Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Propranolol, a beta-adrenergic receptor antagonist, also inhibits phosphatidate phosphohydrolase, the enzyme that converts phosphatidic acid into diacylglycerol. This latter effect has prompted recent use of propranolol in studies examining the importance of diacylglycerol and phosphatidic acid in cellular signalling events. Here, we show that propranolol is also an inhibitor of protein kinase C. At concentrations greater than or equal to 20 microM, propranolol reduced [3H]phorbol dibutyrate binding (IC50 = 200 microM) and phorbol myristate acetate-stimulated superoxide anion release (IC50 = 130 microM) in human neutrophils. Scatchard analysis showed that propranolol lowers the number of phorbol diester binding sites without significantly affecting their affinity. In vitro kinetic analysis, performed in a mixed micellar assay with protein kinase C purified from human neutrophils, suggested a competitive inhibition of propranolol with the cofactor phosphatidylserine. Complex kinetic patterns were observed with respect to diacylglycerol and ATP, approximating competitive and noncompetitive inhibition, respectively. Taken together, these results suggest that the drug interacts at the level of the regulatory domain of the enzyme. Fifty % inhibition occurred at approximately 150 microM propranolol. Similar levels of inhibition were obtained using exogenous (histone) and endogenous (p47-phox, a NADPH oxidase component) substrates. Protein kinase C-alpha and protein kinase C-beta, two protein kinase C isozymes present in human neutrophils, were inhibited by propranolol in a comparable manner. In the range of concentrations tested (30-1000 microM), neither cAMP-dependent protein kinase nor neutrophil protein tyrosine kinases were affected. The racemic form of propranolol and the (+) and the (-) stereoisomers were equally active, and other beta-adrenergic receptor antagonists (pindolol) and agonists (isoproterenol) were inactive. This suggests that the inhibitory action of propranolol on protein kinase C is related to the amphipathic nature of the drug rather than to its beta-adrenergic receptor blocking ability. Analogs of propranolol were synthesized and found to be more potent protein kinase C inhibitors, with IC50 values in the 10-20 microM range. We conclude that the ability of propranolol to inhibit both protein kinase C and PA phosphohydrolase complicates interpretation of results when this drug is used in signal transduction studies. In addition, propranolol may be a useful prototype for the synthesis of new protein kinase C inhibitors.
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PMID:Propranolol, a phosphatidate phosphohydrolase inhibitor, also inhibits protein kinase C. 132

Activation of human neutrophils by PMA causes a post-translational incorporation of 14C-labeled tyrosine into multiple neutrophil (PMN) proteins, that is distinctly different from the enzymatic tyrosinolation of tubulin in FMLP-stimulated PMN. Post-translational incorporation of other radiolabeled amino acids, including the structurally similar amino acid phenylalanine, does not occur under identical conditions of neutrophil activation, suggesting an involvement of the phenolic hydroxyl group of tyrosine in the PMA-mediated reaction. Similar to the stimulation of PMN tubulin tyrosinolation by FMLP, the PMA-induced incorporation of tyrosine into multiple PMN proteins is closely associated with activation of the NADPH oxidase-mediated respiratory burst in stimulated PMN and can be inhibited by a variety of reducing agents, inhibitors of peroxidase-mediated reactions, and intracellular scavengers of oxygen radicals. Moreover, the PMA-induced post-translational incorporation of tyrosine does not occur in PMN from patients with chronic granulomatous disease and is significantly reduced (50%) in PMN of an individual with myeloperoxidase deficiency. A similar stimulus-induced incorporation of tyrosine into multiple PMN proteins is also observed in PMN exposed to various phagocytic stimuli, and the incorporated radioactivity in cells undergoing phagocytosis is substantially enriched (40- to 50-fold) in isolated PMN phagolysosomes. Consistent with this latter observation, HPLC fractionation of stimulated PMN proteins and analysis of the incorporated radioactivity reveal that the 14C label is primarily associated with PMN membrane proteins. Furthermore, this post-translational incorporation of tyrosine, like that associated with PMA stimulation, is associated with production of oxygen radicals and the generation of protein carbonyl derivatives, which are indicative of oxidative protein modifications via mixed function oxidases. Our findings indicate that tyrosine incorporation into membrane proteins of stimulated PMN is functionally relevant to the physiologic host-defense responses of human neutrophils undergoing phagocytosis.
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PMID:A novel post-translational incorporation of tyrosine into multiple proteins in activated human neutrophils. Correlation with phagocytosis and activation of the NADPH oxidase-mediated respiratory burst. 133 Dec 34

