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:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activation of the neutrophil respiratory burst oxidase involves phosphorylation-dependent translocation of the cytosolic proteins p47phox and p67phox to the plasma membrane, a process in intact cells that is inhibited by staurosporine. We now report that in a cell-free oxidase system, staurosporine and protein kinase C pseudosubstrate PKC(19-36) both inhibited p47phox phosphorylation but had no effect on superoxide generation. In contrast, p47phox phosphorylation, translocation, and superoxide generation were inhibited by a peptide, p47phox(323-332) (AYRRNSVRFL), based on a putative serine phosphorylation domain. This effect was specific for the 323-332 peptide, as it was not observed with two peptides based on other p47phox phosphorylation domains. All three peptides served as substrates for phosphorylation, but the extent of peptide phosphorylation did not correlate with inhibition of oxidase function. p47phox(325-330), which represents the serine phosphorylation motif of p47phox(323-332), did not inhibit translocation or superoxide production despite its ability to block phosphorylation of p47phox. These data indicate the presence of functionally important sites within the p47phox(323-332) peptide. Although serine 328 is in a consensus phosphorylation motif, the lack of correlation in the cell-free system between p47phox phosphorylation and either protein translocation or superoxide formation suggests that a phosphorylation-independent function resides in the 323-332 segment of p47phox.
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PMID:Functional domain in an arginine-rich carboxyl-terminal region of p47phox. 822 91

Stimulation of neutrophils with different agonists activates a latent multicomponent NADPH oxidase that reduces molecular oxygen to superoxide anion. Evidence has accumulated that phosphorylation of p47phox (the 47 kDa cytosolic phagocyte oxidase factor) and translocation of the two cytosolic components p47phox and p67phox are essential steps in the activation of NADPH oxidase in response to phorbol esters. We analysed the relationships between activation of the NADPH oxidase and phosphorylation and translocation of p47phox and p67phox in normal and Ca(2+)-depleted neutrophils stimulated by the receptor-mediated agonists formyl-methionyl-leucyl-phenylalanine and concanavalin A. The results produced the following conclusions: (1) Translocation of p47phox and p67phox is an essential mechanism for activation of the NADPH oxidase. (2) A continuous translocation of p47phox and p67phox is necessary to maintain the NADPH oxidase in an activated state. (3) Only a fraction of p47phox and p67phox translocated to the plasma membrane is functional for the activation of the oxidase. (4) Translocation is independent of protein kinase C, and is linked to transmembrane signalling involving Ca2+ transients and production of lipidic second messengers. However, under some conditions, such as in Ca(2+)-depleted neutrophils, translocation can also occur independently of signalling pathways involving production of second messengers from hydrolysis of phospholipids and Ca2+ transients. (5) Phosphorylation of p47phox and p67phox can be quantitatively dissociated from translocation, as staurosporine markedly inhibits phosphorylation but not translocation. (6) The activity of NADPH oxidase is not correlated with the amounts of the phosphorylated proteins present in the plasma membrane.
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PMID:Relationship between phosphorylation and translocation to the plasma membrane of p47phox and p67phox and activation of the NADPH oxidase in normal and Ca(2+)-depleted human neutrophils. 843 86

Two SH3 domain-containing cytosolic components of the NADPH oxidase, p47phox and p40phox, are shown by analyses of their sequences to contain single copies of a novel class of domain, the PX (phox) domain. Homologous domains are demonstrated to be present in the Cpk class of phosphatidylinositol 3-kinase, S. cerevisiae Bem1p, and S. pombe Scd2, and a large family of human sorting nexin 1 (SNX1) homologues. The majority of these domains contains a polyproline motif, typical of SH3 domain-binding proteins. Two further findings are reported. A third NADPH oxidase subunit, p67phox, is shown to contain four tetratricopeptide repeats (TPRs) within its N-terminal RaclGTP-binding region, and a 28 residue motif in p40phox is demonstrated to be present in protein kinase C isoforms iota/lambda and zeta, and in three ZZ domain-containing proteins.
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PMID:Novel domains in NADPH oxidase subunits, sorting nexins, and PtdIns 3-kinases: binding partners of SH3 domains? 893 Nov 54

