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)

Treatment of submitochondrial particles (ETP) with trypsin at 0 degrees destroyed NADPH leads to NAD (or 3-acetylpyridine adenine dinucleotide, AcPyAD) transhydrogenase activity. NADH oxidase activity was unaffected; NADPH oxidase and NADH leads to AcPyAD transhydrogenase activities were diminished by less than 10%. When ETP was incubated with trypsin at 30 degrees, NADPH leads to NAD transhydrogenase activity was rapidly lost, NADPH oxidase activity was slowly destroyed, but NADH oxidase activity remained intact. The reduction pattern by NADPH, NADPH + NAD, and NADH of chromophores absorbing at 475 minus 510 nm (flavin and iron-sulfur centers) in complex I (NADH-ubiquinone reductase) or ETP treated with trypsin at 0 degrees also indicated specific destruction of transhydrogenase activity. The sensitivity of the NADPH leads to NAD transhydrogenase reaction to trypsin suggested the involvement of susceptible arginyl residues in the enzyme. Arginyl residues are considered to be positively charged binding sites for anionic substrates and ligands in many enzymes. Treatment of ETP with the specific arginine-binding reagent, butanedione, inhibited transhydrogenation from NADPH leads to NAD (or AcPyAD). It had no effect on NADH oxidation, and inhibited NADPH oxidation and NADH leads to AcPyAD transhydrogenation by only 10 to 15% even after 30 to 60 min incubation of ETP with butanedione. The inhibition of NADPH leads to NAD transhydrogenation was diminished considerably when butanedione was added to ETP in the presence of NAD or NADP. When both NAD and NADP were present, the butanedione effect was completely abolished, thus suggesting the possible presence of arginyl residues at the nucleotide binding site of the NADPH leads to NAD transhydrogenase enzyme. Under conditions that transhydrogenation from NADPH to NAD was completely inhibited by trypsin or butanedione, NADPH oxidation rate was larger than or equal to 220 nmol min-1 mg-1 ETP protein at pH 6.0 and 30 degrees. The above results establish that in the respiratory chain of beef-heart mitochondria NADH oxidation, NADPH oxidation, and NADPH leads to NAD transhydrogenation are independent reactions.
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PMID:Oxidation of NADPH by submitochondrial particles from beef heart in complete absence of transhydrogenase activity from NADPH to NAD. 0 Mar 95

The superoxide-generating respiratory burst oxidase (NADPH oxidase) from human neutrophils can be activated in a cell-free system consisting of plasma membrane and cytosol by anionic amphiphiles such as sodium dodecyl sulfate and arachidonate (McPhail, L. C., Shirley, P. S., Clayton, C. C., and Snyderman, R. (1985) J. Clin. Invest. 75, 1735-1739; Curnutte, J. T. (1985) J. Clin. Invest. 75, 1740-1743; Bromberg, Y., and Pick, E. (1984) Cell. Immunol. 88, 213-221). Herein, the activity thus obtained is shown to be very labile at 37 degrees C. The rate of inactivation varied inversely with cytosol concentration. The stabilizing factor(s) was destroyed by heat and trypsin, indicating that it is protein in nature. Whereas cytosol from normal cells and from a chronic granulomatous disease patient lacking p67phox stabilized the oxidase activity, that from a chronic granulomatous disease patient lacking p47phox did not. Also, dialdehyde NADPH-treated cytosol showed no stabilizing effect, indicating that p47phox and a putative NADPH-binding component both participate in stabilization. The mechanism of inactivation was further explored by examining the stabilizing effect of agents that can act as chemical cross-linkers. Of several tested, 1-ethyl-3-(3-dimethylaminopropyl) carbodiimide (EDC) was the most effective, but others that utilize different chemical mechanisms were also partially effective. EDC extended the half-life at 37 degrees C from 2 to 120 min, protected against the inactivating effects of Triton X-100 and high salt, and did not affect the Km for NADPH. Stabilization required prior activation in the presence of both cytosol and membrane; and EDC treatment of cytosol, membrane, or a mixture of the two prior to the addition of sodium dodecyl sulfate failed to induce stabilization. EDC eliminated the requirement for the continuous presence of cytosol and activator. Dialysis did not cause a loss in activity, whereas control activity was diminished with dialysis and was largely restored with added sodium dodecyl sulfate. In the absence of EDC, the separation of cytosol from the membrane fraction resulted in a significant loss of activity, which was largely restored by the addition of cytosol. However, EDC treatment allowed the isolation of a nearly fully active oxidase in the membrane fraction, the activity of which was not influenced by added cytosol. These results support a model in which the active NADPH oxidase consists of a dissociable complex among membrane and cytosolic components and indicate that the longevity of the activated state requires continuous association of these components.
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PMID:Stabilization of human neutrophil NADPH oxidase activated in a cell-free system by cytosolic proteins and by 1-ethyl-3-(3-dimethylaminopropyl) carbodiimide. 131 6

