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:1.6.3.1 (NADPH oxidase)
11,281 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The leukocyte NADPH oxidase catalyzes the 1-electron reduction of oxygen to O2- at the expense of NADPH: 2 O2 + NADPH --> 2 O2- + NADP+ + H+. The oxidase is dormant in resting cells but acquires activity when the cells are stimulated with a suitable agent. Activation in whole cells is accompanied by extensive phosphorylation of p47(PHOX), an oxidase subunit located in the cytosol of resting cells that during oxidase activation migrates to the plasma membrane to complex with cytochrome b558, an oxidase-specific flavohemoprotein. Oxidase activation can be mimicked in a cell-free system using an anionic amphiphile as activating agent. We now report a cell-free system in which the oxidase can be activated in two stages using phosphorylated p47(PHOX). The first stage, which effects a change in the membrane, requires ATP and GTP and is blocked by the protein kinase inhibitor GF-109203X, suggesting a protein kinase requirement. The second stage requires phosphorylated p47(PHOX) and GTP, but no ATP, and is unaffected by GF-109203X; assembly of the oxidase may take place during this stage. Activation is accomplished by p47(PHOX) phosphorylated by protein kinase C but not protein kinase A or mitogen-activated protein kinase. We believe that activation by phosphorylated p47(PHOX) is more physiological than activation by amphiphiles, because the mutant p47(PHOX) S379A, which is inactive in whole cells, is also inactive in this system but works in systems activated by amphiphiles.
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PMID:Kinase-dependent activation of the leukocyte NADPH oxidase in a cell-free system. Phosphorylation of membranes and p47(PHOX) during oxidase activation. 911 Sep 96

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

In this study we tested the hypothesis that the pentose phosphate pathway (PPP) participates in the meiotic induction of mouse oocytes. The electron acceptors methylene blue, phenazine ethosulfate (PES), and pyrroline-5-carboxylate (P5C) oxidize NADPH to NADP and activate the NADP-dependent enzymes of the PPP. Each of these compounds triggered a dose-dependent increase in meiotic maturation in hypoxanthine-arrested cumulus cell-enclosed oocytes during 17- to 18-h cultures. More than 96% of the oocytes underwent germinal vesicle breakdown (GVB) at the highest concentrations of P5C and PES tested (250 and 1 microM, respectively) as compared to only 45-52% of control oocytes. P5C was also stimulatory to denuded oocytes. Analysis of energy substrates in microdrop cultures revealed a 3.6-fold increase in glucose consumption by PES-treated oocyte-cumulus cell complexes that was associated with stimulation of GVB. On the other hand, 2-deoxyglucose, which interferes with glucose utilization, prevented the induction of maturation brought about by P5C. Apocynin and diphenyleneiodonium, inhibitors of NADPH oxidase, prevented meiotic maturation in the presence or absence of FSH. Gonadotropin-induced maturation was also prevented by 6-aminonicotinamide (6-AN) and dehydroepiandrosterone (DHEA), inhibitors of the two NADP-dependent enzymes of the PPP, and this was accompanied by suppression of glucose consumption. Phosphoribosyl-pyrophosphate (PRPP) is an important compound required in purine metabolism and can be formed from the end product of the oxidative arm of the PPP, ribose-5-phosphate. Ribose, which can be metabolized to PRPP, increased PRPP synthesis in complexes and induced meiotic maturation when added to hypoxanthine-arrested cumulus cell-enclosed oocytes in glucose-free medium in both the presence and absence of FSH. PRPP levels within complexes were also increased by glucose and FSH, but were reduced by hypoxanthine, 6-AN, and DHEA. In addition, exogenous PRPP stimulated maturation in hypoxanthine-arrested oocytes. These results support the proposition that glucose metabolism through the PPP is important in the meiotic induction mechanism and may involve the generation of PRPP that acts, at least in part, through the purine metabolizing pathways.
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PMID:Meiotic induction in cumulus cell-enclosed mouse oocytes: involvement of the pentose phosphate pathway. 954 44

