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

Professional phagocytes, such as neutrophils and monocytes, have an NADPH oxidase that generates superoxide and other reduced oxygen species important in killing microorganisms. Several components of the oxidase complex have been identified as targets of genetic defects causing chronic granulomatous disease. The complex consists of an electron transport chain that has as its substrate cytosolic NADPH and which discharges superoxide into the cavity of the intracellular phagocytic vacuole. The only electron transport component identified so far is a low-potential cytochrome b, apparently the only membrane component required. At least three cytosolic factors are also necessary, two of which, p67phOx and p47phOx, have been identified by their absence in patients with chronic granulomatous disease. A third component, sigma 1, is required for stimulation of oxidase activity in a cell-free system. The active components of purified sigma 1 are two proteins that associate as heterodimers, and here we report that these are the small GTP-binding protein p21rac1 and the GDP-dissociation inhibitor rhoGDI.
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PMID:Activation of the NADPH oxidase involves the small GTP-binding protein p21rac1. 192 86

The small GTP-binding protein (G protein) Rac1 is an obligatory participant in the assembly of the superoxide (O2-.)-generating NADPH oxidase complex of macrophages. We investigated the effect of synthetic peptides, mapping within the near carboxyl-terminal domains of Rac1 and of related G proteins, on the activity of NADPH oxidase in a cell-free system consisting of solubilized guinea pig macrophage membrane, a cytosolic fraction enriched in p47phox and p67phox (or total cytosol), highly purified Rac1-GDP dissociation inhibitor for Rho (Rho GDI) complex, and the activating amphiphile, lithium dodecyl sulfate. Peptides Rac1-(178-188) and Rac1-(178-191), but not Rac2-(178-188), inhibited NADPH oxidase activity in a Rac1-dependent system when added prior to or simultaneously with the initiation of activation. However, undecapeptides corresponding to the near carboxyl-terminal domains of RhoA and RhoC and, most notably, a peptide containing the same amino acids as Rac1-(178-188), but in reversed orientation, were also inhibitory. Surprisingly, O2-. production in a Rac2-dependent cell-free system was inhibited by Rac1-(178-188) but not by Rac2-(178-188). Finally, basic polyamino acids containing lysine, histidine, or arginine, also inhibited NADPH oxidase activation. We conclude that inhibition of NADPH oxidase activation by synthetic peptides mapping within the carboxyl-terminal domain of certain small G proteins is not amino acid sequence-specific but related to the presence of a polybasic motif. It has been proposed that such a motif serves as a plasma membrane targeting signal for a number of small G proteins (Hancock, J.F., Paterson, H., and Marshall, C.J. (1990) Cell 63, 133-139).
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PMID:Inhibition of NADPH oxidase activation by synthetic peptides mapping within the carboxyl-terminal domain of small GTP-binding proteins. Lack of amino acid sequence specificity and importance of polybasic motif. 796 67

Recent progress in our understanding of the regulation of the phagocyte NADPH oxidase by the Rac GTP-binding protein(s) has provided the first detailed glimpse into the mechanisms of leukocyte regulation by a small GTP-binding protein. Studies over the past year have indicated that the activity of the NADPH oxidase can be modulated by regulation of the GTP/GDP state of Rac. Proteins exist in leukocytes that are able to modify GTP-binding protein function in this manner, and their activity may be regulated by signals generated upon phagocyte stimulation.
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PMID:Regulation of the human neutrophil NADPH oxidase by the Rac GTP-binding proteins. 802 12

Phagocytes produce superoxide by the assembly of a multicomponent complex that utilizes NADPH for the reduction of molecular oxygen (NADPH oxidase). The components participating in the assembly are a membrane-bound flavocytochrome and three cytosolic proteins, one of which was shown to be a dimer of the small GTP-binding protein (G protein) Rac1 p21 or Rac2 p21 with GDP dissociation inhibitor for Rho (Rho GDI). We determined the identity and quantity of the nucleotide bound to Rac1 p21 by high performance anion exchange chromatography of extracts prepared from highly purified Rac1 p21-Rho GDI, isolated from guinea pig macrophage cytosol. Rac1 p21 contained only GDP at a ratio of close to 1 mol of GDP per mol of G protein. The GDP-bound form of Rac1 p21 complexed to Rho GDI functioned as a potent activator of NADPH oxidase in a cell-free system that contained no free GTP or ATP. We propose that the GDP-bound form of Rac1 p21 might be the physiological activator of NADPH oxidase in macrophages, following its dissociation from Rho GDI, and that nucleotide exchange or conversion to GTP is not necessarily involved.
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PMID:The GDP-bound form of the small G protein Rac1 p21 is a potent activator of the superoxide-forming NADPH oxidase of macrophages. 812 10

Activation of the NADPH oxidase of phagocytes involves the small GTP-binding protein p21rac. In this paper we report that neutrophil cytosol contains predominantly p21rac2 rather than p21rac1, and that the P21rac2 is almost entirely complexed with rhoGDI (GDP dissociation inhibitor) to form a heterodimer with a molecular mass of 45-50 kDa. Activation of superoxide production by phorbol 12-myristate 13-acetate or formylmethionyl-leucyl-phenylalanine in whole cells, and by SDS in the cell-free assay, led to the dissociation of some of the p21rac2 from rhoGDI and its movement to the plasma membrane together with p47phox and p67phox. The appearance of these proteins at the plasma membrane was related to the dose of the agonist and to the rate of superoxide generation. The nucleotide bound to p21rac2 in this complex following isolation was almost exclusively GDP, with less than 2% GTP, and the complex was active in the cell-free assay. Although the rac/GDI complex could activate the NADPH oxidase in the absence of exogenous GTP, the rate of superoxide production was increased 3-fold by the addition of GTP and was almost completely inhibited by GDP. Our findings confirm that rhoGDI serves as GDP dissociation inhibitor and that the release of p21rac2 from this inhibitor is an important step in activation of the NADPH oxidase.
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PMID:Activation of NADPH oxidase involves the dissociation of p21rac from its inhibitory GDP/GTP exchange protein (rhoGDI) followed by its translocation to the plasma membrane. 814 70