Intact neutrophils possess a cellular mechanism that efficiently deactivates the microbicidal O2-generating NADPH oxidase during the respiratory burst (Akard, L. P., English, D., and Gabig, T. G. (1988) Blood 72, 322-327). The present studies directed at identifying the molecular mechanism(s) involved in NADPH oxidase deactivation showed that a heat- and trypsin-insensitive species in the cytosolic fraction from normal unstimulated neutrophils was capable of deactivating the membrane-associated NADPH oxidase isolated from opsonized zymosan- or phorbol 12-myristate 13-acetate-stimulated neutrophils. This cytosolic species also deactivated the cell-free-activated oxidase. Deactivation by this cytosolic species occurred in the absence of NADPH-dependent catalytic turnover and was reversible, since NADPH oxidase activity could be subsequently reactivated in the cell-free system. The sedimentable particulate fraction from unstimulated neutrophils did not demonstrate deactivator activity. Deactivator activity was demonstrated in the neutral lipid fraction of neutrophil cytosol extracted with chloroform:methanol. Following complete purification of cytosolic deactivator activity by thin layer chromatography and reversed phase high performance liquid chromatography, the deactivator species was shown to be a lipid thiobis ester compound by mass spectroscopy. Cellular metabolism of this compound in human neutrophils may reveal a unique mechanism for enzymatic control of the NADPH oxidase system and thereby play an important role in regulation of the inflammatory response.
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PMID:Purification and characterization of a lipid thiobis ester from human neutrophil cytosol that reversibly deactivates the O2- -generating NADPH oxidase. 216 Apr 58

The superoxide-forming NADPH oxidase of resting macrophages can be activated in a cell-free system by certain anionic amphiphiles, most notably SDS. Activation requires the cooperation of membrane-associated and cytosolic components. We now report that at least two cytosolic factors are required for SDS-elicited activation of NADPH oxidase of guinea pig macrophages. Treatment of cytosol with ammonium sulfate at 37% saturation led to the partition of the two factors in the supernatant and precipitate fractions (termed components sigma 1 and sigma 2, respectively). Although each fraction by itself was inactive, recombining them resulted in complete recovery of the original ability of native cytosol to support SDS-elicited superoxide production by octyl-glucoside solubilized macrophage membranes. Both components are proteins, as shown by their susceptibility to trypsin and proteinase K, and were inactivated by heating at 60 degrees C. sigma 2, but not sigma 1, was inactivated by treatment with the covalent sulfhydryl reagent N-ethylmaleimide. On high-performance gel filtration, sigma 1 was found to have a molecular mass of 30 to 52 kDa, whereas sigma 2 eluted with molecules of 150 to 440 kDa. Component sigma 1 was partially purified from the ammonium sulfate supernatant fraction of cytosol by hydrophobic interaction chromatography followed by gel filtration. A material behaving like sigma 1 was also found to be present in the cytosol of guinea pig thymus cells, lymph node lymphocytes and brain and of the mouse myeloma cell line MOPC 315. However, sigma 2 appears to be strictly phagocyte specific. The molecular characteristics of sigma 1 components from nonphagocytic cells were similar to those of macrophage sigma 1, as shown by their presence in the supernatant, after treatment of cytosol with ammonium sulfate at 37% saturation, a molecular mass close to 30 to 52 kDa and a similar behavior on hydrophobic interaction chromatography. These findings raise the possibility that cytosolic component sigma 1 might be the bearer of a cellular function, more general than the one suggested by its role in the activation of NADPH oxidase of phagocytes.
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PMID:Activation of the superoxide-forming NADPH oxidase of macrophages requires two cytosolic components--one of them is also present in certain nonphagocytic cells. 255 80

