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:1.6.99.6 (NADPH oxidase)
10,295 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activation of the human NADPH oxidase requires the interaction of at least four cytosolic proteins and one membrane-bound heterodimeric protein. Src homology 3 (SH3) domains and their proline-rich counterstructures have been shown to play an important role in protein-protein interactions. Because it was found that the cytosolic oxidase components p67phox, p47phox, and p40phox reside in a complex in resting neutrophils, we studied the role of SH3 domains in their interaction by use of an overlay technique. Wild-type and mutated 35S-labeled p67phox and p47phox were used to detect immobilized cytosolic proteins on a protein blot. A specific association of native p67phox to blotted p47phox and blotted p40phox was found. These interactions were not disturbed by deleting the only proline-rich region (amino acids 227-231) in p67phox. We also found a specific association of native p47phox with blotted p67phox. Deletions in a putative SH3-binding region of p47phox completely abrogated the interaction with p67phox. Other results suggest that the C terminus of p47phox exposes this SH3-binding domain for interaction with p67phox. Similar results were obtained when the binding of cytosolic p67phox to wild-type or mutated p47phox were studied in solution. Interestingly, mutants of p47phox unable to bind to p67phox were fully capable of supporting superoxide production under cell-free activation conditions. We conclude that an interaction between the C-terminal proline-rich region of p47phox and the second SH3 domain of p67phox is not required for oxidase activity in the cell-free assay.
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PMID:Interactions between the cytosolic components p47phox and p67phox of the human neutrophil NADPH oxidase that are not required for activation in the cell-free system. 774 54

Superoxide is produced by a NADPH oxidase of phagocytic cells and contributes to their microbicidal activities. The oxidase is activated when receptors in the neutrophil plasma membrane bind to the target microbe. These receptors recognise antibodies and complement fragments which coat the target cell. The oxidase electron transport chain, located in the plasma membrane, comprises a low potential cytochrome b heterodimer (gp 91-phox and p22-phox) associated with FAD. It is non-functional until at least three proteins, p67-phox, p47-phox and p21rac (and possibly others), move from the cytosol to dock on the cytochrome b. The docking involves the interaction of SH3 domains on p47-phox or p67-phox with a proline-rich sequence on the small subunit of the cytochrome b. These SH3 domains may become exposed following phosphorylation of p47-phox by protein kinase C or, in model systems, by addition of arachidonic acid to reconstitution mixtures. Following the docking process the electron-transporting component is able to transfer electrons from NADPH to oxygen. This electrogenic event is charge-compensated by the opening of a proton channel. Components of the oxidase are expressed in non-phagocytes, where their function is uncertain but could be related to some signal function of superoxide.
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PMID:The regulation of superoxide production by the NADPH oxidase of neutrophils and other mammalian cells. 784 Jul 72

The NADPH oxidase responsible for generation of superoxide anion and related microbicidal oxidants by phagocytes is assembled from at least five distinct proteins. Two are cytosolic components (p47-phox and p67-phox) that contain Src homology 3 (SH3) domains and associate with a transmembrane cytochrome b558 upon activation. We show here that the SH3 domains of p47-phox bind to proline-rich sequences in p47-phox itself and the p22-phox subunit of cytochrome b558. Binding of the p47-phox SH3 domains to p22-phox was abolished by a mutation in one proline-rich sequence (Pro156-->Gln) noted in a distinct form of chronic granulomatous disease and was inhibited by a short proline-rich synthetic peptide corresponding to residues 149-162 of p22-phox. Expression of mutated p22-phox did not restore oxidase activity to p22-phox-deficient B cells and did not enable p22-phox-dependent translocation of p47-phox to membranes in phorbol ester-stimulated cells. We also show that the cytosolic oxidase components associate with one another through the C-terminal SH3 domain of p67-phox and a proline-rich C-terminal sequence in p47-phox. These SH3 target sites conform to consensus features deduced from SH3 binding sites in other systems. We propose a model in which the oxidase complex assembles through a mechanism involving SH3 domains of both cytosolic proteins and cognate proline-rich targets in other oxidase components.
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PMID:Assembly of the phagocyte NADPH oxidase: binding of Src homology 3 domains to proline-rich targets. 793 8

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

The phagocyte NADPH oxidase, dormant in resting cells, is activated during phagocytosis to produce superoxide, a precursor of microbicidal oxidants. The activated oxidase is a complex of membrane-integrated cytochrome b558, composed of 91-kDa (gp91phox) and 22-kDa (p22phox) subunits, and two cytosolic factors (p47phox and p67phox), each containing two Src homology 3 (SH3) domains. Here we show that the region of the tandem SH3 domains of p47phox (p47-SH3) expressed as a glutathione S-transferase fusion protein inhibits the superoxide production in a cell-free system, indicating involvement of the domains in the activation. Furthermore, we find that arachidonic acid and sodium dodecyl sulfate, activators of the oxidase in vitro, cause exposure of p47-SH3, which has probably been masked by the C-terminal region of this protein in a resting state. The unmasking of p47-SH3 appears to play a crucial role in the assembly of the oxidase components, because p47-SH3 binds to both p22phox and p67phox but fails to interact with a mutant p22phox carrying a Pro-156-->Gln substitution in a proline-rich region, which has been found in a patient with chronic granulomatous disease. Based on the observations, we propose a signal-transducing mechanism whereby normally inaccessible SH3 domains become exposed upon activation to interact with their target proteins.
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PMID:Role of Src homology 3 domains in assembly and activation of the phagocyte NADPH oxidase. 820 90

