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)

The superoxide-generating NADPH oxidase system in phagocytes consists of at least membrane-associated cytochrome b558 and three cytosolic components named SOCI/NCF-3/sigma 1/C1, SOCII/NCF-1/p47-phox, and SO-CIII/NCF-2/p67-phox. p47-phox and p67-phox were isolated, and their primary structures were determined, but SOCI has not been well characterized. In the present study, we first purified SOCI to homogeneity from the cytosol fraction of the differentiated HL-60 cells. The purified SOCI was a small GTP-binding protein (G protein) with a M(r) of about 22,000. The guanosine 5'-(3-O-thio)triphosphate-bound form, but not the GDP-bound form, of this small G protein showed the SOCI activity. The partial amino acid sequence of SOCI thus far determined was identical to the amino acid sequence deduced from the cDNA encoding rac2 p21. None of the purified small G proteins, including Ki-ras p21, smg p21B/rap1B p21, rhoA p21, and rac1 p21, showed the SOCI activity. These results indicate that SOCI is a small G protein very similar, if not identical, to rac2 p21. The GDP/GTP exchange reaction of SOCI was stimulated and inhibited by stimulatory and inhibitory GDP/GTP exchange proteins for small G proteins, named smg GDS and rho GDI, respectively. The NADPH oxidase activity was also stimulated and inhibited by smg GDS and rho GDI, respectively. These results indicate that the superoxide-generating NADPH oxidase system is regulated by both smg GDS and rho GDI through rac2 p21 or the rac2-related small G protein in phagocytes.
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PMID:Regulation of the superoxide-generating NADPH oxidase by a small GTP-binding protein and its stimulatory and inhibitory GDP/GTP exchange proteins. 131 93

During the past 5 years, the discovery of cell-free superoxide generation system (Bromberg Y, Pick E: Cell Immunol 88:213-221, 1984) has been revolutionized our understanding of phagocyte superoxide generation. Using cell-free system, it was clarified that NADPH oxidase for superoxide generation was comprised of components present in both the plasma membrane as well as in the cytosol. This oxidase could be kept inactive by keeping its components separated from each other within the cell and then quickly bringing them together in the plasma membrane upon activation. We analyzed cytosol components with column method, and clarified that 3 neutrophil cytosol factors (NCF-1/-2/-3) was necessary for reconstitute the cytosol activity which was missing in an autosomal recessive type of Chronic Granulomatous Disease (CGD) patients (Nunoi H, et al:Science 242:1298-1301, 1988). NCF-1/-2 were analyzed with B1 antibody and found their molecular weight as 47 and 67 kilodalton respectively. One of autosomal CGD patients was missing NCF-67k and the others were missing NCF-47k. NCF-47k and -67k were cloned with this antibody and sequenced and expressed as recombinant NCF-47k/-67k using baculovirus/insect cell system. Using these recombinants, we are trying to purify NCF-3 which is reported as small G protein in these days. Using monoclonal antibodies against these recombinants, we analyzed tissues with immunohistochemical methods and are trying to classify the type of CGD patients in Japan. In summary, at least five oxidase components now have been identified (alpha and beta chain of cytochrome b558 (gp91-phox, p22-phox) and NCF-47k/-67k/-3 (p47-phox/p67-phox/delta-1 or SOCI)).
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PMID:[Molecular bases of chronic granulomatous disease--analysis of the involvement of cytosol factors for NADPH oxidase]. 131 71

The superoxide-generating NADPH oxidase complex in phagocytic cells is constituted of a heterodimeric flavocytochrome b and cytosolic factors, p67phox, p47phox and p40phox as well as a small G protein Rac (for review, see Refs. 1-3). A truncated form of the p40phox cDNA was isolated by a two hybrid screen of a B lymphocyte library using a full length clone of p47phox as target. This truncated form of p40phox consisting of the Src Homology 3 (SH3) domain to the 3' stop codon was also shown to interact with p67phox in the same system. A library of smaller fragments of the truncated p40 cDNA was constructed and screened against either p47phox or p67phox. Results show that the SH3 domain of p40phox is sufficient for interaction with p47phox, whereas the C terminus of p40phox but not its SH3 domain is involved in the interaction with p67phox.
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PMID:Mapping the domains of interaction of p40phox with both p47phox and p67phox of the neutrophil oxidase complex using the two-hybrid system. 789 Jun 94