The differential expression of protein kinase C (PKC) isozymes and small GTP-binding proteins, and their relation to O2 generation and phospholipase D (PLD) activation were analyzed during the differentiation of human promyelocytic HL60 cells to neutrophil-like cells induced by either retinoic acid (RA) or dibutyryl cyclic AMP (dbcAMP). In response to either one of the inducers, nitroblue tetrazolium (NBT) reduction activity time-dependently increased. Although PLD activity was upregulated by dbcAMP-treatment, only a slight increase was observed in RA-treated cells. Small GTP-binding proteins Rac1, Rap1, and RhoA, which are reported to be implicated in O2- generation or PLD activation, were already expressed in undifferentiated HL60 cells and their significant changes were not detected during differentiation. The mRNAs of the cytosolic components of NADPH oxidase system, p47phox and p67phox, were present in trace amounts in undifferentiated cells. However, they rapidly increased in response to RA or dbcAMP. In response to either RA or dbcAMP, the increases were observed in cPKC isozymes (alpha, beta I, beta II) but not in other subtypes (delta, epsilon, theta, zeta) by both RT-PCR and Western blot analyses. In dbcAMP-treated cells PKC alpha increased remarkably, whereas PKC beta I and beta II mainly elevated in RA-treated cells. These results suggest the possibility that cPKCs are closely related to cell differentiation and that PKC alpha is involved in PLD activation.
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PMID:Differential expression of protein kinase C isozymes and small GTP-binding proteins during HL60 cell differentiation by retinoic acid and cyclic AMP: relation with phospholipase D (PLD) activation. 914 35

The leukocyte NADPH oxidase of neutrophils is a membrane-bound enzyme that catalyzes the production of O-2 from oxygen using NADPH as the electron donor. Dormant in resting neutrophils, the enzyme acquires catalytic activity when the cells are exposed to appropriate stimuli. During activation, the cytosolic oxidase components p47phox and p67phox migrate to the plasma membrane, where they associate with cytochrome b558, a membrane-integrated flavohemoprotein, to assemble the active oxidase. Oxidase activation can be mimicked in a cell-free system using an anionic amphiphile, such as sodium dodecyl sulfate or arachidonic acid, as an activating agent. In whole cells and under certain circumstances in the cell-free system the phosphorylation of p47phox mediates the activation process. It has been proposed that conformational changes in the protein structure of cytosolic factor p47phox may be an important part of the activation mechanism. We show here that the total protein steady-state intrinsic fluorescence (an emission maximum of 338 nm) exhibited by the tryptophan residues of p47phox substantially decreased when p47phox was treated with anionic amphiphiles. A similar decrease in fluorescence was also observed when p47phox was phosphorylated with protein kinase C. Furthermore, a red shift of emission maximum and an increase of quenching by ionic quenchers and acrylamide were observed in the presence of activators. These results indicate the occurrence of a conformational change in the protein structure of p47phox. We propose that this alteration in conformation results in the appearance of a binding site through which p47phox interacts with cytochrome b558 during the activation process.
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PMID:Conformational changes of the leukocyte NADPH oxidase subunit p47(phox) during activation studied through its intrinsic fluorescence. 974 57

The leukocyte NADPH oxidase of neutrophils is a membrane-bound enzyme that catalyzes the production of O2- from oxygen using NADPH as the electron donor. Dormant in resting neutrophils, the enzyme acquires catalytic activity when the cells are exposed to appropriate stimuli. During activation, the cytosolic oxidase components p47phox and p67phox migrate to the plasma membrane, where they associate with cytochrome b558, a membrane-integrated flavohemoprotein, to assemble the active oxidase. In whole cells and under certain circumstances in the cell-free system, the phosphorylation of p47phox mediates the activation process. It has been proposed that conformational changes in the protein structure of cytosolic factor p47phox may be an important part of the activation mechanism. The total protein steady-state intrinsic fluorescence (an emission maximum of 338 nm) exhibited by the tryptophan residues of p47phox was substantially decreased, reflecting on the conformational change that occurs when p47phox was phosphorylated with protein kinase C. We show here that the phosphorylation of p47phox by protein kinase A or mitogen-activated protein kinase, however, had little effect on the intrinsic fluorescence of p47phox. In addition, the present experiments indicate that in the mutant p47phoxS379A, only the single S-->A mutation appears to be a major importance for the function of p47phox, which is able to undergo the change in conformation that takes place when p47phox is phosphorylated by protein kinase C.
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PMID:Kinase-dependent change in the conformation of the leukocyte NADPH oxidase subunit p47phox. 1067 33

We examined the effect of cytochalasin B (CB) or granulocyte colony stimulating factor (GCSF) on superoxide radical (O2-) production of neutrophils by phorbor myristate acetate (PMA)-stimulation. It was observed that O2- generation of intact and GCSF-treated neutrophils by PMA-stimulation showed a lag during the early stage, and was largely inhibited by 1-(5-isoquinoline-sulfonyl)-3-methyl-piperazine (200 microm) or GF109203X (GFX) (0.2 microM), but not by ethanol (1%) and wortmannin (100 nM). In contrast, O2- generation of CB-pretreated neutrophils by PMA-stimulation did not show a lag, but was less than that of intact cells, and was only minimally depressed by the above inhibitors, but was markedly depressed by the simultaneous addition of GFX and ethanol or GFX and wortmannin. Although translocation of p47phox and p67phox to the membrane fraction by PMA-stimulation of intact and GCSF-treated neutrophils occurred in parallel with O2- production, that of CB-treated neutrophils by PMA-stimulation was not always proportional to O2- production. These findings suggest that pretreatment of neutrophils with CB dramatically alters the PMA response of the cells; that is, the protein kinase C-dependent pathway is largely depressed, and a phospholipase D-dependent one for NADPH oxidase activation appears in CB-treated cells.
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PMID:Phorbor myristate acetate induces NADPH oxidase activity of cytochalasin B-primed neutrophils through the protein kinase C-independent pathway. 1099 14

