Purification and properties of an O2-.-generating oxidase from bovine polymorphonuclear neutrophils

A membrane-associated O2-.-generating oxidase has been purified from activated bovine polymorphonuclear neutrophils (PMN). The oxidase was extracted with Triton X-100 from a PMN membrane fraction largely devoid of lysosomal granules. The Triton extract was purified by a series of steps, including ion-exchange chromatography on DE-52 cellulose, gel filtration on Sephadex G-200, and isoelectric focusing. The O2-.-generating oxidase activity was assayed as a superoxide dismutase inhibitable cytochrome c reductase. The activity of the purified enzyme was strictly dependent on NADPH as electron donor. The purification factor with respect to the phorbol myristate acetate activated PMN was 75, and the recovery was about 6%. The reactivity of the purified oxidase was increased by 3-4-fold after incubation with asolectin. The minimum molecular weight of the oxidase, deduced from migration in sodium dodecyl sulfate-polyacrylamide gel electrophoresis, was 65 000 +/- 3000. The optimum pH of the oxidase was 7.5, its KM,NADPH was congruent to 30 microM, and its isoelectric point was at pH 5.0. The enzyme was inhibited by low concentrations of mersalyl (half-inhibition congruent to 10 microM) and Cibacron Blue (half-inhibition less than 10 microM). It was insensitive to 1 mM cyanide. Rapid loss of activity occurred at 0-2 degrees C, concomitantly with a decrease in sensitivity to superoxide dismutase: both activity and sensitivity to superoxide dismutase could be restored by addition of asolectin. The purified oxidase contained no spectrophotometrically detectable cytochrome b, and enzymatic assay failed to detect FAD in oxidase preparations subjected to heat treatment or trypsin digestion.     

Parameters of activation of the membrane-bound O2- generating oxidase from bovine neutrophils in a cell-free system

Parameters governing the extent of activation of the O2- generating oxidase in a cell-free system derived from bovine neutrophils were examined. The reconstituted system consisted of the following: a particulate fraction enriched in plasma membrane and containing the oxidase, a soluble fraction containing cytosolic factor(s) required for oxidase a soluble fraction containing cytosolic factor(s) required for oxidase activation, a non hydrolyzable analog of GTP, and either arachidonic acid or sodium dodecyl sulfate. When the amount of arachidonic acid or sodium dodecyl sulfate was maintained at a fixed value with respect to the amount of membrane used, a sigmoidal response of oxidase activity to increasing amounts of cytosol added was observed. In contrast, when the concentration of arachidonic acid or sodium dodecyl sulfate was properly adjusted with respect to that of membrane and cytosol, the curve relating oxidase activity to cytosol was hyperbolic, pointing to a simple michaelian relationship for the dependence of oxidase activation on the activating factor(s) of cytosol. Another parameter affecting oxidase activation was the ionic strength of the reconstitution medium, the extent of activation being lower at high ionic strength.     

The O2.- generating oxidase activation of bovine neutrophils. Evidence for synergism of multiple cytosolic factors in a cell-free system

Activation of the O2.- generating oxidase in neutrophils can be achieved with a cell-free oxidase-activating system, which consists of a high speed supernatant (cytosol), a particulate fraction enriched in plasma membrane, GTP-gamma-S, arachidonic acid and Mg ions. Cytosolic proteins from bovine neutrophils were fractionated by chromatography on Mono Q and Mono S columns into two fractions, neither of which was able to activate efficiently the membrane-bound oxidase. However, when combined and added to the cell-free system under optimized conditions, they acted synergistically, activating the oxidase to virtually the same extent as crude cytosol. This synergism demonstrates that more than one cytosolic factor is required for oxidase activation, and can be used to trace the cytosolic factors during the course of their purification.     

Photolabeling of a O2-. generating protein in bovine polymorphonuclear neutrophils by an arylazido NADP+ analog

