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)

NADPH-dependent superoxide generation was activated by anionic amphiphiles plus GTP gamma S in a cell-free system consisting of plasma membranes plus recombinant p47-phox, p67-phox, and the small GTP-binding protein Rac1. Rac1 was expressed in Escherichia coli both as the native form and as a mutant form (Rac1(C189S)) lacking the prenylation site. When preloaded with GTP gamma S, both Rac proteins supported activity to a level comparable to that seen using cytosol. A peptide corresponding to the carboxyl-terminal region of Rac1 was used to investigate oxidase assembly and activation. Rac1(178-188), but not several control peptides, inhibited activity. The peptide inhibited competitively (Ki = 15 microM) with respect to Rac1(C189S), while inhibition was noncompetitive or mixed with respect to p47-phox and p67-phox. This indicated specific inhibition of the interaction of the Rac protein with its target, possibly cytochrome b558. The peptide was effective only when added prior to activation with arachidonic acid, suggesting that it affects assembly rather than activity. Consistent with this possibility, the peptide prevented translocation of p47-phox and p67-phox to the plasma membrane. Thus, Rac plays a central role in the assembly of the neutrophil NADPH oxidase.
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PMID:Participation of the small molecular weight GTP-binding protein Rac1 in cell-free activation and assembly of the respiratory burst oxidase. Inhibition by a carboxyl-terminal Rac peptide. 830 77

The Ras superfamily of GTP-binding proteins (> 50 members) regulates a diverse spectrum of intracellular processes. These include cellular proliferation and differentiation, intracellular vesicular trafficking, cytoskeletal control, NADPH oxidase function, as well as others. In this review, we describe recent progress and emerging themes in the action and regulation of these important cellular regulatory molecules. Structural studies have provided insight into the function of low molecular weight GTP-binding proteins (LMWGs) as molecular switches, and are defining modes of interaction with associated regulatory molecules. Details of the enzymatic processes involved in the posttranslational processing of LMWGs, and how this processing is important for protein function, are being elucidated. A variety of GTPase activating proteins, GDP/GTP dissociation stimulators, and GDP dissociation inhibitors have been identified, and their ability to determine the activity of LMWG-regulated systems is being worked out. The discovery of multifunctional regulatory molecules has indicated that substantial "crosstalk" between various LMWG may occur. The continuing emergence of additional cellular functions that are regulated by LMWGs, and particularly the recent availability of in vitro analytical systems for studies of the mechanism (or mechanisms) of action of LMWGs, is resulting in a wealth of information about the regulation and integration of cellular signaling, form, and function.
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PMID:Emerging concepts in the Ras superfamily of GTP-binding proteins. 833 Jun 83

Neutrophils possess a multicomponent NADPH-oxidase that produces large quantities of superoxide, which can in turn generate other reactive oxygen intermediates. Superoxide and its dismutation product, hydrogen peroxide, are powerful oxidants. Because the activity of certain tyrosine kinases and phosphatases can be affected by their redox state, we considered the possibility that endogenously generated reactive oxygen intermediates (ROI) may alter phosphotyrosine formation and thereby function as intra- or intercellular messengers in neutrophils. Exposure of human neutrophils to exogenous oxidants such as diamide induced marked tyrosine phosphorylation of several cellular proteins. More importantly, activation of the NADPH oxidase in permeabilized neutrophils, by direct stimulation of GTP-binding proteins, also resulted in enhanced tyrosine phosphorylation. The latter was NADPH-dependent, paralleled by production of superoxide, and was inhibited by diphenylene iodonium, an inhibitor of the flavoprotein component of the oxidase. Neutrophils, from a patient with chronic granulomatous disease, which are deficient in the production of ROI, demonstrated no such phosphotyrosine accumulation. We conclude that ROI produced by the NADPH oxidase can regulate tyrosine phosphorylation in granulocytes, possibly by effects of oxidation-sensitive tyrosine kinases and/or phosphatases.
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PMID:Regulation of tyrosine phosphorylation in neutrophils by the NADPH oxidase. Role of reactive oxygen intermediates. 834 2