As with the neutrophil NADPH oxidase, the B lymphocyte NADPH oxidase consists of a membrane-bound flavocytochrome b and regulatory factors including Rac and the cytosolic phox protein triad p67phox, p47phox, and p40phox. Here we demonstrate by phosphoamino acid analysis and the use of the potent PKC inhibitor GFX that, in response to stimulation of B lymphocytes with sodium orthovanadate and H(2)O(2), the p40phox component of the cytosolic phox triad is selectively phosphorylated on serine and threonine residues by a PKC-type protein kinase. The pattern of p40phox phosphorylation was closely related to the kinetics of tyrosine phosphorylation of PKC-delta, the main PKC isotype of B lymphocytes. Blocking H(2)O(2)-dependent tyrosine phosphorylation of PKC by genistein resulted in inhibition of p40phox phosphorylation. The correlation between the tyrosine phosphorylation of PKC-delta and the serine/threonine phosphorylation of p40phox, together with the inhibition of p40phox phosphorylation by rottlerin, a selective inhibitor of PKC-delta, makes the activated PKC-delta a likely candidate in the process of the oxidant-dependent phosphorylation of p40phox in B cells.
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PMID:Oxidant-dependent phosphorylation of p40phox in B lymphocytes. 1157 65

Oxidative stress is implicated to play an important role in the development of diabetic vascular complications, including diabetic nephropathy. It is unclear whether oxidative stress is primarily enhanced in the diabetic glomeruli or whether it is merely a consequence of diabetes-induced glomerular injury. To address this issue, we examined diabetic glomeruli to determine whether oxidative stress is enhanced, as well as examined the role of protein kinase C (PKC)-beta activation in modulating NADPH oxidase activity. Urinary 8-hydroxydeoxyguanosine excretion and its intense immune-reactive staining in the glomeruli were markedly higher in diabetic than in control rats, and these alterations were ameliorated by a treatment with a selective PKC-beta inhibitor, ruboxistaurin (RBX; LY333531) mesylate, without affecting glycemia. NADPH oxidase activity, which was significantly enhanced in diabetic glomeruli and the source of reactive oxygen species (ROS) generation, was also improved by RBX treatment by preventing the membranous translocation of p47phox and p67phox from cytoplasmic fraction without affecting their protein levels. Adenoviral-mediated PKC-beta(2) overexpression enhanced ROS generation by modulating the membranous translocation of p47phox and p67phox in cultured mesangial cells. We now demonstrate that oxidative stress is primarily enhanced in the diabetic glomeruli due to a PKC-beta-dependent activation of NADPH oxidase resulting in ROS generation.
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PMID:Translocation of glomerular p47phox and p67phox by protein kinase C-beta activation is required for oxidative stress in diabetic nephropathy. 1451 46

Reactive oxygen species are a critical weapon in the killing of Aspergillus fumigatus by polymorphonuclear leukocytes (PMN), as demonstrated by severe aspergillosis in chronic granulomatous disease. In the present study, A. fumigatus-produced mycotoxins (fumagillin, gliotoxin [GT], and helvolic acid) are examined for their effects on the NADPH oxidase activity in human PMN. Of these mycotoxins, only GT significantly and stoichiometrically inhibits phorbol myristate acetate (PMA)-stimulated O2- generation, while the other two toxins are ineffective. The inhibition is dependent on the disulfide bridge of GT, which interferes with oxidase activation but not catalysis of the activated oxidase. Specifically, GT inhibits PMA-stimulated events: p47phox phosphorylation, its incorporation into the cytoskeleton, and the membrane translocation of p67phox, p47phox, and p40phox, which are crucial steps in the assembly of the active NADPH oxidase. Thus, damage to p47phox phosphorylation is likely a key to inhibiting NADPH oxidase activation. GT does not inhibit the membrane translocation of Rac2. The inhibition of p47phox phosphorylation is due to the defective membrane translocation of protein kinase C (PKC) betaII rather than an effect of GT on PKC betaII activity, suggesting a failure of PKC betaII to associate with the substrate, p47phox, on the membrane. These results suggest that A. fumigatus may confront PMN by inhibiting the assembly of the NADPH oxidase with its hyphal product, GT.
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PMID:Fungal metabolite gliotoxin inhibits assembly of the human respiratory burst NADPH oxidase. 1515 43


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