Src homology 3 (SH3) domains direct cellular localization and signal transduction through specific protein-protein interactions with proline-rich target sequences. The two SH3 domain in p67-phox, a cytosolic component of the phagocyte NADPH oxidase system, may mediate interactions within the oxidase complex and direct its translocation to membranes. The requirement for SH3 domains in p67-phox was studied both in cell-free and whole cell oxidase assay systems. The amino-terminal domain of p67-phox (amino acids 1-246) that lacks both SH3 domains was active in vitro. Various forms of p67-phox lacking one or both SH3 domains were produced in whole cells using episomal expression vectors to stably transfect p67-phox-deficient Epstein-Barr virus-B cells derived from chronic granulomatous disease patients. Complete restoration of NADPH oxidase activity was achieved with full-length p67-phox cDNA expression. Deletion of either SH3 domain resulted in dramatic reductions of NADPH oxidase activity relative to corrected transfected cells, which correlated with decreases in membrane binding. Deletion of both SH3 domains completely abolished p67-phox membrane binding and oxidase activity. Thus, in contrast to oxidase reconstitution in a cell-free system, we observed a requirement for both SH3 motifs for restoration of oxidase activity and binding of p67-phox to membranes.
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PMID:Role of p67-phox SH3 domains in assembly of the NADPH oxidase system. 820 39

The phagocyte NADPH oxidase is activated during phagocytosis to produce superoxide, following assembly of a membrane-integrated cytochrome b558 with cytosolic proteins, p47phox, p67phox and p40phox, each containing Src homology 3 (SH3) domains. While both p47phox and p67phox are indispensable for the oxidase activity, role of p40phox remains obscure. Here we study interaction between p40phox and p47phox by two independent methods, a two-hybrid system in the yeast and an in vitro binding assay using purified proteins. The present results show that the interaction is mediated via binding of the SH3 domain of p40phox to a C-terminal proline-rich region of p47phox. This proline-rich region is also the target for binding of p67phox, and the SH3 domain of p40phox can inhibit the binding of the C-terminal one of p67phox to p47phox.
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PMID:An SH3 domain-mediated interaction between the phagocyte NADPH oxidase factors p40phox and p47phox. 864 57

Reactive oxygen intermediates generated by the phagocyte NADPH oxidase are critically important components of host defense. However, these highly toxic oxidants can cause significant tissue injury during inflammation; thus, it is essential that their generation and inactivation are tightly regulated. We show here that an endogenous proline-arginine (PR)-rich antibacterial peptide, PR-39, inhibits NADPH oxidase activity by blocking assembly of this enzyme through interactions with Src homology 3 domains of a cytosolic component. This neutrophil-derived peptide inhibited oxygen-dependent microbicidal activity of neutrophils in whole cells and in a cell-free assay of NADPH oxidase. Both oxidase inhibitory and direct antimicrobial activities were defined within the amino-terminal 26 residues of PR-39. Oxidase inhibition was attributed to binding of PR-39 to the p47phox cytosolic oxidase component. Its effects involve both a polybasic amino-terminal segment and a proline-rich core region of PR-39 that binds to the p47phox Src homology 3 domains and, thereby, inhibits interaction with the small subunit of cytochrome b558, p22phox. These findings suggest that PR-39, which has been shown to be involved in tissue repair processes, is a multifunctional peptide that can regulate NADPH oxidase production of superoxide anion O2-. thus limiting excessive tissue damage during inflammation.
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PMID:PR-39, a proline-rich antibacterial peptide that inhibits phagocyte NADPH oxidase activity by binding to Src homology 3 domains of p47 phox. 865 Feb 11

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

Src-homology 3 (SH3) domains are small protein modules that bind to proline-rich motifs and mediate the formation of signalling complexes. SH3 domains have been implicated in the assembly of the phagocyte NADPH oxidase complex, a multicomponent enzyme responsible for the production of antimicrobial oxidants. Two components of the NADPH oxidase, p67phox and p47phox, each contain two SH3 domains and we have previously shown that the SH3 domain near the carboxyl terminus of p67phox interacts with a proline-rich region of p47phox. In order to gain an insight into the specificity of this interaction, a structural model of the p67phox SH3 domain has been produced using the known structure of the c-abl SH3 domain as a template. The model suggests that the proline-rich ligand of p47phox can bind to the SH3 domain in either of two orientations. In each orientation, the key residues of the SH3 domain that contact the ligand have been identified and altered by site-directed mutagenesis. The ability of the mutated SH3 domains to associate with p47phox from cell lysates was tested and the results provide the first evidence for the binding of a full-length protein to an SH3 domain in a reversed orientation.
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PMID:The C-terminal SH3 domain of p67phox binds its natural ligand in a reverse orientation. 875 85


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