The superoxide-forming enzymatic system of phagocytes

Hypothesis: spermine may be an important epidermal antioxidant

Spermine has been identified as a potent antioxidant and an anti-inflammatory agent. The compound is present in all organisms and all organs. The concentration is exceptionally high in skin, and I propose that spermine constitutes a prime defence against radiation damage. This hypothesis is substantiated by the fact that ornithine decarboxylase (ODC), the rate-controlling enzyme of spermine biosynthesis, is induced by UVB-irradiation and oxidative stress. On the contrary, inhibition of ODC makes cells more sensitive to radiation damage. The antioxidative effect of spermine may be due to metal chelation and/or to prevention of superoxide generation from stimulated neutrophils. This paper reviews the antioxidative and anti-inflammatory effects of spermine, and suggests that spermine is an important antioxidant of epidermis.

Differential induction of stress proteins and functional effects of heat shock in human phagocytes

Induction of specific heat shock (HS) proteins (HSP) has been described as a response of human monocytes to phagocytosis, and HSP may play protective roles in infection and immunity. Here we compared the stress response in monocytes and polymorphonuclear neutrophils during exposure to the classical inducers of HSP, i.e., HS and cadmium. We also investigated the stress response in these two phagocytic cells after particulate (phagocytosis) and nonparticulate [f-Met-Leu-Phe (FMLP)] activation of the respiratory burst enzyme NADPH oxidase. HS and cadmium induced stress protein synthesis in both cell types. In contrast, phagocytosis induced HSP in monocytes only, while FMLP did so in neutrophils only. This differential regulation of stress proteins might relate to physiological and functional differences between monocytes and neutrophils. With respect to functional effects of HS, we examined, in human monocytes and in neutrophils, the effect of HS on NADPH oxidase-mediated O2- generation as well as on phagocytosis, bacterial killing, and superoxide dismutase (SOD) activity. In monocytes, as in neutrophils, NADPH oxidase activity was inhibited by HS, while thermotolerance prevented this inhibition. Phagocytosis and bacterial killing were unaltered by HS. SOD activity transiently increased in monocytes but decreased in neutrophils upon exposure to HS. These observations indicate differential induction of HSP in human phagocytes and differential regulation of phagocytes' functions by HS.

Effect of lipoproteins on macrophage superoxide generation

Superoxide production by macrophages and leukocytes may have an important role in atherogenesis. Whether lipoproteins modulate the superoxide production of these cells is not clear. Therefore, the effect of lipoproteins on the production of superoxide by rat peritoneal macrophages was tested. VLDL and LDL inhibited digitonin-stimulated superoxide production in a dose-dependent manner. Maximum inhibition was observed at 10 micrograms ml-1 of VLDL protein and 50 micrograms ml-1 of LDL protein respectively. In contrast, HDL (40 micrograms protein ml-1) enhanced digitonin-stimulated superoxide production (by 47 per cent). Macrophage superoxide production induced by arachidonic acid was enhanced by both VLDL (130 per cent) and HDL (84 per cent), whereas LDL had no effect. The lipoproteins had no effect on macrophage superoxide stimulated by other agonists such as phorbol myristate 13-acetate, sodium fluoride or the calcium ionophore, A23187. The effect of lipoproteins was also tested on human polymorphonuclear leukocyte superoxide generation, stimulated by digitonin and PMA. Ten micrograms of VLDL, 50 micrograms of LDL and 50 micrograms of HDL proteins ml-1, inhibited digitonin-induced superoxide production by 50, 100 and 33 per cent respectively. Lipoproteins had no effect on PMA stimulated superoxide generation by human polymorphonuclear leukocytes. The stimulatory and inhibitory effects of lipoproteins on macrophage and neutrophil superoxide generation could be important in the understanding of oxidation-mediated development of atherosclerosis.

Chemoattractant-induced NADPH oxidase activity in human monocytes is terminated without any association of receptor-ligand complex to cytoskeleton

When the chemotactic peptide formylmethionyl-leucyl-phenylalanine binds to its cell surface receptor, a transmembrane signal is generated that activates the superoxide-producing NADPH oxidase of human phagocytes. Comparing monocytes and neutrophils with regard to the production of superoxide anion induced by the peptide, we found a similar time-course for both types of cells. In neutrophils, ligand binding induced a conversion of the receptor to a high-affinity form, a change suggested to be due to an association of the receptor-ligand complex to the Triton X-100-insoluble cytoskeleton. This event has been hypothesized to terminate the signal that activates the NADPH oxidase and thereby results in cessation of the cellular production of superoxide anion. Neutrophils preincubated with the cytoskeleton-disrupting drug cytochalasin B showed an increased and prolonged superoxide anion production after activation with the peptide, thus indicating that the cytoskeleton is involved in terminating this response. Formylmethionyl-leucyl-phenylalanine was also found to induce polymerization of actin in monocytes; however, cytochalasin B had no effect on the peptide-induced generation of superoxide anion in these cells. Furthermore, also in monocytes, ligand binding induced a conversion of the receptor to a high-affinity form; however, the receptor-ligand complex did not coisolate with the Triton X-100-insoluble cytoskeleton. These results indicate that, in monocytes, the NADPH oxidase activating pathway is terminated without any association of the receptor-ligand complex to the Triton X-100-insoluble cytoskeleton.

Bimodal action of fatty acids on PMA-stimulated O2.- production in human adherent monocytes

Not only unsaturated linear fatty acids, but also saturated monomethyl-branched fatty acids (MMBFAs), are provided by food. They are capable of penetrating into the membrane lipids and promoting lipid disorder. Both NADPH oxidase and protein kinase C (PKC) are bound to cell cytoplasmic membranes and are responsive to unesterified fatty acids (UEFAs). We found that the O2.- NADPH oxidase-mediated production of human adherent monocytes was modified by unsaturated linear and saturated branched UEFAs only in the presence of phorbol myristate acetate. This result together with our inhibition data indicated an action strictly linked to PKC activity. The type and intensity of action depended on the UEFA concentrations and chain structure. Nanomolar concentrations showed potentiating effects whereas micromolar (< CMC) concentrations displayed depressant influences MMBFAs were generally more active than the other FAs. With respect to the micromolar depressant effect, oleate and linoleate were as active and docosahexaenoate nearly as active as MMBFAs. As assessed by iso-15:0 or arachidonate action, such bimodal alteration did not occur in non-adherent monocytes and neutrophils. Certain UEFAs could be considered as 'cellular' anti-oxidants on the sites of adherent-monocyte recruitment.