The phagocyte NADPH oxidase is activated during phagocytosis to produce superoxide, a precursor of microbicidal oxidants. The activation involves assembly of membrane-integrated cytochrome b558 comprising gp91(phox) and p22(phox), two specialized cytosolic proteins (p47(phox) and p67(phox)), each containing two Src homology 3 (SH3) domains, and the small G protein Rac. In the present study, we show that the N-terminal SH3 domain of p47(phox) binds to the C-terminal cytoplasmic tail of p22(phox) with high affinity (KD = 0.34 microM). The binding is specific to this domain among several SH3 domains including the C-terminal one of p47(phox) and the two of p67(phox) and requires the Pro156-containing proline-rich sequence but not other putative SH3 domain-binding sites of p22(phox). Replacement of Trp193 by Arg in the N-terminal SH3 domain completely abrogates the association with p22(phox). A mutant p47(phox) with this substitution is incapable of supporting superoxide production under cell-free activation conditions. These findings provide direct evidence that the interaction between the N-terminal SH3 domain of p47(phox) and the proline-rich region of p22(phox) is essential for activation of the NADPH oxidase.
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PMID:Assembly and activation of the phagocyte NADPH oxidase. Specific interaction of the N-terminal Src homology 3 domain of p47phox with p22phox is required for activation of the NADPH oxidase. 870 27

Suspension-cultured cells of Nicotiana tabacum generated active oxygen species (AOS) when they were treated with the proteinaceous elicitor, cryptogein. This response was blocked by diphenylene iodonium, an inhibitor of the neutrophil NADPH oxidase. When microsomal extracts of tobacco cells were probed with an antibody directed against the human small G protein Rac2, two immunoreactive proteins were detected at 18.5 and 20.5 kDa. The same experiment performed with cytosolic extracts of tobacco cells led to the observation of a strong immunoreactive protein at 21.5 kDa only in the cryptogein-treated cells. The appearance of this cytosolic protein was related to the production of AOS by the elicited cells. These results provide evidence for the possible involvement of small G proteins, homologous to the neutrophil Rac2 protein, in the regulation of the elicitor-induced oxidative burst in plant.
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PMID:Tobacco cells contain a protein, immunologically related to the neutrophil small G protein Rac2 and involved in elicitor-induced oxidative burst. 904 56

The superoxide-generating NADPH oxidase complex of phagocytic cells is a multicomponent system containing a membrane-bound flavocytochrome b and a small G protein Rac as well as cytosolic factors p67phox, p47phox and p40phox which translocate to the membrane upon activation. Known mechanisms underlying the translocation of these proteins include polyphosphorylation of p47phox and specific Src homology 3/polyproline motif interactions. In this study, through two-dimensionnal electrophoresis and immunoprecipitation experiments, we show using dimethylsulfoxide-differentiated HL60 promyelocytes that p40phox is in a basal phosphorylated state in resting cells and undergoes further phosphorylation on multiple sites upon stimulation of the NADPH oxidase by either phorbol myristate acetate or by the formyl peptide fMet-Leu-Phe-Lys. Moreover, the extent of phosphorylation is strongly correlated with the level of superoxide production. Typically, in cells transiently activated by fMet-Leu-Phe-Lys, onset of superoxide production coincides with the appearance of new phosphorylated species of p40phox and, at the end of the respiratory burst, dephosphorylation of p40phox is observed. In vitro assays show that the kinase(s) involved in the phosphorylation of p40phox differ from those which participate in the phosphorylation of p47phox. This suggests that, in the cell, the phosphorylation of p40phox and of p47phox are under the control of two different kinase pathways.
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PMID:The 40-kDa component of the phagocyte NADPH oxidase (p40phox) is phosphorylated during activation in differentiated HL60 cells. 937 Mar 64

The superoxide-generating NADPH oxidase complex of phagocytic cells is a multicomponent system containing a membrane-bound flavocytochrome b and a small G protein Rac as well as cytosolic factors p67(phox) (phagocyte oxidase), p47(phox), and p40(phox), which translocate to the membrane upon activation. In a previous paper, we reported that p40(phox) undergoes phosphorylation on multiple sites upon stimulation of the NADPH oxidase by either phorbol 12-myristate 13-acetate or by formyl peptide with a time course that is strongly correlated with that of superoxide production (Fuchs, A., Bouin, A. P., Rabilloud, T., and Vignais, P. V. (1997) Eur. J. Biochem. 249, 531-539). In this study, through phosphoamino acid and tryptic peptide maps of in vivo and in vitro phosphorylated p40(phox), we show that p40(phox) is phosphorylated on serine and threonine residues during activation of the NADPH oxidase in dimethyl sulfoxide-differentiated HL60 promyelocytes as well as in isolated human neutrophils. In vitro phosphorylation studies using casein kinase II and protein kinase C (PKC) as well as the effect of various protein kinase inhibitors on the isoelectric focusing pattern of p40(phox) in whole cell lysates point to a role of a PKC type kinase in the phosphorylation of p40(phox). Directed mutagenesis of all PKC consensus sites enable us to conclude that Thr154 and Ser315 in p40(phox) are phosphorylated during activation of the NADPH oxidase.
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PMID:p40(phox) is phosphorylated on threonine 154 and serine 315 during activation of the phagocyte NADPH oxidase. Implication of a protein kinase c-type kinase in the phosphorylation process. 980 63