NADPH oxidase was induced in HL-60 human promyelocytic leukemia cells when these cells were treated with 10(-7) M 1,25-dihydroxyvitamin D3 (VD3) for 4 days. The treated cells were disrupted by sonication, and the postnuclear fraction was separated into 48,000 X g supernatant (cytosol) and precipitate (membrane) fractions. Membrane-bound NADPH oxidase was activated in vitro with SDS and cytosol. However, the cytosol from untreated HL-60 cells could not activate NADPH oxidase. The cytosolic activity was induced 2 days after VD3 treatment and fully expressed on day 4. The activity was heat-sensitive and destroyed by trypsin. The possibility that the cytosolic activation factor is a protein kinase C (PKC) was then tested. Ca2+- and phospholipid-dependent PKC activity was low in the cytosol of untreated HL-60 cells but increased in the cytosols of VD3-treated cells 4 and 11 times, respectively, 2 days and 4 days after treatment. H-7 [1-(5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride], inhibited PKC activity in a dose-dependent manner at 1-100 microM. Cytosolic activity of NADPH oxidase was not inhibited at all at those concentrations. Furthermore, PKC activity was lost when Ca2+ was omitted from the assay mixture, but NADPH oxidase was activated in the presence of EGTA. These results indicated that the cytosolic factor is not a PKC, and that NADPH oxidase in this cell-free system is activated by a mechanism that does not involve PKC.
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PMID:Induction of cytosolic activation factor for NADPH oxidase in differentiated HL-60 leukemia cells. 316 10

Evidence was obtained regarding the way the O-2-forming NADPH oxidase of human neutrophils is arranged within the plasma membrane. O-2 production by particles from zymosan-activated human neutrophils rose two- to threefold when the particles were assayed in the presence of appropriate concentrations of Triton X-100. The portion of activity revealed by the detergent was not affected by treating the particles with trypsin or with p-chloromercuribenzene sulfonate, a nonpenetrating sulfhydryl reagent, but the activity detectable in the absence of detergent was abolished by these treatments. O-2 production by phagocytic vesicles was not augmented by detergent, and was almost entirely eliminated by tryptic digestion of the vesicles regardless of whether or not detergent was present during the assay. These results suggest that the O-2-forming oxidase is embedded in the plasma membrane with a portion extending into the cytoplasm and the rest buried in the lipid bilayer. It is proposed that the pyridine nucleotide-binding site is located on the cytoplasmic extension and the oxygen binding site is on the intramembranous portion of the enzyme.
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PMID:Arrangement of the respiratory burst oxidase in the plasma membrane of the neutrophil. 626 51

Electrophoretic isolation of a membrane-bound NADPH oxidase of guinea-pig polymorphonuclear leukocytes was attempted with the O2- -generating membranes of cells unstimulated or stimulated with C3b-zymosan or sodium dodecyl sulfate, and also with the phagosomes isolated from the phorbol myristate acetate-coated latex particle-phagocytosing cells. When these vesicles were subjected to discontinuous polyacrylamide gel electrophoresis in the presence of Triton X-100 and then assayed for NADPH-Nitroblue tetrazolium reducing activity, the activity was detected by the appearance of a single, blue band of the reduced dye on the gel, independent of the source of vesicles. In addition, the enzyme was able to generate O2- and its activity was significantly augmented with the homologous liver microsomal cytochrome b5. Its activity was heat-labile and inactivated by N-ethylmaleimide and p-chloromercuribenzene sulfonate. The enzyme, with an apparent molecular weight of 150 000, in the phagosomes was easily susceptible to limited proteolysis by trypsin and formed an active fragment with a molecular weight of 70 000, accompanying the loss of O2- -generating activity of the vesicles.
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PMID:Electrophoretic isolation of a membrane-bound NADPH oxidase from guinea-pig polymorphonuclear leukocytes. 630 74