To determine the role of protein tyrosine phosphorylation in the activation of phospholipase D (PLD), electropermeabilized HL-60 cells labeled in [3H]alkyl-phosphatidylcholine were treated with vanadate derivatives. Micromolar concentrations of vanadyl hydroperoxide (V(4+)-OOH) induced accumulation of tyrosine-phosphorylated proteins. Concomitantly, V(4+)-OOH or a combination of vanadate and NADPH elicited a concentration- and time-dependent accumulation of phosphatidic acid (PtdOH). In the presence of ethanol a sustained formation of phosphatidylethanol was observed, indicating that a type D phospholipase was activated. A good correlation was found to exist between the accumulation of tyrosine-phosphorylated proteins and activation of PLD. The V(4+)-OOH concentration dependence of the two responses was nearly identical, and the time course of activation was similar, with tyrosine phosphorylation preceding PLD activation by approximately 1 min. The ability of V(4+)-OOH to induce both responses was found to be strictly dependent on the presence of ATP and/or Mg2+, suggesting that PLD activation involves phosphotransferase reactions. Accordingly, ST638, a tyrosine kinase inhibitor, reduced concomitantly tyrosine phosphorylation and PLD activation elicited by V(4+)-OOH. The mechanism of action of V(4+)-OOH was investigated. The diacylglycerol kinase inhibitors, dioctanoylethylene glycol and R59022 potentiated PLD stimulation by exogenous diacylglycerol but not by V(4+)-OOH. Moreover, stimulation by V(4+)-OOH and by phorbol esters was synergystic. Therefore, diacylglycerol-induced activation of protein kinase C is unlikely to mediate the effects of V(4+)-OOH. The response of PLD to V(4+)-OOH was larger than that to guanosine 5'-(gamma-thio)triphosphate. Moreover, the effects of GTP gamma S and V(4+)-OOH were additive. Hence, activation of G proteins cannot account for the stimulation of PLD by V(4+)-OOH. V(4+)-OOH also triggers a burst of O2 consumption by the NADPH oxidase. Inhibition of PtdOH accumulation by addition of ethanol or by ST638 abolished this respiratory burst. Together, the results establish a strong correlation between tyrosine phosphorylation, PLD activation, and stimulation of the NADPH oxidase in HL-60 cells, suggesting a causal relationship.
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PMID:Peroxides of vanadate induce activation of phospholipase D in HL-60 cells. Role of tyrosine phosphorylation. 160 60

The effects of carbobenzyloxy-leucine-tyrosine-chloromethylketone (zLYCK), an inhibitor of chymotrypsin, were investigated on the activation pathways of the human neutrophil respiratory burst. At 10 microM zLYCK, a parallel inhibition was observed of superoxide production stimulated with the chemo-attractant FMLP and of chymotrypsin-like activity of human neutrophils. By contrast, superoxide production induced by PMA was minimally affected by zLYCK. The known transduction pathways triggered by FMLP were analyzed. zLYCK did not affect either the FMLP-induced cytosolic free calcium transient, inositol 1,4,5 trisphosphate formation, nor the PMA-induced phosphorylation of the 47-kDa substrate of protein kinase C. zLYCK did not affect the activity of protein kinase C extracted from neutrophils. In Ca(2+)-depleted cells, in which phosphatidylinositol 4,5-biphosphate breakdown does not occur, zLYCK inhibited the FMLP-induced respiratory burst in cells primed by low doses of PMA. The activity of the NADPH oxidase tested with active membranes from stimulated neutrophils or in a cell-free system was not inhibited by zLYCK. We conclude that: 1) zLYCK inhibits superoxide production through the inhibition of a chymotrypsin-like protease of the neutrophil, 2) zLYCK inhibits FMLP-induced activation of NADPH oxidase through a pathway independent of PtdInsP2 breakdown and cytosolic free calcium, and 3) zLYCK may prove a useful probe for the characterization of its target protease in neutrophil activation.
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PMID:The chymotrypsin inhibitor carbobenzyloxy-leucine-tyrosine-chloromethylketone interferes with the neutrophil respiratory burst mediated by a signaling pathway independent of PtdInsP2 breakdown and cytosolic free calcium. 165 5

Chronic granulomatous diseases (CGDs) are characterized by recurrent infections resulting from impaired superoxide production by a phagocytic cell, nicotinamide adenine dinucleotide phosphate (reduced) (NADPH) oxidase. Complementary DNAs were cloned that encode the 67-kilodalton (kD) cytosolic oxidase factor (p67), which is deficient in 5% of CGD patients. Recombinant p67 (r-p67) partially restored NADPH oxidase activity to p67-deficient neutrophil cytosol from these patients. The p67 cDNA encodes a 526-amino acid protein with acidic middle and carboxyl-terminal domains that are similar to a sequence motif found in the noncatalytic domain of src-related tyrosine kinases. This motif was recently noted in phospholipase C-gamma, nonerythroid alpha-spectrin (fodrin), p21ras-guanosine triphophatase-activating protein (GAP), myosin-1 isoforms, yeast proteins cdc-25 and fus-1, and the 47-kD phagocyte oxidase factor (p47), which suggests the possibility of common regulatory features.
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PMID:Cloning of a 67-kD neutrophil oxidase factor with similarity to a noncatalytic region of p60c-src. 169 59