Recent progress in understanding the regulation of the phagocyte NADPH oxidase by the Rac GTP-binding protein(s) provides the first detailed glimpse into the mechanisms of leukocyte regulation by a small GTP-binding protein. Studies over the past year indicate that the activity of NADPH oxidase can be modulated by regulation of the GTP- versus GDP-bound state of Rac. Additional proteins of the Ras superfamily are likely to be involved in a variety of normal leukocyte functions.
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PMID:The role of small GTP-binding proteins in leukocyte function. 817 86

Neutrophils possess a multicomponent NADPH oxidase system capable of producing large quantities of superoxide in a process known as the respiratory burst (1). Upon stimulation of a phagocytic cell, two cytosolic components of the oxidase, p67phox and p47phox, associate with a membrane-bound flavocytochrome b and a small GTP-binding protein to form a functional enzyme complex. Each of the Phox proteins contains two src homology 3 (SH3) domains, which are of unknown function but are potential mediators of protein-protein interactions between components of the activated oxidase. We have isolated a 47-kDa protein from lysates of differentiated HL60 cells that specifically bound to the carboxyl-terminal SH3 domain of p67phox and not to any other SH3 domain tested. This protein was identified as p47phox, and the putative SH3 domain binding site was located to a carboxyl-terminal proline-rich region. Proline-rich synthetic peptides based on this carboxyl-terminal region specifically inhibited the binding of p47phox to the carboxyl-terminal SH3 domain of p67phox, and sequential truncation defined a unique minimal sequence, which, although similar, does not match the consensus sequence defined for other SH3-binding proteins.
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PMID:An SH3 domain and proline-rich sequence mediate an interaction between two components of the phagocyte NADPH oxidase complex. 818 50

Activation of the superoxide (O2-)-generating NADPH oxidase of phagocytes requires the interaction of membrane-associated cytochrome b559 with three cytosolic components; p47-phox, p67-phox and sigma 1. We proposed that sigma 1 was a heterodimer composed of proteins of 22 kDa and 24 kDa that were tentatively identified as the small GTP-binding protein (G protein) rac1 p21 and GDP-dissociation inhibitor for rho (rho GDI). We now describe a modified procedure for the rapid purification of sigma 1 and demonstrate that the NADPH-oxidase-activating capacity is associated, throughout the purification sequence, with a protein binding 35S-labelled guanosine 5'-[3-O-thio]triphosphate. SDS/PAGE analysis confirmed the absolute association of sigma 1 activity with the presence of both the 22 kDa and 24 kDa proteins. Immunoblotting with a battery of antibodies against the small G proteins demonstrated that the 22-kDa protein was only recognized by antibodies reacting with rac1 p21; no reaction was found with anti-(rac2 p21), anti-[v-ras(H) p21] and anti anti-(rap1 p21). Free rac1 p21 (not in complex with rho GDI) was not detected at any stage of cytosol fractionation. The proteins comprising the sigma 1 heterodimer could be separated by reverse-phase chromatography and amino acid sequencing was performed on peptides derived by trypsin digestion of each of the isolated proteins. This demonstrated the identity of the 22-kDa protein with rac1 p21 and that of the 24-kDa protein with rho GDI. Purified heterodimeric sigma 1 did not require exogenous GTP for activity under conditions that assured the absence of free nucleotides. Treatment of the sigma 1 heterodimer with 1% sodium cholate, followed by gel filtration or anion-exchange chromatography in the presence of 1% sodium cholate, effectively separated rac1 p21 from rho GDI. Monomeric rac1 p21, obtained by these procedures, was able to stimulate cell-free O2- generation. Artificial heterodimeric sigma 1, capable of NADPH oxidase activation, could be reconstituted in vitro by recombining purified monomeric rac1 p21 and rho GDI and removing the sodium cholate used to dissociate the native sigma 1 dimer. Monomeric rac1 p21 exhibited an almost absolute dependence on exogenous GTP following removal of the endogenous nucleotide in low Mg2+ solution. Under similar conditions, heterodimeric sigma 1 was resistant to nucleotide exchange.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Role of the rac1 p21-GDP-dissociation inhibitor for rho heterodimer in the activation of the superoxide-forming NADPH oxidase of macrophages. 822 83

The NADPH oxidase generates superoxide in phagocytic cells. It is important for immunity and its deficiency leads to chronic granulomatous disease (CGD). It consists of a membrane-bound flavocytochrome b that lies dormant until activated by the translocation to the plasma membrane of cytosolic proteins, p47phox (phox for phagocyte oxidase), p67phox and p21rac, a small GTP-binding protein. We show here that a novel component, p40phox, forms an activation complex with p47phox and p67phox with which it translocates to the membrane to associate with the flavocytochrome b. cDNA cloning and amino acid analysis revealed that p40phox has an src homology 3 (SH3) domain and a large region of sequence similarity with the N-terminus of p47phox. The primary association of p40phox appears to be with p67phox, and it is present in reduced amounts in patients with CGD lacking p67phox.
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PMID:p40phox, a third cytosolic component of the activation complex of the NADPH oxidase to contain src homology 3 domains. 828 52

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