Previous studies on sea urchin eggs indicate that activation of NAD kinase is one of the earliest Ca2+-mediated events of fertilization. The subsequently produced NADP is converted to NADPH by the pentose shunt pathway, and some of this NADPH is used by an NADPH oxidase for generation of H2O2. To examine whether these changes apply generally, we have analyzed changes in pyridine nucleotide content during meiotic maturation and fertilization in eggs from four phyla. Surprisingly, fertilization-associated increases in NAD kinase were found only in echinoid eggs. The ratio of NADPH/NADP (redox ratio) increased from 1-1.6 to 2.5-6 following fertilization of echinoid and also clam eggs. However, the ratio is already >2 for unfertilized asteroid, tunicate and echiuroid eggs, and this ratio is unaffected by fertilization. We conclude that activation of NAD kinase and shifts in pyridine nucleotide metabolism and thereby cellular redox status may have roles that vary between species. In echinoids, a major role is in providing NADPH for H2O2 production, but there may be other yet unappreciated signaling functions for this change.
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PMID:Redox changes during fertilization and maturation of marine invertebrate eggs. 980 68

Intracellular redox levels play an important role in physiology and pathophysiology. The principal intracellular reductant is NADPH, which is required for both the proper activity of the entire antioxidant system and important prooxidant enzymes such as nitric oxide synthase and NADPH oxidase. Thus an easy and accurate measurement of NADPH is very desirable. The method described in this paper is based on the fact that NADH and NADPH (not NAD(+) and NADP(+)) affect absorbance at 340 nm. A single cell extract is separated into three aliquots (A(1), A(2), and A(3)). A(1) is untreated and the absorbance at 340 nm is measured. A(2) is treated with an enzyme that converts all of the NADP(+) to NADPH and then the absorbance at 340 nm is measured. A(3) is treated with an enzyme that converts all of the NADPH to NADP(+) and then the absorbance at 340 nm is measured. A(1) - A(3) is the NADPH content and A(2) - A(1) is the NADP(+) content of the extract. Using this method, we have obtained full recovery of all added nucleotides from cell extracts, thus making the method suitable for the quick determination of NADP(+) and NADPH in living cells. We conclude that this method for the measurement of NADP(+) and NADPH is rapid, simple, accurate, and reliable.
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PMID:A method for determination of pyridine nucleotides using a single extract. 1099 77

A calcium and NAD(P)H-dependent H(2)O(2)-generating activity has been studied in paranodular thyroid tissues from four patients with cold thyroid nodules and from nine diffuse toxic goiters. H(2)O(2) generation was detected both in the particulate (P 3,000 g) and in the microsomal (P 100,000 g) fractions of paranodular tissue surrounding cold thyroid nodules (PN), with the same biochemical properties described for NADPH oxidase found in porcine and human thyroids. In PN tissues, the particulate NADPH oxidase activity (224 +/- 38 nmol H(2)O(2) x h(-1) x mg(-1) protein) was similar to that described for the porcine thyroid enzyme. However, no NADPH oxidase activity was detectable in the particulate fractions from eight diffuse toxic goiter patients treated with iodine before surgery; all but one also received propylthiouracil or methimazole in the preoperative period. Thyroid cytochrome c reductase (diffuse toxic goiters = 438 +/- 104 nmol NADP(+) x h(-1) x mg(-1) protein; PN = 78 +/- 10 nmol NADP(+) x h(-1) x mg(-1) protein) and thyroperoxidase (diffuse toxic goiters = 621 +/- 179 U x g(-1) protein; PN = 232 +/- 121 U x g(-1) protein) activities were unaffected by iodide. Thus, the human NADPH oxidase seems to be inhibited by iodinated compounds in vivo and probably is an enzyme involved in the Wolff-Chaikoff effect. Our findings reinforce the hypothesis that thyroid NADPH oxidase is responsible for the production of H(2)O(2) necessary for thyroid hormone biosynthesis.
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PMID:Ca(2+)/nicotinamide adenine dinucleotide phosphate-dependent H(2)O(2) generation is inhibited by iodide in human thyroids. 1154 71

