothelial cells. In parallel with the increase in O2- production, there was a significant increase in activation of extracellular signal-regulated kinase 1/2, extracellular signal-regulated kinase 5, c-Jun NH2-terminal kinase 1/2, and p38 mitogen-activated protein kinase. These data indicate that an NADPH oxidase expressed in cardiomyocytes is a major source of ROS generation in pressure overload LV hypertrophy and may contribute to pathophysiological changes such as the activation of redox-sensitive kinases and progression to heart failure.
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PMID:Activation of NADPH oxidase during progression of cardiac hypertrophy to failure. 1236 50

Hyperoxia increases reactive oxygen species (ROS) production in vascular endothelium; however, the mechanisms involved in ROS generation are not well characterized. We determined the role and regulation of NAD(P)H oxidase in hyperoxia-induced ROS formation in human pulmonary artery endothelial cells (HPAECs). Exposure of HPAECs to hyperoxia for 1, 3, and 12 h increased the generation of superoxide anion, which was blocked by diphenyleneiodonium but not by rotenone or oxypurinol. Furthermore, hyperoxia enhanced NADPH- and NADH-dependent and superoxide dismutase- or diphenyleneiodonium-inhibitable ROS production in HPAECs. Immunohistocytochemistry and Western blotting revealed the presence of gp91, p67 phox, p22 phox, and p47 phox subcomponents of NADPH oxidase in HPAECs. Transfection of HPAECs with p22 phox antisense plasmid inhibited hyperoxia-induced ROS production. Exposure of HPAECs to hyperoxia activated p38 MAPK and ERK, and inhibition of p38 MAPK and MEK1/2 attenuated the hyperoxia-induced ROS generation. These results suggest a role for MAPK in regulating hyperoxia-induced NAD(P)H oxidase activation in HPAECs.
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PMID:Hyperoxia-induced NAD(P)H oxidase activation and regulation by MAP kinases in human lung endothelial cells. 1247 Oct 12

Endothelial cells express a constitutively active phagocyte-type NADPH oxidase whose activity is augmented by agonists such as angiotensin II. We recently reported (Li, J.-M., and Shah, A. M. (2002) J. Biol. Chem. 277, 19952-19960) that in contrast to neutrophils a substantial proportion of the NADPH oxidase in unstimulated endothelial cells exists as preassembled intracellular complexes. Here, we investigate the mechanism of angiotensin II-induced endothelial NADPH oxidase activation. Angiotensin II (100 nmol/liter)-induced reactive oxygen species production (as measured by dichlorohydrofluorescein fluorescence or lucigenin chemiluminescence) was completely absent in coronary microvascular endothelial cells isolated from p47(phox) knockout mice. Transfection of p47(phox) cDNA into p47(phox-/-) cells restored the angiotensin II response, whereas transfection of antisense p47(phox) cDNA into wild-type cells depleted p47(phox) and inhibited the angiotensin II response. In unstimulated human microvascular endothelial cells, there was significant p47(phox)-p22(phox) complex formation but minimal detectable p47(phox) phosphorylation. Angiotensin II induced rapid serine phosphorylation of p47(phox) (within 1 min, peaking at approximately 15 min), a 1.9 +/- 0.1-fold increase in p47(phox)-p22(phox) complex formation and a 1.6 +/- 0.2-fold increase in NADPH-dependent O(2)-* production (p < 0.05). p47(phox) was redistributed to "nuclear" and membrane-enriched cell fractions. These data indicate that angiotensin II-stimulated endothelial NADPH oxidase activity is regulated through serine phosphorylation of p47(phox) and its enhanced binding to p22(phox).
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PMID:Mechanism of endothelial cell NADPH oxidase activation by angiotensin II. Role of the p47phox subunit. 1256 Mar 37

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