The classic acute phase reactant C-reactive protein (CRP) is classified as an effector of innate host resistance because it activates the classical complement cascade and is opsonic. The latter action occurs via specific CRP receptors (CRP-R) that have recently been identified as both FcgammaRI and FcgammaRII on human phagocytic leukocytes. New findings also suggest an anti-inflammatory role for CRP because it modulates endotoxin shock and inhibits chemotaxis and the respiratory burst of neutrophils. CRP inhibited phorbol myristate acetate-induced superoxide (O2-) production more efficiently than the fMLP-triggered response. An examination of the inhibition of the protein kinase C (PKC)-dependent assembly of the NADPH oxidase complex revealed that both phosphorylation and translocation of PKC-beta2 to the membrane were inhibited by a threshold acute phase dose of approximately 50 microg/mL CRP. Translocation to the membrane and serine-phosphorylation of the major cytosolic p47-phox component of the NADPH oxidase complex was inhibited by CRP. CRP also inhibited membrane localization of activated Rac2, the small G protein regulator of the assembly of the oxidase components in activated neutrophils as well as the cytoskeleton during chemotactic movement. CRP-mediated regulation occurs via the CRP-R because an IgM mouse mAb to the human CRP-R mimicked CRP-induced inhibition of O2- production and chemotaxis. CRP may serve as an antiinflammatory regulator of activities at sites of tissue damage where it selectively accumulates and thus influences neutrophil infiltration and polymorphonuclear neutrophil activities. By contrast, CRP activates cells of the monocyte/macrophage lineage, suggesting differential regulation of these two leukocyte populations at the level of signaling. CRP appears to be a multifunctional protein with the capability of exerting both effector functions for innate host resistance, as well as exerting specific anti-inflammatory effects.
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PMID:Regulation of phagocytic leukocyte activities by C-reactive protein. 1077 Feb 81

Upon activation, the NADPH oxidase from neutrophils produces superoxide anions in response to microbial infection. This enzymatic complex is activated by association of its cytosolic factors p67(phox), p47(phox), and the small G protein Rac with a membrane-associated flavocytochrome b(558). Here we report the crystal structure of the active N-terminal fragment of p67(phox) at 1.8 A resolution, as well as functional studies of p67(phox) mutants. This N-terminal region (residues 1-213) consists mainly of four TPR (tetratricopeptide repeat) motifs in which the C terminus folds back into a hydrophobic groove formed by the TPR domain. The structure is very similar to that of the inactive truncated form of p67(phox) bound to the small G protein Rac previously reported, but differs by the presence of a short C-terminal helix (residues 187-193) that might be part of the activation domain. All p67(phox) mutants responsible for Chronic Granulomatous Disease (CGD), a severe defect of NADPH oxidase function, are localized in the N-terminal region. We investigated two CGD mutations, G78E and A128V. Surprisingly, the A128V CGD mutant is able to fully activate the NADPH oxidase in vitro at 25 degrees C. However, this point mutation represents a temperature-sensitive defect in p67(phox) that explains its phenotype at physiological temperature.
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PMID:The active N-terminal region of p67phox. Structure at 1.8 A resolution and biochemical characterizations of the A128V mutant implicated in chronic granulomatous disease. 1126 7

The small G protein Rac has been implicated in multiple cardiovascular processes. Rac has two major functions: 1) it regulates the organization of the actin cytoskeleton, and 2) it controls the activity of the key enzyme complex NADPH oxidase to control superoxide production in both phagocytes and nonphagocytic cells. In phagocytes, superoxide derived from NADPH has a bactericidal function, whereas Rac-derived superoxide in the cardiovascular system has a diverse array of functions that have recently been a subject of intense interest. Rac is differentially activated by cellular receptors coupled to distinct Rac-activating adapter molecules, with each leading to pathway-specific arrays of downstream effects. Thus it may be important to investigate not just whether Rac is activated but also where, how, and for what effector. An understanding of the biochemical functions of Rac and its effectors lays the groundwork for a dissection of the exact array of effects produced by Rac in common cardiovascular processes, including cardiac and vascular hypertrophy, hypertension, leukocyte migration, platelet biology, and atherosclerosis. In addition, investigation of the spatiotemporal regulation of both Rac activation and consequent superoxide generation may produce new insights into the development of targeted antioxidant therapies for cardiovascular disease and enhance our understanding of important cardiovascular drugs, including angiotensin II antagonists and statins, that may depend on Rac modulation for their effect.
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PMID:Rac regulates cardiovascular superoxide through diverse molecular interactions: more than a binary GTP switch. 1295 25

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