Inhibition of redox cycling of methoxatin (PQQ), and of superoxide release by phagocytic white cells

The iodonium compounds diphenyleneiodonium and diphenyliodonium, and the amine compounds, 4,5-dimethyl phenylene diamine, N,N-dimethyl 1,4-phenylene diamine, 1,2-diamino-4,5-methyleneoxybenzene, and aminomalononitrile inhibit methoxatin's (PQQ's) redox activity in vitro, that is, the methoxatin-coupled oxidation of glycine and reduction of nitroblue tetrazolium to formazan. The compounds mentioned above also inhibit phorbol myristate acetate (PMA) stimulated superoxide release by phagocytic white cells--determined mainly as the superoxide dismutase sensitive reduction of ferricytochrome C. Related compounds, 3,4-diaminopyridine and 4-dimethylamino-benzylamine, did not inhibit redox activity of PQQ in vitro, nor did they inhibit PMA stimulated superoxide production in monocytes or neutrophils. Thus, there is a correlation between an agent's ability to inhibit PQQ redox cycling and its ability to inhibit superoxide release by phagocytes. The findings are a further indication that PQQ is involved in the respiratory burst of phagocytic cells.

Correlations between the intensity of fMLP-dependent respiratory burst and cellular fatty acid composition in human neutrophils

The peripheral blood neutrophils were isolated from a group of normal subjects and their fatty acid composition determined by capillary gas-chromatography. The superoxide (O2-) release by the same cell preparation in response to formyl-methionyl-leucyl-phenylalanine was also determined following cytochrome c reduction in a microplate assay. A strong negative correlation was found between C18:2 (linoleic acid) (r = 0.703, P = 0.001) and C:16:0 (palmitic acid) (r = 0.569, P = 0.009) and fMLP-stimulated O2- release, whereas C20:4 (arachidonic acid) correlated positively (r = 0.448, P = 0.048). Other fatty acids, namely C12:0, C14:0, C16:1, C18:1, C18:3, C18:4, C20:0, C20:1, C20:2, C20:5, C22:0, C22:1, C22:6, C24:0 and C26:0, were not correlated with O2-. No correlations were found between fatty acid composition and O2- release from resting cells and from cells stimulated by phorbol-myristate acetate. These results suggest that the fatty acid composition of blood neutrophils may be a critical factor determining the capability of releasing free radicals in response to formylpeptides. Moreover, since a concomitant increase of arachidonic acid and decrease of its precursor linoleic acid has been found in high-responsive neutrophils, the rate of the enzymes of the arachidonic acid biosynthetic pathway (elongases and desaturases) appear to play an important role.

Contrasting effects of calyculin A and okadaic acid on the respiratory burst of human neutrophils

The involvement of serine/threonine protein-phosphatases in the production of superoxide (respiratory burst) by human neutrophils was investigated using calyculin A, a potent inhibitor of both protein phosphatases type 1 and 2A, and okadaic acid, which preferentially inhibits protein phosphatase type 2A. Treatment of neutrophils with calyculin A (25-75 nM) or okadaic acid (1-4 microM) had no stimulatory effect but potently enhanced total superoxide production induced by an optimal fMLP (N-formyl-methionyl-leucyl-phenylalanine) concentration (0.1 microM). The maximum increase plateaued with 50-75 nM calyculin A and 2-4 microM okadaic acid, reaching approximately 120 and 200% of control values, respectively. Unlike calyculin A, okadaic acid also primed the initial rate of superoxide production, suggesting that protein phosphatases may down-regulate both initiation and termination of respiratory burst. Optimal stimulation of the respiratory burst by PMA (160 nM) was inhibited by calyculin A and okadaic acid, with an IC50 of 60 nM and 2 microM, respectively, although both drugs caused protein hyperphosphorylation. The inhibition was partially prevented by a nonstimulatory concentration of A23187, indicating a role of calcium in the inhibitory effects of the drugs. Unlike the optimal respiratory burst, suboptimal respiratory burst induced by PMA (1-7 nM) was enhanced by calyculin A and okadaic acid. Unprimed and primed respiratory bursts were depressed by a selective antagonist of protein kinase C (GF 109203X), indicating positive regulation of these responses by protein kinase C. Thus, the use of calyculin A and okadaic acid distinguishes two regulatory processes of superoxide production.(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of sperm washing on levels of reactive oxygen species in semen

The possibility was evaluated that the production of reactive oxygen species (ROS) by human sperm is stimulated by the repeated cycles of centrifugation and resuspension involved in conventional sperm preparation. ROS generation by human sperm was monitored before and after the washing of sperm from 55 men (43 men with suspected subfertility and 12 normal volunteers). The ROS activity of all 55 specimens before washing was inversely correlated with original sperm motility (r = .278, p < .05). The mean level of ROS activity was significantly higher after washing than before processing (p < .05) for the 26 specimens with normal sperm motility, the 20 specimens with normal sperm morphology, and the 12 specimens with both normal motility and normal morphology. In contrast, the mean ROS level was not significantly changed after washing in the 27 specimens with poor sperm motility, the 16 specimens with abnormal sperm morphology, or the 13 specimens with both abnormal motility and abnormal morphology. It would appear that repeated centrifugation, resuspension, and vortexing cause excessive generation of ROS in the motile sperm population of the washed specimen. Washing procedures involving excessive manipulation of sperm may, in fact, cause the most harm to motile sperm, i.e., those that the method is trying to select. Procedures that minimize multiple centrifugation, resuspension, and vortexing steps should therefore be used for the preparation of semen specimens for assisted-reproduction techniques.