A plasma membrane fraction of bovine polymorphonuclear neutrophils enriched in NADPH-dependent, O2-. generating oxidase activity, and a number of fractions solubilized in detergent, recovered during the course of the purification of this oxidase have been tested for their ability to react with radiolabeled N-4-azido-2-nitrophenyl aminobutyryl NADP+ (arylazido NADP+ or NAP4-NADP+). In the dark, NAP4-NADP+ and its reduced form NAP4-NADPH, were found to inhibit competitively the NADPH-dependent O2-. generating oxidase activity of the plasma membrane fraction of bovine neutrophils activated by phorbol myristate acetate. The nitrene derivative formed upon photoirradiation of NAP4-NADP(H) bound covalently to different proteins of the plasma membrane. Photolabeling of these proteins was prevented by preincubation with an excess of NADPH. Photolabeling of a protein of 65,000 Mr was decreased by omission of phorbol myristate acetate as activating agent of the respiratory burst in neutrophils or by addition of micromolar amounts of Cibacron Blue and mersalyl which are known to inhibit the production of O2-. by the plasma membrane fraction. During the course of the purification procedure, the 65000 Mr protein emerged as the preferentially photolabeled protein. These data, in agreement with previous findings concerning the purification of an NADPH-dependent, O2-. generating oxidase protein of Mr 65000 from bovine neutrophils (Doussière, J. and Vignais, P.V. (1985) Biochemistry 24, 7231-7239), strongly suggest that a single protein of Mr 65000, located in the plasma membrane fraction of bovine neutrophils, is able to act both as an NADPH deshydrogenase and as an oxygen reductase to generate O2-.     

Activation of O2.- generating oxidase of bovine neutrophils in a cell-free system. Interaction of a cytosolic factor with the plasma membrane and control by G nucleotides

Activation of the O2.- -generating oxidase of bovine neutrophils was studied in a cell-free system, consisting of a particulate fraction enriched in plasma membrane, cytosol, arachidonic acid, and the non-hydrolyzable nucleotide GTP-gamma-S. Activation of the membrane-bound oxidase was accompanied by the disappearance of the activating factor from the cytosol. Above a cytosol to membrane ratio of 25, the excess of added cytosolic factor remained in active state in the soluble fraction. The process could be partially reversed by serum albumin. Disappearance of the cytosolic factor was promoted by unsaturated long-chain fatty acids, but not by saturated ones, and occurred not only in the presence of GTP-gamma-S but also in the presence of GDP-beta-S or in the absence of Mg ions, although in the latter cases activation of O2.- production was seriously impaired. This suggests that the disappearance of the activating factor from the cytosol and the triggering effect of GTP-gamma-S are related, but distinct, events in the oxidase activation process. The disappearance of the activating factor from cytosol can be explained by translocation of the cytosolic factor to the membrane fraction. Yet under some conditions, including the presence of GDP-beta-S or EDTA, inactivation was prevailing and could be an alternative explanation for the results. Specific binding of radiolabeled GTP-gamma-S could be demonstrated both in the membrane and in the cytosolic fractions.(ABSTRACT TRUNCATED AT 250 WORDS)     

Inhibition of O2-. generating oxidase of neutrophils by iodonium biphenyl in a cell free system: effect of the redox state of the oxidase complex.

The conditions of inhibition of neutrophil O2-. generating oxidase by iodonium biphenyl (IBP) were studied. In a cell free system of oxidase activation consisting of neutrophil membranes and cytosol, GTP-gamma-S, Mg2+ and arachidonic acid, the inhibitory effect of IBP depended on the redox conditions of the medium. Inhibition was observed when the medium was supplemented with dithionite or NADPH. When the cell free system was incubated with IBP in the absence of reducing agents, full oxidase activity was recovered after removal of free IBP by gel filtration. Bovine neutrophil membranes, but not cytosol, contained component(s) sensitive to IBP. Upon treatment of neutrophil membranes by IBP followed by reduction, the spectrum of reduced cytochrome b558 was modified, suggesting that cytochrome b558 is a target site for IBP.     

Immunological characterization of bovine lysyl oxidase

Antibodies to homogeneously purified bovine aortic lysyl oxidase were prepared in chickens. The chicken anti-lysyl oxidase antiserum effectively inhibited bovine aortic lysyl oxidase activity. Non-immune antiserum from chickens, goats and humans was found to enhance bovine aortic lysyl oxidase activity, while non-immune rabbit serum inhibited enzyme activity. A competitive ELISA was developed to monitor immunoreactive lysyl oxidase during purification. Chromatography of bovine lysyl oxidase on Sephacryl S-200, the final step in purification, revealed two peaks of immunoreactive lysyl oxidase. The large molecular weight peak appears to contain inactive multimeric forms of the enzyme.     