Rac1 and Rac2 are closely related, low molecular weight GTP-binding proteins that have both been implicated in regulation of phagocyte NADPH oxidase. This enzyme system is composed of multiple membrane-bound and cytosolic subunits and when activated catalyzes the one-electron reduction of oxygen to superoxide. Superoxide and its highly reactive derivatives are essential for killing microorganisms. Rac proteins undergo posttranslational processing, primarily the addition of an isoprenyl group to a carboxyl-terminal cysteine residue. We directly compared recombinant Rac1 and Rac2 in a human neutrophil cell-free NADPH oxidase system in which cytosol was replaced by purified recombinant cytosolic components (p47-phox and p67-phox). Processed Rac1 and Rac2 were both highly active in this system and supported comparable rates of superoxide production. Under different cell-free conditions, however, in which suboptimal amounts of cytosol were present in the assay mixture, processed Rac2 worked much better than Rac1 at all but the lowest concentrations. This suggests that a factor in the cytosol may suppress the activity of Rac1 but not of Rac2. Unprocessed Rac proteins were only weakly able to support superoxide generation in either system, but preloading of Rac1 or Rac2 with guanosine 5'-O-(3-thio-triphosphate) (GTP gamma S) restored activity. These results indicate that processing is required for nucleotide exchange but not for interaction with oxidase components.
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PMID:Requirement for posttranslational processing of Rac GTP-binding proteins for activation of human neutrophil NADPH oxidase. 838 55

We studied a signaling pathway for the activation of the superoxide (O2-)-generating NADPH oxidase and effects of cAMP on the pathway using electropermeabilized human neutrophils. The permeabilized cells produced O2- by the addition of protein kinase C (PKC) activator, phorbol myristate acetate (PMA), and a non-hydrolyzable GTP analogue, GTP gamma S in the presence of ATP and Mg2+. The O2- production by PMA not by GTP gamma S was inhibited by inhibitors of PKC. The production by PMA and GTP gamma S was inhibited by a GDP analogue, GDP beta S, in the same dose-dependent manner and the production by PMA was not enhanced by the addition of GTP gamma S and vice versa. These findings suggest the presence of a GTP-binding protein which follows PKC in the activation pathway. The O2- production by PMA and GTP gamma S was dose-dependently inhibited by cAMP and the inhibition was completely restored by an inhibitor of cAMP-dependent protein kinase, H-89, indicating that cAMP blocks the activating pathway at the site between the GTP-binding protein located downstream of PKC and the NADPH oxidase by activating cAMP-dependent protein kinase. The activation of the oxidase by sodium dodecyl sulfate (SDS) seemed to be different from the above pathway. It needed higher concentrations of GDP beta S for inhibition, did not absolutely need ATP and was inhibited by neither cAMP nor protein kinase C inhibitors. Moreover, the O2- production by the combination of GTP gamma S and SDS or of PMA and SDS was essentially the same as the sum of the production by each stimulant alone. We may conclude from the observations that the signaling pathway involving PKC for the activation of the oxidase is distinct from the pathway induced by SDS: the former is blocked by cAMP at the site between the GTP-binding protein located downstream of PKC and the oxidase and the latter is cAMP-insensitive.
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PMID:Cyclic AMP inhibits the respiratory burst of electropermeabilized human neutrophils at a downstream site of protein kinase C. 838 37

We characterized the cell-free activating system of the superoxide (O2-)-producing NADPH oxidase of pig neutrophils. Activation of the oxidase required both the membrane and cytosolic fractions in the presence of sodium dodecyl sulfate. Chromatography on 2',5'-ADP-Sepharose resulted in separation of the cytosolic fraction into two fractions, the flow-through and bound fractions, which synergistically supported the O2- production with the membrane fraction in the absence of guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S), whereas only the bound fraction besides the membrane fraction was required for the activation in the presence of GTP gamma S. The effective factors in the bound fraction were further purified by gel filtration on Superdex G-200 and anion exchange chromatography on Mono Q and found to be p47-phox and p63-phox. The purified recombinant p47-phox and p65-phox replaced corresponding native factors for the activation. These results suggest that the membrane fraction from pig neutrophils contains the GTP-binding protein responsible for the activation. Furthermore, the presence of the GTP-binding protein for the activation in the flow-through fraction from 2',5'-ADP-Sepharose was also shown on the basis of the findings that extensive dialysis of the flow-through fraction resulted in complete loss of the ability to activate the oxidase with the recombinant factors and the washed membrane of human neutrophils which contained no GTP-binding protein for the activation and the lost ability was recovered by the addition of GTP gamma S. Thus, activation of the oxidase in the cell-free system of pig neutrophils absolutely requires the GTP-binding protein which localizes in the membrane fraction or in the cytosolic fraction.
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PMID:Characterization of the GTP-dependent activation of the superoxide-producing NADPH oxidase in a cell-free system of pig neutrophils. 839 79