Increased mineral dust-induced production of reactive oxygen species by blood monocytes from patients with malignant diseases

Mononuclear leukocytes were isolated from the peripheral blood of 15 patients with malignant pulmonary diseases, 17 patients with pulmonary infections, 18 patients with chest film abnormalities of non-malignant, non-infectious etiology, and 15 healthy persons. The cells were exposed to zymosan yeast, BCG vaccine, quartz, or chrysotile asbestos, and the subsequent production of reactive oxygen species (ROS) was measured by luminol-dependent chemiluminescence. All the stimulants caused significantly higher ROS production in the patient groups than in the healthy control group, and the asbestos-induced ROS production was significantly more pronounced in the cancer group than in the two non-cancer patient groups combined. After one-year follow-up, 5 of the 15 cancer patients were alive, and these patients had significantly lower mineral dust-induced ROS responses at the time of diagnosis than were found in the patients who died. This result was verified in a subsequent study comprising 19 patients with malignant pulmonary disorders (6 alive after one year). In conclusion, monocytes from patients with malignant diseases seem to be primed for an increased ROS production, and high ROS responses seem to correlate with a poor one-year survival of the patients.

Methoxatin (PQQ) in guinea-pig neutrophils

PQQ, also called methoxatin, has been isolated from guinea-pig neutrophils. The organic cations diphenyleneiodonium (DPI) and diphenyliodonium (BPI) and the aromatic o-diamine 4,5-dimethylphenylenediamine (DIMPDA) sequester synthetic PQQ and inhibit its redox-cycling activity in a model system. Standards were made of adducts of tritiated PQQ with unlabeled DIMPDA and of unlabeled PQQ with tritiated DPI or DIMPDA. PQQ adducts were isolated from guinea-pig neutrophils with each of the tritiated inhibitors. They were separated and defined by high-performance liquid chromatography (HPLC). Tiron, a disodium benzene disulphonic acid, broke the DPI-PQQ adduct isolated from neutrophils and released free PQQ. Both DPI and DIMPDA, as well as BPI, blocked O2.- release by stimulated neutrophils. The blockade exerted by these inhibitors was released by the addition of PQQ to the cell suspensions. The data demonstrate the presence of PQQ in guinea-pig neutrophils and suggest that it has a possible role, direct or indirect, in the O2.(-)-producing respiratory burst.

Role of protein phosphorylation in the degranulation of electropermeabilized human neutrophils

We have studied the role of protein phosphorylation in the degranulation response of human neutrophils by measuring the effect of ATP depletion and the addition of the protein kinase inhibitor staurosporine in electropermeabilized human neutrophils, activated with Ca2+ and/or GTP-gamma-S. Our studies were carried out in the presence of cytochalasin B to prevent inhibitory effects of actin polymerization on the degranulation response. It was found that protein phosphorylation plays an important role in the degranulation response in cells stimulated with the single stimuli Ca2+ or GTP-gamma-S. However, in neutrophils stimulated with the combination of these activators degranulation can occur without the apparent need for protein phosphorylation, albeit with a slower rate than with protein phosphorylation.

Plasma oxidase assay for screening of myocardial infarction

The availability of techniques such as surgical reperfusion, angioplasty, and thrombolysis for the treatment of acute myocardial infarction (AMI) has revived interest in seeking an early detectable biochemical marker diagnostic for AMI. Therefore, we investigated whether an unidentified oxidase that is released by activated neutrophils at the onset of AMI could be used as an early diagnostic assay. The conversion by plasma oxidase of 1 microM of adrenaline to 1 microM of adrenochrome represents the plasma oxidase activity (POA) of 1 U/L. Fifty patients suspected of having AMI, 40% of whose electrocardiograms were nondiagnostic for AMI, were admitted to the coronary care unit, and venous blood samples were obtained for determination of the POA and creatine phosphokinase-MB levels. Healthy volunteers (n = 12) served as control subjects, and 8 patients with pneumonia whose leukocyte counts were greater than 15,000 microL were included in the study. In those with AMI (n = 22), as determined by serial creatine phosphokinase-MB, the mean POA (+/- standard error of the mean) was 233 +/- 13 U/L, and in those with angina and no AMI (n = 28) was 127 +/- 5 U/L (P < 0.0001). In the control group, mean POA (+/- standard error of the mean) was 84 +/- 5 U/L (control versus angina; P < 0.01) and for those with infection was 214 +/- 10 U/L. At admission, the creatine phosphokinase-MB was diagnostic for only 12 of the 22 patients with AMI (sensitivity rate of 54%), whereas in 21 of those patients, the POA values were diagnostic for AMI (sensitivity rate of 95%).(ABSTRACT TRUNCATED AT 250 WORDS)

Rat brain microglia and peritoneal macrophages show similar responses to respiratory burst stimulants

Respiratory burst activity was compared between cultured newborn rat microglia and directly harvested adult rat peritoneal macrophages using a Clarke oxygen electrode system. Both types of cells showed stimulated oxygen consumption almost immediately after the administration of opsonized zymosan, phorbol myristate acetate, concanavalin A, or tuftsin. The absolute values of stimulated oxygen consumption after administration of these agents ranged from 0.11 to 0.99 nmol per min per million cells, with some variation in relative response of microglia compared with peritoneal macrophages. After lysis of cells with deoxycholate, or disruption by sonication, oxygen consumption was restored by NADPH for stimulated microglia but not stimulated astrocytes. The potential for stimulated microglia to generate oxygen free radicals may have implications in several degenerative neurological diseases where activated microglia are found in association with the lesions.

Inhibition of respiratory burst in macrophages by complement receptor blockade

Respiratory burst activity was induced in rat peritoneal macrophages by opsonized zymosan. Inhibitors were tested by administering them before or after the inducing agent: OX-42, an anti-rat macrophage complement receptor type 3 antibody, was active at an estimated concentration of 2.1 nM, and was more than 100-fold more potent when administered before, rather than after, opsonized zymosan. Indomethacin and dapsone, two agents with antiinflammatory activity, were also more effective before opsonized zymosan, but only in the 10(-3) to 10(-4) molar range. Inhibitors of eicosanoid synthesis, as well as the antiinflammatory prostaglandin E2, also reduced the respiratory burst.