In neutrophils, receptor-mediated activation of the respiratory burst requires ATP, possibly for phosphotransferase reactions. The oxidative response is only partially inhibited by blockers of protein kinase C, suggesting the involvement of other kinases. Recent evidence has demonstrated activation of tyrosine phosphorylation in chemoattractant-stimulated cells. This effect is likely mediated by G proteins because it is obliterated by pretreatment with pertussis toxin. In this report we have attempted to correlate the respiratory burst and phosphotyrosine accumulation induced by activation of G proteins, accomplished by treatment of electroporated cells with nonhydrolyzable analogues of GTP. In cells stimulated with guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) both responses displayed similar time course and concentration dependence. The guanine nucleotide selectivity sequence and the divalent cation requirements were also similar for both responses. These similarities suggest a relationship between tyrosine phosphorylation and the activation of the NADPH oxidase. GTP gamma S-induced phosphotyrosine accumulation was found to be inhibited by pretreatment of the cells with phorbol esters, underlining the existence of regulatory interactions between different signal transduction pathways in neutrophils.
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PMID:Tyrosine phosphorylation and oxygen consumption induced by G proteins in neutrophils. 170 84

Vanadate induces phosphotyrosine accumulation and activates O2 consumption in permeabilized differentiated HL60 cells. NADPH, the substrate of the respiratory burst oxidase, was found to be necessary not only for the increased O2 consumption, but also for tyrosine phosphorylation. The effect of NADPH was not due to reduction of vanadate to vanadyl. Instead, NADPH was required for the synthesis of superoxide, which triggered the formation of peroxovanadyl [V(4+)-OO] and vanadyl hydroperoxide [V(4+)-OOH]. One or both of these species, rather than vanadate itself, appears to be responsible for phosphotyrosine accumulation and activation of the respiratory burst. Accordingly, the stimulatory effects of vanadate and NADPH were abrogated by superoxide dismutase. Moreover, phosphorylation was activated in the absence of NADPH by treatment with V(4+)-OO and/or V(4+)-OOH, generated by treatment of orthovanadate with KO2 or H2O2 respectively. The main source of the superoxide involved in the formation of V(4+)-OO and V(4+)-OOH is the NADPH oxidase. This was shown by the inhibitory effects of diphenylene iodonium and by the failure of undifferentiated cells, which lack oxidase activity, to undergo tyrosine phosphorylation when treated with vanadate and NADPH. By contrast, exogenously generated V(4+)-OO induced marked phosphorylation in the undifferentiated cells, demonstrating the presence of the appropriate tyrosine kinases and phosphatases. A good correlation was found to exist between induction of tyrosine phosphorylation and activation of the respiratory burst, suggesting a causal relationship. Therefore an amplification cycle appears to exist in cells treated with vanadate, whereby trace amounts of superoxide initiate the formation of V(4+)-OO and/or V(4+)-OOH. These peroxides promote phosphotyrosine formation, most likely by inhibition of tyrosine phosphatases. Accumulation of critical tyrosine-phosphorylated proteins then initiates a respiratory burst, with abundant production of superoxide. The newly formed superoxide catalyses the formation of additional V(4+)-OO and/or V(4+)-OOH, thereby magnifying the response. Since vanadium derivatives are ubiquitous in animal tissues, V(4+)-OO and/or V(4+)-OOH could be formed in vivo by reduced O2 metabolites, becoming potential endogenous tyrosine phosphatase inhibitors. Because of their potency, peroxides of vanadate may be useful as probes for the study of protein phosphotyrosine turnover.
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PMID:Mechanism of vanadate-induced activation of tyrosine phosphorylation and of the respiratory burst in HL60 cells. Role of reduced oxygen metabolites. 171 98