Delineation of the catalytic components of the NADPH-dependent O2- generating oxidoreductase of human neutrophils

Four catalytic components of the NADPH-dependent O2- generating oxidoreductase of human neutrophils have been identified. DCIP reductase, cytochrome c reductase and a chromophore 450-455 reductase are present in phorbol myristate acetate stimulated neutrophils and absent in resting cells and phorbol myristate acetate stimulated chronic granulomatous disease cells. Quinol dehydrogenase activity has also been demonstrated in activated and resting cells. Furthermore, a chromophore absorbing in the reduced state at 450-455 nm participates in superoxide production. This chromophore is reduced by NADPH or duroquinol and is missing in cell lysates derived from a patient with chronic granulomatous disease.     

The NADPH-dependent O-.2-generating oxidase from human neutrophils

A subcellular particulate fraction from normal neutrophils that was enriched in NADPH-dependent O-.2-generating activity (Gabig, T. G., Schervish, E. W., and Santinga, J. T. (1982) J. Biol. Chem. 257, 4114-4119) has been further characterized. This preparation contained 0.25 +/- 0.02 nmol of flavin adenine dinucleotide/mg of protein and 0.28 +/- 0.01 nmol of cytochrome b/mg of protein. Measurable amounts of riboflavin or flavin mononucleotide were not present. The flavoprotein was completely resolved from the cytochrome b by selective bile salt extraction of the particulate oxidase fraction. The identical subcellular particulate fraction was studied in the neutrophils from two male patients with chronic granulomatous disease. The neutrophil oxidase fraction from one of the chronic granulomatous disease patients had a cytochrome b component that was spectrally abnormal, but a normal content of flavin adenine dinucleotide. The fraction from this patient's neutrophils corresponding to the resolved flavoprotein from normal cells had fluorescence excitation and emission spectra that were identical to the normal flavoprotein. The neutrophil oxidase fraction from the second chronic granulomatous disease patient had a quantitatively and spectrally normal cytochrome b but less than 8% of the normal amount of flavin adenine dinucleotide. The fraction from the latter patient's neutrophils corresponding to the resolved flavoprotein from normal cells had no detectable flavoprotein by fluorescence excitation and emission spectroscopy. It is postulated that these two patients represent distinct mutants in two separate components of the neutrophil NADPH-dependent O-.2-generating oxidase system, flavoprotein and cytochrome b.     

Respiratory burst of rabbit peritoneal neutrophils. Transition from an NADPH diaphorase activity to an .O2(-)-generating oxidase activity

Superoxide (.O2-) production by the NADPH oxidase of a membrane fraction derived from rabbit peritoneal neutrophils activated by 4 beta-phorbol 12-myristate 13-acetate (PMA) was studied at 25 degrees C under different conditions, and measured by the superoxide dismutase inhibitable reduction of cytochrome c. Whereas PMA-activated rabbit neutrophils incubated in a glucose-supplemented medium exhibited a substantial rate of production of .O2-, the membranes prepared by sonication of the activated neutrophils were virtually unable to generate .O2- in the presence of NADPH. Instead, they exhibited an NADPH-dependent diaphorase activity, measured by the superoxide-dismutase-insensitive reduction of cytochrome c. Upon addition of arachidonic acid, which is known to elicit oxidase activation, the NADPH diaphorase activity of the rabbit neutrophil membranes vanished and was stoichiometrically replaced by an NADPH oxidase activity. The emerging oxidase activity was fully sensitive to iodonium biphenyl, a potent inhibitor of the respiratory burst, whereas the diaphorase activity was not affected. Addition of 0.1% Triton X-100 or an excess of arachidonic acid, acting as detergent, resulted in the reappearance of the diaphorase activity at the expense of the oxidase activity. These results indicate that the diaphorase-oxidase transition is reversible. When the rabbit neutrophil membranes were supplemented with rabbit neutrophil cytosol, guanosine 5'-[gamma-thio]triphosphate and Mg2+, in addition to arachidonic acid, not only the NADPH diaphorase activity disappeared, but the emerging NADPH oxidase activity was markedly enhanced (about 10 times compared to that of membranes treated with arachidonic acid alone). The diaphorase-oxidase transition was accompanied by a 10-fold increase in the Km for NADPH, suggesting a change of conformation propagated to the NADPH-binding site during the transition. The treatment of PMA-activated rabbit neutrophils with cross-linking reagents, like glutaraldehyde or 1-(3-dimethylaminopropyl)-3-ethyl carbodiimide, prevented the loss of the PMA-elicited oxidase activity upon disruption of the cells by sonication, suggesting that the interactions between the components of the oxidase complex are stabilized by cross-linking.     