Induction of oxygen free radical generation in human monocytes by lipoprotein(a)

The mechanism behind the association of elevated plasma lipoprotein(a) [Lp(a)] levels with atherosclerotic disease is unknown. In the present study, Lp(a) induced generation of oxygen free radicals by monocytes from selected healthy individuals in vitro. This observation may provide a link between Lp(a) and generation of oxidized LDL, which can promote multiple atherogenic cellular responses.

Levels of reactive oxygen species before and after sperm preparation: comparison of swim-up and L4 filtration

In previous studies, high levels of reactive oxygen species (ROS) have been associated with an adverse impact on the fertilizing ability of sperm. The present study evaluated ROS levels in unprocessed (raw) semen specimens and in specimens processed by the traditional swim-up method and by L4 filtration, thereby assessing the potential of these techniques to damage sperm. Semen specimens from 26 men (10 patients in whom subfertility was suspected and 16 donors with normal fertility) were randomly collected, and ROS levels were measured. For all specimens combined (those from patients and those from donors), ROS levels were significantly lower after L4 filtration (6.07 +/- 1.97 mV/s 10(9) sperm-1, p < .01) and after swim-up (5.70 +/- 0.96 mV/s 10(9) sperm-1, p < .001) than in unprocessed ejaculate (12.88 +/- 2.32 mV/s 10(9) sperm-1). However, ROS levels in swim-up and L4 specimens were not statistically different from each other. It would appear that sperm processing by either swim-up or L4 filtration yields specimens with significantly lower levels of ROS than are found in unprocessed ejaculate.

Responses of human neutrophils to sulfite

Exposure to sulfur dioxide or sulfite aerosols induce inflammatory reactions in the respiratory tract characterized by an influx of neutrophils into the airways. To determine direct intracellular effects of sulfite on human neutrophils, these cells were evaluated ultrastructurally by electron microscopy and analyzed for their extracellular and intracellular respiratory burst activity after incubation with sulfite (0.01-10 mM) in vitro. The respiratory burst was quantitated by measuring both the extracellular release of superoxide anions (O2-) by superoxide dismutase-inhibitable lucigenin-dependent chemiluminescence (CL) and the intracellular generation of hydrogen peroxide (H2O2) by flow cytometry using the reagent dichlorofluorescein diacetate. The addition of sulfite in concentrations of 0.01-1 mM resulted in sixfold increases in CL of resting neutrophils. Neutrophils stimulated with zymosan, phorbol myristate acetate (PMA), or N-formyl-methionine-leucine-phenylalanine further increased CL when sulfite was added. Higher sulfite concentrations (2-10 mM) decreased CL of resting, zymosan-stimulated, and PMA-stimulated cells. When sulfate was added, no changes in CL of resting and zymosan-stimulated neutrophils were seen, indicating that the effect is specific for sulfite. The intracellular generation of H2O2 in resting and PMA-stimulated neutrophils incubated with sulfite (0.1-2 mM) was increased twofold. These findings suggest that sulfite in low concentrations stimulates neutrophils by activating the respiratory burst to produce O2- and H2O2. Ultrastructural studies confirm the stimulating effect of sulfite on neutrophils with sulfite-treated cells exhibiting increased ruffled surface membranes, degranulation changes, and vesiculation similar to those seen in PMA-stimulated cells.

Alternative pathways of sulfite oxidation in human polymorphonuclear leukocytes

Sodium sulfite is metabolized by human polymorphonuclear leukocytes by two alternative pathways, one enzymatic route dependent on sulfite oxidase and one non-enzymatic which involves intermediate formation of sulfur trioxide anion radicals. Initiation of the oxidative burst by phorbol myristate acetate significantly stimulates sulfate formation through the second pathway. The activity of sulfite oxidase in polymorphonuclear leukocytes varies greatly among individuals, a variation consistent with the suggested polymorphic distribution of sulfite oxidase in the human population.

Acetylcholinesterase activation of peritoneal macrophages is independent of catalytic activity

1. In diverse tissues, acetylcholinesterase appears to play a critical role in the functional state of cells completely dependent of cholinergic transmission. However, very little is known about the mechanisms and actual molecular structures mediating the fundamental interactions between this protein and the cellular membrane. 2. In this study, peritoneal macrophages were used as a model system to study the possible interaction between acetylcholinesterase, acting in a non-cholinergic capacity, and the cellular membrane. 3. When acetylcholinesterase was incubated with macrophages harvested from rat peritoneum, the rate of oxygen consumption was increased in a concentration-dependent manner that was independent of mitochondrial block with sodium cyanide. Furthermore, heat inactivation of enzymatic activity or application of BW 284C51 at a concentration which totally blocks catalytic activity did not eliminate the effect. 4. In contrast, incubation with bovine serum albumin or butyrylcholinesterase actually retarded oxygen consumption. 5. The effect of acetylcholinesterase depended on the presence of divalent cations and was inhibited by mannan and D-mannose, but not D-galactose. It is concluded that acetylcholinesterase can induce a "respiratory burst" in macrophages independent of its conventional catalytic site but involving either the mannose receptor of the monocyte-derived macrophage or a possible sugar binding site on acetylcholinesterase itself.

Modulation of intracellular formation of reactive oxygen intermediates in peritoneal macrophages and microglia/brain macrophages by propentofylline

Ischemia-induced nerve cell death can partly be prevented by propentofylline, a pharmacon structurally related to xanthine derivates that interacts with the neuromodulatory function of endogenous adenosine. To evaluate a possible mechanism of neuroprotection by propentofylline, we studied its effect on the cellular production of reactive oxygen intermediates in microglial cells, which under pathological conditions can differentiate into brain macrophages, in comparison to peritoneal macrophages. Using a flow cytometric assay, we determined the intracellular formation of reactive oxygen intermediates by measuring the oxidation of the membrane-permeable and nonfluorescent dihydrorhodamine 123 to the cationic and intracellularly trapped, green fluorescent rhodamine 123 in single viable cells. Propentofylline at the therapeutic concentration of 50 microM completely inhibited the Ca(2+)-dependent Con A-induced increase in the production of reactive oxygen intermediates in peritoneal macrophages. In isolated and cultured microglial cells, which have a high spontaneous respiratory burst activity, the spontaneous production of reactive oxygen intermediates was reduced by approximately 30%. A phorbol 12-myristate 13-acetate-induced rise in the respiratory burst activity could not be inhibited by propentofylline in either cell type. An increased generation of reactive oxygen intermediates is thought to contribute to nerve cell death after brain ischemia, edema, and neurodegenerative diseases like Alzheimer's disease. These pathological conditions are all accompanied by an activation of microglial cells. We therefore suggest that the neuroprotective properties of propentofylline might in part be due to a modulation of the microglial production of potentially harmful reactive oxygen intermediates.