A specific stimulation of tubulin tyrosinolation in human neutrophils (PMNs) is induced by the synthetic peptide chemoattractant N-formylmethionylleucylphenylalanine (fMet-Leu-Phe), and this stimulation is closely associated with activation of the NADPH oxidase-mediated respiratory burst (Nath, J., and Gallin, J. I. (1983) J. Clin. Invest. 71, 1273-1281). In contrast, along with tubulin tyrosinolation, a distinctly different respiratory burst-associated random posttranslational incorporation of tyrosine into multiple PMN proteins is observed in PMNs stimulated with the phorbol ester phorbol 12-myristate 13-acetate (PMA) or sn-1,2-dioctanoylglycerol (DAG). In studies exploring the mechanism(s) of signal transduction for these distinct neutrophil responses, we found that the fMet-Leu-Phe-induced stimulation of tubulin tyrosinolation in PMNs and in differentiated HL-60 cells is completely blocked by pertussis toxin, while the PMA-induced random incorporation of tyrosine is not inhibited. We also found that expression of the fMet-Leu-Phe-mediated stimulation of tubulin tyrosinolation in HL-60 cells is correlated with increases in the specific activity of protein kinase C and with the acquisition of respiratory burst activity which occur during induced myeloid maturation of these cells. Furthermore, both the fMet-Leu-Phe-induced stimulation of tubulin tyrosinolation and the PMA or DAG-induced random posttranslational incorporation of tyrosine into multiple proteins in activated neutrophils, were found to be reversibly inhibited (greater than 70%) by the protein kinase inhibitors 1-(5-isoquinolinesulfonyl)piperazine (C-I) and 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H-7), in parallel with inhibition of superoxide (O2-) generation. In related studies, we also found that fMet-Leu-Phe-stimulated O2- production is comparably inhibited by C-I and H-7, but in a highly temperature-dependent manner. Inhibition was observed only when C-I or H-7 is added to PMNs at physiologic temperature, i.e. 37 degrees C. Interestingly, inhibition of the PMA-induced O2- generation by C-I or H-7 was not found to be similarly temperature-dependent. Considered together, these findings argue against the suggestion that there is a protein kinase C-independent pathway for activation of the respiratory burst in neutrophils stimulated with N-formyl peptides.
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PMID:Studies of signal transduction in the respiratory burst-associated stimulation of fMet-Leu-Phe-induced tubulin tyrosinolation and phorbol 12-myristate 13-acetate-induced posttranslational incorporation of tyrosine into multiple proteins in activated neutrophils and HL-60 cells. 253 26

Activation of the NADPH oxidase was examined in electrically permeabilized human neutrophils exposed to non-hydrolysable guanine nucleotides. Guanosine 5'-[gamma-thio]triphosphate (GTP[S]) induced a marked increase in the rate of O2 consumption, which was partially resistant to staurosporine, an inhibitor of protein kinase C, under conditions where the response to diacylglycerol was virtually abolished. The respiratory burst elicited by GTP[S] was dependent on the presence of ATP and Mg2+, suggesting involvement of phosphorylation reactions. Accordingly, phosphoprotein formation was greatly stimulated by the guanine nucleotide. The polypeptide phosphorylation pattern induced by GTP[S] was similar to, but not identical with, that observed with diacylglycerol, indicating the activation of kinases other than protein kinase C by the guanine nucleotide. The possible involvement of tyrosine kinases was assessed by immunoblotting using anti-phosphotyrosine antibodies. Treatment of electroporated cells with GTP[S] stimulated the accumulation of tyrosine-phosphorylated proteins. This effect was not induced by diacylglycerol, indicating that tyrosine phosphorylation is not secondary to stimulation of protein kinase C. The results indicate that, in neutrophils, activated G-proteins can stimulate tyrosine kinase and/or inhibit tyrosine phosphatase activity. Changes in the amounts of tyrosine-phosphorylated proteins may signal activation of the respiratory burst.
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PMID:Guanine nucleotides induce tyrosine phosphorylation and activation of the respiratory burst in neutrophils. 293 Apr 92

We studied involvement of tyrosine-phosphorylated proteins in activation of NADPH oxidase in guinea pig neutrophils. Pervanadate, which is the oxidized form of orthovanadate, induced O2- production and protein tyrosine phosphorylation in neutrophils. O2- production induced by pervanadate was more sensitive to the tyrosine kinase-specific inhibitor, ST-638, as compared with the production induced by PMA. On the other hand, staurosporine more selectively inhibited PMA-induced O2- production than pervanadate-induced production. These results indicate that tyrosine kinase, not protein kinase C, is involved in pervanadate-induced O2- production. The tyrosine-phosphorylated proteins were detected in both the cytosol and membrane fractions prepared from pervanadate-induced neutrophils. In order to examine if tyrosine residues of some components of NADPH oxidase were directly phosphorylated, tyrosine-phosphorylated proteins were removed from solubilized membranes prepared from the pervanadate-stimulated neutrophils by immunoprecipitation with an anti-phosphotyrosine anti-body. NADPH oxidase activity in the solubilized membranes was not decreased by the treatment. These findings suggest that the components of NADPH oxidase are not tyrosine-phosphorylated by pervanadate treatment, that tyrosine phosphorylation may be involved in the signal transduction pathway of NADPH oxidase activation by pervanadate, and that this pathway is independent of the activation by protein kinase C.
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PMID:Respiratory burst and tyrosine phosphorylation by vanadate. 748 2


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