Decreased apoptosis of beta 2- integrin-deficient bovine neutrophils

Stimulant-induced viability of neutrophils, nuclear-fragmentation, increase in intracellular calcium ([Ca2+]i), expression of annexin V on neutrophils and proteolysis of a fluorogenic peptide substrate Ac-DEVD-MCA (acetyl Asp-Glu-Val-Asp alpha-[4-methyl-coumaryl-7-amide]) by neutrophil lysates from five normal calves and three calves with leucocyte adhesion deficiency were determined to evaluate the apoptosis of normal and CD18-deficient neutrophils. Viability was markedly decreased in control neutrophils stimulated with opsonized zymosan (OPZ), compared to CD18-deficient neutrophils at 37 degrees C after incubation periods of 6 and 24 hours. The rate of apoptosis of control neutrophils stimulated with OPZ increased significantly depending on the incubation time, whereas no apparent increase in apoptosis was found in CD18-deficient neutrophils under the same conditions. Aggregated bovine (Agg) IgG-induced apoptosis of control neutrophils was not significantly different from that of CD18-deficient neutrophils. The expression of annexin V on OPZ-stimulated control neutrophils was greater than that of unstimulated ones 6 h after stimulation. No apparent increase in annexin V expression on CD18-deficient neutrophils was found with OPZ stimulation. A delay in apoptosis was demonstrated in CD18-deficient bovine neutrophils and this appeared to be closely associated with lowered signalling via [Ca2+]i, diminished annexin V expression on the cell surface, and decreased caspase 3 activity in lysates.     

Immunological studies on the respiratory burst oxidase of pig blood neutrophils

Recently, a flavin enzyme (pI 5.0), that is probably responsible for superoxide (O2-)-generated oxidase activity, was separated by isoelectric focusing-polyacrylamide gel electrophoresis (IEF-PAGE) from neutrophil membranes in our laboratory [(1987) J. Biol. Chem. 262, 12316-12322]. In the present work, we performed immunological studies on this enzyme derived from pig blood neutrophils. The enzyme extract obtained on IEF-PAGE was injected into guinea pigs to raise antibodies. IgG antibody against the pI 5.0 protein inhibited maximally 54% of the O2- -generating activity of the membrane-solubilized oxidase, whereas the normal serum IgG was not inhibitory at all. Our results further confirmed that the enzyme (PI 5.0) is one of the component(s) of the O2- -generating system. The enzyme gave rise to a band corresponding to a major protein of 72 +/- 4 kDa on both non-denaturing and SDS-PAGE. Immunoblotting after SDS-PAGE demonstrated labelling of peptides of 70-72, 28-32 and 16-18 kDa.     

Purification and properties of sulfhydryl oxidase from bovine pancreas

Immunofluorescent studies showed that antibodies prepared against bovine milk sulfhydryl oxidase reacted with acinar cells of porcine and bovine pancreas. A close inspection of the specific location within bovine pancreatic cells revealed that the zymogen granules, themselves, bound the fluorescent antibody. Bovine pancreatic tissue was homogenized in 0.3 M sucrose, then separated into the zymogen granule fraction by differential centrifugation. The intact zymogen granules were immunofluorescent positive when incubated with antibodies to bovine milk sulfhydryl oxidase, and glutathione-oxidizing activity was detected under standard assay conditions. Pancreatic sulfhydryl oxidase was purified from the zymogen fraction by precipitation with 50% saturated ammonium sulfate, followed by Sepharose CL-6B column chromatography. Active fractions were pooled and subjected to covalent affinity chromatography on cysteinylsuccinamidopropyl-glass using 2 mM glutathione as eluant at 37 degrees C. The specific activity of bovine pancreatic sulfhydryl oxidase thus isolated was 10-20 units/mg protein using 0.8 mM glutathione as substrate. Ouchterlony double-diffusion studies showed that antibody directed against the purified bovine milk enzyme reacted identically with pancreatic sulfhydryl oxidase. The antibody also immunoprecipitated glutathione-oxidizing activity from crude pancreatic homogenates. Western blotting analysis indicated a 90,000 Mr antigen-reactive band in both bovine milk and pancreatic fractions while sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed a single silver-staining protein with an apparent Mr 300,000. Thus, we believe that sulfhydryl oxidase may exist in an aggregated molecular form. Bovine pancreatic sulfhydryl oxidase catalyzes the oxidation of low-molecular-weight thiols such as glutathione, N-acetyl-L-cysteine, and glycylglycyl-L-cysteine, as well as that of a high-molecular-weight protein substrate, reductively denatured pancreatic ribonuclease A.     