A synergistic interaction between Bacillus Calmette-Guérin (BCG) and NADPH oxidase stimulants on the production of reactive oxygen metabolites by human mononuclear phagocytes

Bacillus Calmette-Guérin (BCG) was added simultaneously with known NADPH oxidase stimulants to suspensions of human mononuclear leukocytes, and the subsequent production of reactive oxygen metabolites (ROMs) was studied by luminol-dependent chemiluminescence. BCG significantly amplified the ROM responses induced by zymosan, phorbol myristate acetate (PMA), and quartz, but not by concanavalin A and asbestos fibers. The stimulatory effect occurred rapidly when BCG was added to cells already phagocytosing zymosan, and vanished rapidly when extracellular BCG was removed from adherent monocyte cultures by washing prior to the addition of zymosan. The stimulatory effect of BCG could not be reproduced with recombinant interferon-gamma, tuberculin PPD, muramyl dipeptide, nor with the apathogenic Mycobacterium tuberculosis strain RV37. BCG and zymosan or PMA that had been incubated together prior to addition to the mononuclear cell suspensions caused ROM production with faster kinetics than if the reagents were added separately without preincubation. In conclusion, the synergy between BCG and some of the NADPH oxidase stimulants seems to be due to an interaction between BCG and the NADPH oxidase stimulants rather than to an interaction between BCG and the ROM-producing cells. Such interactions between mycobacteria and NADPH oxidase stimulants may be of importance as a factor affecting the individual susceptibility to tissue damage in tuberculosis, for example in silicotuberculosis.

Immunoelectron microscopy reveals significant granule fusion upon stimulation of electropermeabilized human neutrophils

Although electropermeabilization has become an important tool for studying the signal requirements of exocytosis, relatively little is known about the morphological changes accompanying this response in electropermeabilized cells. In this study, we determined that electropermeabilization of human neutrophils by itself caused only minor changes in the morphology as determined by transmission electron microscopy. The structure of the plasma membrane did not show detectable changes, whereas the cytoplasm was more electron lucent as compared to intact cells. Activation of intact neutrophils with formyl-methionyl-leucyl-phenylalanine (FMLP), in the presence of cytochalasin-B, caused the development of invaginations of the plasma membrane. In contrast, activation of electropermeabilized cells with 1 microM Ca2+ and/or 50 microM GTP-gamma-S caused the development of vacuoles that did not seem to be in contact (or had previously been in contact) with the extracellular environment. However, fusion of azurophilic and specific granules with these vacuoles clearly had taken place. The response characteristics of this fusion induced by Ca2+ and GTP-gamma-S were quite similar to those of the direct fusion of granules with the plasma membrane. We conclude that in electropermeabilized human neutrophils, two processes involving granule fusion can be distinguished. First, a direct fusion of granules with the plasma membrane. Secondly, the fusion of granules leading to the formation of vacuoles, not in contact with the extracellular space.

Peculiarities of the clastogenic properties of chrysotile-asbestos fibers and zeolite particles

It has been established that chrysotile-asbestos fibers and zeolite particles induce chromosome aberrations in human lymphocytes from whole blood cultures, peritoneal fluid cells and bone marrow cells of mice. It is shown that the level of cytogenetic response from the intraperitoneal administration of chrysotile-asbestos fibers and zeolite particles depends on the time of their exposure. Further, it is shown that SOD eliminates the cytogenetic effect of chrysotile-asbestos fibers, while catalase inhibits that of zeolite particles. Recommendations concerning testing for the mutagenic properties of mineral fibers and particles are given, and possible mechanisms of their damaging effects are discussed.

Activation of NADPH oxidase of human neutrophils involves the phosphorylation and the translocation of cytosolic p67phox

Activation of human neutrophil NADPH oxidase requires the interaction of cytosolic and membrane-associated components. Evidence has been accumulated that in phorbol 12-myristate 13-acetate (PMA)-stimulated neutrophils, the translocation to the plasma membrane of the cytosolic components p47phox and p67phox and the phosphorylation of p47phox are essential steps in activation of NADPH oxidase. No direct evidence has been presented to date as to whether p67phox is also phosphorylated. To address this problem we have immunoprecipitated p67phox from neutrophil cytosol and membrane fractions. The results indicate that, very soon after activation with PMA (20 s), p67phox was present in a phosphorylated form in the cytosol and in the membranes. At later times (1-3 min) the extent of p67phox phosphorylation continuously increased both in the cytosol and in the membrane fraction, while oxygen consumption reached the maximal rate within 40 s, and then remained linear. p67phox was also phosphorylated in formyl-methionyl-leucyl-phenylalanine-activated neutrophils. That the phosphorylated p67 protein we identified in immunoprecipitation experiments was p67phox was confirmed by the observation that no phosphorylated band of 67 kDa was immunoprecipitated from the cytosol and membranes of PMA-stimulated neutrophils from a p67phox-deficient chronic granulomatous disease patient. In this case, p47phox was normally phosphorylated. These data demonstrate that: (1) the phosphorylation of p67phox is correlated with activation of NADPH oxidase, and (2) continuous phosphorylation of p67phox is required in order to maintain the linearity of the respiratory burst.