The superoxide-generating NADPH oxidase system in phagocytes consists of membrane-associated cytochrome b558 and three cytosolic components named p67-phox, p47-phox, and rac p21s. In a cell-free system consisting of membrane and cytosol, the oxidase can be activated with guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) and an unsaturated fatty acid such as arachidonic acid (AA). Incubation of cytosol and membrane with AA alone caused clear translocation of p47-phox and p67-phox to the membrane, but only slight translocation of rac p21s. GTP gamma S alone did not significantly induce the translocation of rac p21s. However, GTP gamma S in combination with AA markedly augmented rac p21s translocation to the membrane. The translocation of rac p21s is not induced by GDP or GDP beta S. These results indicate that the GTP-bound active form of rac p21s is the entity that is translocated to the membrane by the action of AA.
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PMID:Combination of arachidonic acid and guanosine 5'-O-(3-thiotriphosphate) induce translocation of rac p21s to membrane and activation of NADPH oxidase in a cell-free system. 839 27

The GTPase activity of membranes isolated from differentiated HL-60 cells was investigated to obtain information about the possible involvement of membrane-bound GTP-binding proteins in the regulation of the NADPH oxidase. A more than tenfold increase in the rate of hydrolysis of membrane-bound GTP was observed when cytosol and arachidonic acid were added simultaneously, i.e. under the same conditions where NADPH oxidase becomes activated. There were parallel changes in GTPase and NADPH oxidase activities when the concentration of arachidonic acid or the species of the fatty acid was varied or different detergents were applied. Separation of the GTP-binding proteins of the solubilized membrane by sucrose density gradient centrifugation, allowed us to ascribe the observed effect to the stimulation of the GTPase activity of small GTP-binding proteins by cytosolic component(s). Indirect evidence suggests that, in contrast to the effect upon recombinant ras and ras-GTPase-activating protein, in intact HL-60 membranes the interaction of rap1A with rap-GTPase-activating protein, is strongly enhanced by arachidonic acid.
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PMID:GTPase activity of small GTP-binding proteins in HL-60 membranes is stimulated by arachidonic acid. 840

Neutrophils possess at least two phospholipid-dependent forms of protein kinase C, a classical Ca/PS/DG-dependent beta-isotype of protein kinase C and a Ca-independent but PS/DG-dependent novel protein kinase C (nPKC) which we now demonstrate to have different substrate specificities. Activation of human neutrophils triggers assembly of an NADPH oxidase in the membrane and generation of O2-. A role for the major Ca-dependent isotype beta-PKC in neutrophils is proposed in stimulus-induced phosphorylation and association of a cytosolic 47 kDa protein (p47-phox) with the membrane NADPH oxidase. In this study we demonstrate that purified beta-PKC and nPKC have very different substrate specificities; beta-PKC but not nPKC phosphorylated both endogenous and recombinant p47-phox. In addition, beta-PKC but not nPKC phosphorylated [ser25]PKC(19-31), the substrate peptide based on a sequence in the Ca-dependent alpha, beta and gamma-isotypes. Pseudosubstrate(19-36), derived from the C-terminus of Ca-dependent PKC isotypes, inhibited beta-PKC but not nPKC activity using either Histone IIIS or peptide(19-31) as substrate. Pseudosubstrate(19-36) also inhibited beta-PKC catalyzed phosphorylation of endogenous and recombinant p47-phox. Pseudosubstrate(19-36) also inhibited the O2- generation triggered by GTP gamma S in electroporated neutrophils by 50%. 32P-Labelled neutrophils electroporated in the presence of GTP gamma S showed phosphorylation of multiple cytosolic proteins including a 47 kDa band, and phosphorylation of membrane-associated 34 kDa, 47 kDa and 54 kDa proteins. Pseudosubstrate(19-36) inhibited phosphorylation of p47-phox in the membrane but not in the cytosol. These findings suggest translocatable, Ca-dependent isotypes of PKC such as beta-PKC may play a role in the phosphorylation of membrane associated p47-phox and the assembly or maintenance of an active NADPH oxidase.
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PMID:Protein kinase C isotypes and signal-transduction in human neutrophils: selective substrate specificity of calcium-dependent beta-PKC and novel calcium-independent nPKC. 847 29

The NADPH oxidase is an electron transport chain found in lymphocytes and in the wall of the endocytic vacuole of 'professional' phagocytic cells. It is so called because NADPH is used as an electron donor to reduce oxygen to superoxide and hydrogen peroxide. The redox components are provided by a very unusual flavocytochrome b from the membrane, which is dependent upon cytosolic factors (including two specialized proteins, p47phox and p67phox) for activation. The small GTP-binding protein, p21rac, is also implicated in this system, possibly as the switch that triggers electron transport. This system provides a key to our understanding of the way in which these GTP-binding proteins function.
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PMID:The biochemical basis of the NADPH oxidase of phagocytes. 848 57

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