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

Broussochalcone A, a prenylated chalcone isolated from Broussonetia papyrifera (L.) VENT. (Moraceae), inhibited O2 consumption in formylmethionyl-leucyl-phenylalanine (fMLP)- and phorbol 12-myristate 13-acetate (PMA)-stimulated rat neutrophils in a concentration-dependent manner with IC50 values of 70.3 +/- 4.9 and 63.9 +/- 7.1 microM, respectively. Broussochalcone A did not affect the fMLP-induced increase of cellular inositol trisphosphate (IP3) and [Ca2+]i. However, the enzyme activity of neutrophil cytosolic protein kinase C was effectively suppressed by broussochalcone A. Broussochalcone A had no effect on either [3H]phorbol 12,13-dibutyrate ([3H]PDB) binding to neutrophil cytosolic protein kinase C or on PMA-induced membrane translocation of protein kinase C-beta in neutrophils. Broussochalcone A suppressed the enzyme activity of trypsin-treated rat brain protein kinase C in a concentration-dependent manner. In PMA-activated neutrophil particulate NADPH oxidase, broussochalcone A attenuated superoxide anion radical (O2.-) generation with an IC50 value of 61.8 +/- 5.4 microM. These results show that the inhibitory effect of broussochalcone A on respiratory burst in neutrophils is not mediated by the reduction of phospholipase C activity, but is mediated partly by the suppression of protein kinase C activity through interference with the catalytic region and by the attenuation of O2.- generation from the NADPH oxidase complex.
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PMID:Investigation of the inhibitory effect of broussochalcone A on respiratory burst in neutrophils. 905 55

Cycloheterophyllin, a prenylflavone, inhibited the superoxide anion (O2-) generation from formylmethionyl-leucyl-phenylalanine (fMLP)- and phorbol 12-myristate 13-acetate (PMA)-stimulated rat neutrophils in a concentration-dependent manner with IC50 values of 47.0 +/- 5.0 and 1.7 +/- 0.4 microM, respectively. Cycloheterophyllin had no effect on O2- generation in xanthine-xanthine oxidase system and during dihydroxyfumaric acid (DHF) autoxidation. Cycloheterophyllin exerted a concentration-dependent inhibition of neutrophil cytosolic protein kinase C (PKC) and rat brain PKC, but had no effect on porcine heart protein kinase A (PKA). Unlike staurosporine, cycloheterophyllin did not affect the trypsin-treated rat brain PKC. [3H]Phorbol 12,13-dibutyrate ([3H]PDB) binding to neutrophil cytosolic PKC was significantly suppressed by cycloheterophyllin. However, cycloheterophyllin had negligible effect on the PMA-induced membrane translocation of PKC-beta and PKC-delta in neutrophils. Moreover, the fMLP-induced [Ca2+]i elevation and inositol trisphosphate (IP3) formation of neutrophils were not affected by cycloheterophyllin at concentrations which significantly suppressed the O2- generation. In cell-free system, addition of arachidonate (AA) into the mixture of cytosol and membrane fractions of the resting neutrophils to make NADPH oxidase assembly and activation. Cycloheterophyllin had no effect on O2- generation in AA-activated cell-free system. These results suggest that the suppression of PKC activity through the interaction with the regulatory region of PKC is involved in the inhibition by cycloheterophyllin of the O2- generation in rat neutrophils.
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PMID:Blockade of protein kinase C is involved in the inhibition by cycloheterophyllin of neutrophil superoxide anion generation. 915 Dec 91


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