Comparison of leukocyte excretion and blood loss in inflammatory disease of the bowel

Clinical relapse of inflammatory bowel disease is characterised by increased neutrophil migration into the intestine. The site of the neutrophil chemoattractant(s), whether luminal or mucosal, may be important since, on contact with a chemoattractant, neutrophils cause indiscriminate damage to their immediate surroundings by generating reactive oxygen species and by lysosomal enzyme release. If this happens within the mucosa, inflammation should correlate significantly with tissue damage as assessed by bleeding, but if it occurs within the intestinal lumen, the inflammation would be disproportionately greater than the bleeding such as is seen in classical exudation. Intestinal inflammation and bleeding were quantitated with the simultaneous use of indium-111 labelled neutrophils (four day faecal excretion of indium-111) and chromium-51 labelled red cells in patients with ulcerative colitis (n = 12), Crohn's disease (n = 15), and NSAID induced enteropathy (n = 34). Intestinal inflammation and blood loss correlated significantly (Spearman) in patients with ulcerative colitis (20.3% v 6.5 ml/d (median) r: 0.85, p < 0.001) and NSAiD enteropathy (1.6% v 1.9 ml/d, r: 0.60, p < 0.01) but not in Crohn's disease (17.0% v 2.1 ml/d, r: 0.38, p > 0.1). For a given indium-111 excretion, patients with ulcerative colitis had significantly greater (p < 0.01) blood loss than patients with Crohn's disease. These results suggest that the predominant site of neutrophil chemoattractants may be within the mucosa in ulcerative colitis and NSAID enteropathy and within the lumen in Crohn's disease.

Granulocyte superoxide anion and elastase release during cardiopulmonary bypass

Cardiopulmonary bypass (CPB) is known to induce several pathogenic responses in cardiovascular surgery. To explore leukocyte activation during PCB, we investigated superoxide anion (O2-) production by granulocytes in 6 patients undergoing aortocoronary bypass surgery. O2- production was determined with chemiluminescence amplified by a cypridina luciferin analogue. Granulocytes collected from the blood in the arterial site of the CPB circuit were stimulated by phorbol myristate acetate, n-formyl-methionyl-leucyl-phenylalanine, and opsonized zymosan. All the stimulators failed to disclose a significant difference between the magnitude of chemiluminescence during and after CPB. However, significant complement activation was detected, and the plasma level of granulocyte elastase increased gradually during and after CPB. This discrepancy between the unchanged O2- production by stimulated granulocytes and the increase in inflammatory mediators including granulocyte elastase may be due to sequestration of activated granulocytes in extravascular tissues. Namely, it was highly likely that activated granulocytes responsible for the increased plasma elastase level were sequestered and remained outside the blood circulation.

Spin trapping of superoxide radicals following stimulation of neutrophils with fMLP is temperature dependent

Oxygen radical formation by human neutrophils stimulated with a chemotactic peptide, formyl-methionyl-leucyl-phenylalanine (fMLP), was studied through the use of spin trapping and superoxide dismutase-inhibitable reduction of oxidized cytochrome c. Both methods provided comparable data on temperature-dependent kinetics of superoxide radical formation, but hydroxyl radicals were also detected in spin-trapping experiments. When superoxide generation was monitored at 37 degrees C, the respiratory burst lasted only a few minutes. If the neutrophils were stimulated at 37 degrees C, but superoxide measurements were done at room temperature, the respiratory burst was again transient. However, neutrophils persistently generated superoxide when both stimulation and subsequent measurements were performed at room temperature. In the presence of the actin polymerization inhibitor, cytochalasin B, superoxide generation was persistent, even when measurements were conducted at 37 degrees C. A possible explanation for these observations is that the fMLP receptor complexes quickly aggregate and are internalized at physiological temperature, but not at room temperature. Very little superoxide was formed if cells were kept at a temperature of 4 degrees C for 1 h prior to fMLP addition, which is consistent with decreased expression of the fMLP receptor at cold temperatures.

Peroxynitrite modification of low-density lipoprotein leads to recognition by the macrophage scavenger receptor

Peroxynitrite is an oxidant which could be formed in the vasculature by the reaction of superoxide with nitric oxide. It is capable of modifying amino acid residues and of initiating lipid peroxidation. In the present study we have shown that peroxynitrite converts low density lipoprotein to a form recognized by the macrophage scavenger receptor and that this process is associated with modification of the protein and lipid, and with the oxidation of alpha-tocopherol to alpha-tocopherol quinone.

The oxidation of alpha-tocopherol in human low-density lipoprotein by the simultaneous generation of superoxide and nitric oxide

Peroxynitrite is the product of the reaction between nitric oxide and superoxide. It is an oxidant which can also decompose to form the hydroxyl radical and nitrogen dioxide. In this report we show that a powerful oxidant with reactivity similar to that of the hydroxyl radical is formed from the generation of superoxide from xanthine oxidase and nitric oxide from S-nitroso-n-acetylpenicillamine (SNAP). Simultaneous generation of these two radicals by either xanthine oxidase/SNAP or the sydnonimine SIN-1 in the presence of low-density lipoprotein (LDL) results in the depletion of alpha-tocopherol and formation of its oxidised product alpha-tocopheroquinone. The mechanism of oxidation required both the formation of nitric oxide and superoxide. In contrast to the promotion of LDL oxidation by transition metals the oxidation of LDL by SIN-1 was not sensitive to the addition of exogenous lipid hydroperoxide.

Sulfite stimulates NADPH oxidase of human neutrophils to produce active oxygen radicals via protein kinase C and Ca2+/calmodulin pathways

The effect of sulfite on the oxidative metabolism of human neutrophils was studied in vitro. Superoxide anion production of PMN was determined using superoxide dismutase-inhibitable lucigenin-dependent CL. The addition of sulfite in concentrations of 0.01 mM-1 mM results in an up to 6-fold increase in CL of nonstimulated neutrophils at 37 degrees C and pH 7. Neutrophils stimulated with zymosan or PMA have an additional 2-fold stimulation when sulfite is added. Higher sulfite concentrations (2 mM-10 mM) decrease the CL of both nonstimulated and stimulated cells. The activity of NADPH oxidase, responsible for O2.- production, is significantly increased in neutrophils incubated with 1 mM sulfite. Neutrophils from patients with chronic granulomatous disease, which are cytochrome b558 negative or have p47phox deficiency, exhibit no significant NADPH oxidase activity and show no increase in CL by sulfite. Inhibitors of protein kinase C, H7, and calphostin C, as well as inhibitors of Ca(2+)- and calmodulin-dependent processes, W7, and R 24 571, completely inhibited the increased CL of sulfite-treated neutrophils. These findings indicate that sulfite in low concentrations stimulates neutrophils to produce superoxide anions by activation of NADPH oxidase through a signal transduction pathway involving protein kinase C and Ca2+/calmodulin.