Purification and characterization of an oxidase activating factor of 63 kilodaltons from bovine neutrophils

A 63-kDa protein, which behaves as an oxidase activating factor in bovine neutrophils, has been purified to electrophoretic homogeneity. The protein was isolated from the cytosol of resting bovine neutrophils after several steps, including ammonium sulfate precipitation and chromatography on AcA44, DE-52 cellulose, Mono Q, and Superose 12 in the presence of dithiothreitol. The oxidase activating potency of the protein was assayed with a cell-free system consisting of neutrophil membranes, GTP gamma S, arachidonic acid, and a complementary cytosolic fraction. The purification factor was 200 and the yield 3%. During the course of gel filtration on calibrated Superose 12, the 63-kDa protein eluted as a dimer. Its isoelectric point was 6.4 +/- 0.1. Antibodies raised in rabbits against the 63-kDa protein reacted with a protein of similar size in human neutrophils and in HL60 promyelocytic cells induced to differentiate into granulocytes. No immune reaction was observed in cytosol from undifferentiated HL60 cells, in extracts from bovine skeletal muscle, liver, and brain, or in cytosol prepared from neutrophils derived from a patient with an autosomal cytochrome b positive form of chronic granulomatous disease lacking the 67-kDa oxidase activating factor. Immunoblotting with the 63-kDa bovine protein antiserum demonstrated that activation of bovine neutrophil oxidase by phorbol myristate acetate induced the translocation of the 63-kDa protein from cytosol to the membrane.     

Preparation and some properties of cholesterol oxidase from Rhodococcus sp. R14-2

Rhodococcus sp. R_14-2, isolated from Chinese Jin-hua ham, produces a novel extracellular cholesterol oxidase (COX). The enzyme was extracted from fermentation broth and purified 53.1-fold based on specific activity. The purified enzyme shows a single polypeptide band on SDS-PAGE with an estimated molecular weight of about 60 kDa, and has a pI of 8.5. The first 10 amino acid residues of the NH₂-terminal sequence of the enzyme are A-P-P-V-A-S-C-R-Y-C, which differs from other known COXs. The enzyme is stable over a rather wide pH range of 4.0–10.0. The optimum pH and temperature of the COX are pH 7.0 and 50°C, respectively. The COX rapidly oxidizes 3β-hydroxysteroids such as cholesterol and phytosterols, but is inert toward 3α-hydroxysteroids. Thus, the presence of a 3β-hydroxyl group appears to be essential for substrate activity. The Michaelis constant (Km) for cholesterol is estimated at 55 μM; the COX activity was markedly inhibited by metal ions such as Hg²⁺ and Fe³⁺ and inhibitors such as p-chloromercuric benzoate, mercaptoethanol and fenpropimorph. Inhibition caused by p-chloromercuric benzoate, mercuric chloride, or silver nitrate was almost completely prevented by the addition of glutathione. These suggests that -SH groups may be involved in the catalytic activity of the present COX.     

Composition of partially purified NADPH oxidase from pig neutrophils.

The superoxide (O2.-)-forming enzyme NADPH oxidase from pig neutrophils was solubilized and partially purified by gel-filtration chromatography. The purification procedure allowed the separation of NADPH oxidase activity from NADH-dependent cytochrome c reductase and 2,6-dichlorophenol-indophenol reductase activities. O2.-forming activity was co-purified with cytochrome b-245 and was associated with phospholipids. However, active fractions endowed with cytochrome b were devoid of ubiquinone and contained only little FAD. The cytochrome b/FAD ratio was 1.13:1 in the crude solubilized extract and increased to 18.95:1 in the partially purified preparations. Most of FAD was associated with fractions containing NADH-dependent oxidoreductases. These results are consistent with the postulated role of cytochrome b in O2.-formation by neutrophil NADPH oxidase, but raise doubts about the participation of flavoproteins in this enzyme activity.     

Activation of O2(-)-generating oxidase in an heterologous cell-free system derived from Epstein-Barr-virus-transformed human B lymphocytes and bovine neutrophils. Application to the study of defects in cytosolic factors in chronic granulomatous disease.