We report herein the study of two siblings (DESM and DSM) with hypothyroidism, goiter, and positive perchlorate discharge tests (50% and 70%) in a family (M) with no history of consanguinity. Thyroid gland histology showed a predominance of hyperactive follicles, with high epithelial cells and variable colloid content. Thyroid peroxidase iodide oxidation (DESM, 1034; DSM, 1064 U/g protein) and albumin iodination (DESM, 16; DSM, 8 nmol I/mg protein) activities were within the normal range. Tg content was normal in both glands compared with that in diffuse toxic goiter (DESM, 28; DSM, 17; diffuse toxic goiter, 19 mg/g tissue), and Tg could be normally iodinated by thyroid peroxidase in vitro (DESM, 3.4; DSM, 4.3; diffuse toxic goiter, 6.3 nmol I/mg Tg). Thyroid cytochrome c reductase activities in these goiters were higher than that in paranodular tissues (DESM, 473; DSM, 567; paranodular tissues, 78 nmol NADP(+)/h/mg protein). However, thyroid NADPH oxidase activities were very low both in the particulate 3,000 x g (DESM, 4.8; DSM, 44; paranodular tissues, 224 nmol H(2)O(2)/h/mg protein) and in the particulate 100,000 x g fractions (DESM, 40; DSM, 47; paranodular tissues, 200 nmol H(2)O(2)/h/mg protein). Thus, a decreased Ca(2+)/NAD(P)H-dependent H(2)O(2) generation is the probable cause of the organification defect in these goiters.
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PMID:Goiter and hypothyroidism in two siblings due to impaired Ca(+2)/NAD(P)H-dependent H(2)O(2)-generating activity. 1160 May 51

The goal of this study was to determine whether gene transfer of human copper-zinc (Cu/Zn) superoxide dismutase (SOD) has preventive effects on cerebral blood flow (CBF) autoregulatory dysfunction after fluid percussion injury (FPI). Rats subjected to FPI (2-2.5 atm) exhibited enhanced activity of reduced NADP (NADPH) oxidase in the cerebral vasculature. In line with these findings, the rats showed not only reduced vasodilation of the pial artery in response to calcitonin gene-related peptide and levcromakalim but also impaired autoregulatory vasodilation in response to acute hypotension. The FPI-induced hemodynamic alterations were significantly prevented by pretreatment with diphenyleneiodonium (10 micromol/l), an NAD(P)H oxidase inhibitor. Intracisternal application of recombinant adenovirus (100 microl of 1 x 10(10) pfu/ml)-encoding human Cu/Zn SOD 3 days before FPI prevented the impairment of vasodilation to hypotension and vasorelaxants, resulting in the restoration of CBF autoregulation. Our findings demonstrate that FPI-induced impairment of CBF autoregulation is closely related with NAD(P)H oxidase-derived superoxide anion, and these alterations can be prevented by the recombinant adenovirus-mediated transfer of human Cu/Zn SOD gene to the cerebral vasculature.
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PMID:Gene transfer of Cu/Zn SOD to cerebral vessels prevents FPI-induced CBF autoregulatory dysfunction. 1195 50

Nicotinamide adenine dinucleotide phosphate (NADPH) oxidase is an enzyme of phagocytes that produces bactericidal superoxide anion (O(2)(-)) via an electrogenic process. Proton efflux compensates for the charge movement across the cell membrane. The proton channel responsible for the H(+) efflux was thought to be contained within the gp91(phox) subunit of NADPH oxidase, but recent data do not support this idea (DeCoursey, T.E., V.V. Cherny, D. Morgan, B.Z. Katz, and M.C. Dinauer. 2001. J. Biol. Chem. 276:36063-36066). In this study, we investigated electrophysiological properties and superoxide production of COS-7 cells transfected with all NADPH oxidase components required for enzyme function (COS(phox)). The 7D5 antibody, which detects an extracellular epitope of the gp91(phox) protein, labeled 96-98% of COS(phox) cells. NADPH oxidase was functional because COS(phox) (but not COS(WT)) cells stimulated by phorbol myristate acetate (PMA) or arachidonic acid (AA) produced superoxide anion. No proton currents were detected in either wild-type COS-7 cells (COS(WT)) or COS(phox) cells studied at pH(o) 7.0 and pH(i) 5.5 or 7.0. Anion currents that decayed at voltages positive to 40 mV were the only currents observed. PMA or AA did not elicit detectable H(+) current in COS(WT) or COS(phox) cells. Therefore, gp91(phox) does not function as a proton channel in unstimulated cells or in activated cells with a demonstrably functional oxidase.
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PMID:Absence of proton channels in COS-7 cells expressing functional NADPH oxidase components. 1203 64

Reactive oxygen species play an important role in a variety of (patho)physiological vascular processes. Recent publications have produced evidence of a role for putative non-phagocyte NADP oxidase(s) in the vascular production of reactive oxygen species. In the present review, we discuss the detection of the different components of NADP oxidase(s) in the vascular system, together with the putative role of reactive oxygen species produced by vascular NADPH oxidase(s), in both in vitro and in vivo studies.
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PMID:NADPH oxidase(s): new source(s) of reactive oxygen species in the vascular system? 1214 46


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