Chemiluminescence in activated human neutrophils: role of buffers and scavengers

Human neutrophils (PMNs) suspended in Hanks' balanced salt solution (HBSS), which are stimulated either by polycation-opsonized streptococci or by phorbol myristate acetate (PMA), generate nonamplified (CL), luminol-dependent (LDCL), and lucigenin-dependent chemiluminescence (LUCDCL). Treatment of activated PMNs with azide yielded a very intense CL response, but only a small LDCL or LUCDCL responses, when horse radish peroxidase (HRP) was added. Both CL and LDCL depend on the generation of superoxide and on myeloperoxidase (MPO). Treatment of PMNs with azide followed either by dimethylthiourea (DMTU), deferoxamine, EDTA, or detapac generated very little CL upon addition of HRP, suggesting that CL is the result of the interaction among H2O2, a peroxidase, and trace metals. In a cell-free system practically no CL was generated when H2O2 was mixed with HRP in distilled water (DW). On the other hand significant CL was generated when either HBSS or RPMI media was employed. In both cases CL was markedly depressed either by deferoxamine or by EDTA, suggesting that these media might be contaminated by trace metals, which catalyzed a Fenton-driven reaction. Both HEPES and Tris buffers, when added to DW, failed to support significant HRP-induced CL. Nitrilotriacetate (NTA) chelates of Mn2+, Fe2+, Cu2+, and Co2+ very markedly enhanced CL induced by mixtures of H2O2 and HRP when distilled water was the supporting medium. Both HEPES and Tris buffer when added to DW strongly quenced NTA-metal-catalyzed CL. None of the NTA-metal chelates could boost CL generation by activated PMNs, because the salts in HBSS and RPMI interfered with the activity of the added metals. CL and LDCL of activated PMNs was enhanced by aminotriazole, but strongly inhibited by diphenylene iodonium (an inhibitor of NADPH oxidase) by azide, sodium cyanide (CN), cimetidine, histidine, benzoate, DMTU and moderately by superoxide dismutase (SOD) and by deferoxamine LUCDCL was markedly inhibited only by SOD but was boosted by CN. Taken together, it is suggested that CL generated by stimulated PMNs might be the result of the interactions among, NADPH oxidase, (inhibitable by diphenylene iodonium), MPO (inhibitable by sodium azide), H2O2 probably of intracellular origin (inhibitable by DMTU but not by catalase), and trace metals that contaminate salt solutions. The nature of the salt solutions employed to measure CL in activated PMNs is critical.

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

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.

Classification of newly calved cows into moderate and severe responders to experimentally induced Escherichia coli mastitis

In the present study newly calved cows were tentatively classified as moderate and severe responders to experimentally induced Escherichia coli mastitis based upon the reactive oxygen species (ROS)-generating capacity of their blood neutrophils before infection. The groups differed in blood and milk composition prior to infection. This initial classification was supported by the corresponding variation in clinical symptoms and in the changes in milk production and composition measured during mastitis. Responses of newly calved cows to Esch. coli challenge varied from mild to severe symptoms of inflammation in infected glands and differed in the intensity of systemic disturbances and general illness. Losses in milk yield and compositional changes were most pronounced in inflamed glands and in severe responders. In inflamed glands milk yield and composition did not return to preinfection level in either moderate or severe responders. The yields of lactose, alpha-lactalbumin, casein and fat followed the same pattern as milk yield. It is concluded that the severe and long lasting systemic disturbances observed in severe responders can be ascribed to absorption of endotoxin from infected glands into circulation, indicating the important role of endotoxin in the pathology of coliform mastitis in periparturient cows. Evaluation of the ROS-generating capacity of blood neutrophils and blood and milk composition before infection might help to predict the cow's sensitivity to Esch. coli mastitis.

The cytochrome b-558 molecules involved in the fibroblast and polymorphonuclear leucocyte superoxide-generating NADPH oxidase systems are structurally and genetically distinct

We have demonstrated that human fibroblasts can release O2-. radicals by an NADPH oxidase system that appears to be functionally similar to the phagocytic system. Further analysis of these systems, however, with respect to the low-potential b-type cytochromes involved suggests that these two O2-.-generating systems are not structurally identical. Immunoblot analysis of fibroblast membranes with six different antibodies directed against both subunits of human neutrophil cytochrome b-558 indicated that the b-type cytochrome molecules involved in these systems were not identical. None of these anti-(neutrophil cytochrome b) antibodies recognized a similar cytochrome in fibroblast membranes, suggesting that the two cytochrome species are immunologically distinct. In addition, fibroblasts obtained from a patient suffering from X-linked chronic granulomatous disease (CGD) had a normal cytochrome b-558 content compared with control fibroblast membranes, whereas the cytochrome b-558 concentration in polymorphonuclear leucocytes (PMNs) from this patient was decreased to 10% of that found in PMNs from healthy controls. Likewise, the stimulated O2-. release in PMNs from this patient was less than 10% of that in control PMNs, whereas the fibroblasts showed stimulated O2-.-release rates that were indistinguishable from those of fibroblasts obtained from healthy persons. Since the genetic mutation responsible for this type of CGD results in the absence of cytochrome b-558 in PMNs, fibroblasts should be affected in the same way if both cytochrome species were identical. These results suggest therefore that the low-potential b-type cytochromes in PMNs and fibroblasts are structurally and genetically distinct.

Is the antioxidant, anti-inflammatory putative new vitamin, PQQ, involved with nitric oxide in bone metabolism?