Epstein-Barr-virus-transformed human B lymphocytes (EBV B lymphocytes) stimulated by 4 beta-phorbol 12-myristate 13-acetate exhibit an NADPH-dependent oxidase activity capable of generating the superoxide anion O2-, similar to, but less efficient than that of activated neutrophils. A cell-free system of oxidase activation consisting of a membrane fraction and cytosol from EBV B lymphocyte homogenate supplemented with guanosine 5'-[gamma-thio]triphosphate (GTP[S]), arachidonic acid and Mg2+ was found to be competent in the production of O2-, assessed by the superoxide-dismutase-sensitive reduction of cytochrome c in the presence of NADPH. However, cytochrome c reduction was slow and largely insensitive both to superoxide dismutase, and to iodonium biphenyl, a powerful inhibitor of the oxidase activity in neutrophils. A markedly faster reduction of cytochrome c in the presence of NADPH was obtained with a heterologous system consisting of cytosol from EBV B lymphocytes and bovine neutrophil membranes, GTP[S], arachidonic acid and Mg2+; in this system, reduction of cytochrome c was totally inhibited by superoxide dismutase and iodonium biphenyl. These results show that EBV B lymphocytes contain a substantial amount of cytosolic factors of oxidase activation, and that the limiting factors for O2- production in B lymphocytes are the membrane components of the oxidase complex. The heterologous system of EBV B lymphocyte cytosol and bovine neutrophil membranes provided a rapid and convenient method to diagnose cytosolic defects in autosomal forms of chronic granulomatous disease. In addition, it might be a useful tool to explore the mechanism of action of the cytosolic factors in oxidase activation.     

Partial purification of alkaline phosphatase from bovine polymorphonuclear neutrophils and some properties

Alkaline phosphatase was purified from bovine polymorphonuclear neutrophils by butanol extraction and a combination of ion exchange, gel filtration and affinity chromatography. The enzyme was partially purified 2300-fold with a 4.7% yield and a sp. act. of 206 units/mg of protein. Polyacrylamide gel electrophoresis in sodium dodecyl sulfate indicated a single activity band with the mol. wt of 165,000. The pH optima for the enzyme were 10.0 with p-nitrophenylphosphate and phenylphosphate and were 9.0 when beta-glycerophosphate, AMP and ADP were used. The enzyme was activated by Mg2+, Mn2+, Co2+ and Ni2+ but was inhibited by Zn2+. The enzyme was inhibited by EDTA and the EDTA-inactivated enzyme was reactivated by Mg2+, Mn2+ and Co2+ but not Zn2+.     

Activation of the O2(.-)-generating oxidase in plasma membrane from bovine polymorphonuclear neutrophils by arachidonic acid, a cytosolic factor of protein nature, and nonhydrolyzable analogues of GTP

A reconstitution system for activation of the O2(.-)-generating oxidase from bovine polymorphonuclear neutrophils (PMN) is described. This system consisted of three components, namely, a particulate fraction enriched in plasma membrane, a supernatant fluid (cytosolic fraction) recovered by high-speed centrifugation from sonicated resting bovine PMN, and arachidonic acid. The pH optimum (7.8) and the Km value for NADPH (45 microM) of the activated oxidase were virtually the same as those found in the purified enzyme. All three components had to be present during the preincubation for elicitation of oxidase activity. A further enhancement of oxidase activity was observed with the addition of nonhydrolyzable GTP analogues, such as guanosine 5'-O-(3-thiotriphosphate) (GTP-gamma-S) and guanosine 5'-(beta, gamma-imidotriphosphate) (GMP-PNP), to the preincubation medium. In contrast, GDP-beta-S drastically decreased oxidase activation. In a two-stage experiment, a 9-min preincubation of PMN membranes with arachidonic acid and GTP-gamma-S followed by a 1-min contact with the cytosolic fraction led to a more marked activation than did preincubation of the cytosol with arachidonic acid and GTP-gamma-S for 9 min followed by a 1-min contact with membranes, suggesting the presence of a G-protein in the membrane fraction. In the absence of added cations, the reconstitution system exhibited a substantial oxidase activity which was totally prevented by ethylenediaminetetraacetic acid (EDTA). Mg2+ added at a concentration of 0.5-1 mM enhanced oxidase activation by about 30%, indicating that endogenous Mg2+ or other activating cations were sufficient to ensure 70% of maximal activation.(ABSTRACT TRUNCATED AT 250 WORDS)