Our laboratory recently isolated free PQQ (2,7,9-tricarboxy-pyrroloquinoline quinone, methoxatin), a bacterial redox cofactor, from red cells, neutrophils, serum and milk and found free PQQ in CSF, synovial fluid and bile. The metabolism and functions of PQQ and ascorbate may be coupled. Physiologically, free PQQ catalyzes dioxygen-superoxide interconversion, and participates in both superoxide generation (respiratory burst) and scavenging (cell protection). Using a labeled aromatic o-diamine, superoxide formation by activated neutrophils was inhibited and the labeled phenazine adduct of PQQ could be isolated from the inhibited cells (Karnovsky et al., 1992). PQQ may convert xanthine oxidase to xanthine dehydrogenase (XD) and could be the physiological coenzyme of XD. PQQ plus copper, form a potent amine-oxidizing system. Shah et al., 1992 found that PQQ-Cu2+ catalyzes the oxidation of epsilon-amino groups in collagen and elastin. Rucker's lab (Smidt et al., 1991) has found that PQQ may be a vitamin for mouse pups. Watanabe et al., 1988 and Nishigori et al., 1989, showed that injected PQQ protects animals against oxidative stress injury. PQQ's in vivo antioxidant action, spares reduced glutathione. PQQ, as an actively transported organic anion, concentrates in cells. In other experiments (Aizenman et al., 1992), PQQ protected neurons against the neurotoxin action of the glutamate-receptor against NMDA. We shall consider possible roles for PQQ in the biosynthesis of nitric oxide (NO, endothelium-derived relaxing factor, EDRF) from L-arginine and in NO removal by superoxide. NO has now been linked to the inhibition of osteoclastic bone resorption.

Stimulating effects of mercuric- and silver ions on the superoxide anion production in human polymorphonuclear leukocytes

In a survey of a number of heavy metal ions for effects on the oxidative metabolism (respiratory burst) of human polymorphonuclear leukocytes (neutrophils) we have found that mercury(II) and silver ions in micromolar concentration significantly increase the production of superoxide anions in cells, initiated by formyl-methionyl-leucylphenylalanine (fMLP). The stimulation of radical formation induced by a certain ion concentration varied considerably in cells isolated from different blood donors, from a moderate increase to a very large (up to 400% of control values). When the soluble stimulator phorbol myristate acetate (PMA) or the particulate stimulator Zymosan were used to initiate the cell respiratory burst, no additional stimulating effects by the metal ions on superoxide anion formation were observed. This fact might indicate that the effect of the metal ions on the fMLP-dependent initiation of cell activity is a mechanism coupled to the interaction between the chemotactic peptide and its corresponding receptor molecules on the cell surface. By increasing the concentration of silver ions during pre-incubation of resting neutrophils, a spontaneous activation of the cells could be recorded at a concentration exceeding 5 microM. However, the silver ion concentration at which such spontaneous initiation of the respiratory burst occurred varied significantly between blood samples from different donors with a concentration range of 5 to 15 microM. This effect could not be shown for mercuric ions due to the toxicity of the metal above 5 microM. Blood samples from some donors contained neutrophils that could be activated by either mercuric- or silver ions at concentration as low at 1 microM. The spontaneous activation of neutrophils with elevated concentrations of silver ions is kinetically similar to the PMA-induced. The onset of superoxide anion formation is preceded by a lag period whose length varies in time with the concentration of agent applied to the cells. It is a known fact that once the neutrophils have been activated with fMLP it is not possible to reactivate the cells by a second supplementation of fMLP. However, after cessation of the fMLP-induced activation, addition of PMA or silver ions gives rise to renewed production of superoxide anions. We propose two different mechanisms of action of silver ions on oxidative metabolism of neutrophils.(ABSTRACT TRUNCATED AT 400 WORDS)

Cytotoxicity of microglia

The most characteristic property of microglia is their swift activation in response to neuronal stress and their capacity for site-directed phagocytosis. The transformation of microglia into intrinsic brain macrophages appears to be under strict control and takes place if neuronal and/or terminal degeneration occurs in response to nerve lesion. The differentiation of microglia into brain macrophages is accompanied by the release of several secretory products, e.g., proteinases, cytokines, reactive oxygen intermediates, and reactive nitrogen intermediates. Interference with the microglial activation or the productions of cytotoxic metabolites by microglia may thus offer new therapeutic opportunities for the prevention of neuronal cell death in CNS disease.

Oxygen radicals, a failure or a success of evolution?

Oxygen radicals are no doubt involved in the development of many pathological states. Nevertheless, the possibility that oxygen radical production was selected for during biological evolution in order to perform useful roles in relation to cellular metabolism is contemplated; previous data on this subject are briefly reviewed. The concept of an "oxygen radical cycle" is proposed as a useful theoretical model.

Oxygen radicals and the control of ovarian corpus luteum function

The superoxide radical (SOR) and other reactive oxygen species form in cells during the course of respiration as well as in response to various stimuli. Although well known for their damaging effects, these agents can also work beneficially to control cell function. The present review examines the evidence that oxygen radicals and H2O2 may regulate steroid hormone biosynthesis in the ovarian corpus luteum. Recent findings indicate that luteal cells can employ reactive oxygen species at specific sites in controlling the production of progesterone over the course of the reproductive cycle and in inhibiting its synthesis during regression at the end of the cycle. These studies indicate that oxygen radicals and related compounds may function as intracellular regulators of steroidogenesis in the corpus luteum.

Phagocytosis following translocation of the neutrophil b-cytochrome from the specific granule to the plasma membrane is associated with an increased leakage of reactive oxygen species

The effect of neutrophil b-cytochrome translocation on the respiratory burst activation generated during phagocytosis of yeast particles was investigated. Secretion of neutrophil specific granules was induced by the calcium ionophore ionomycin prior to phagocytosis. The secretory process is associated with a translocation from the specific granules to the plasma membrane of the respiratory burst b-cytochrome. Respiratory burst activity was measured as release of hydrogen peroxide in the absence of azide (extracellular leakage) and in the presence of azide (total production). The subcellular localization of the b-cytochrome was found to affect the extracellular release of hydrogen peroxide in that a plasma membrane localization was associated with a significantly increased release during phagocytosis. It should be pointed out, however, that most of the hydrogen peroxide, both in control and in ionomycin-treated cells, is produced intracellularly, probably in the phagosomes.

Metabolism of oxygen radicals in peroxisomes and cellular implications

Peroxisomes are subcellular respiratory organelles which contain catalase and H2O2-producing flavin oxidases as basic enzymatic constituents. These organelles have an essentially oxidative type of metabolism and have the potential to carry out different important metabolic pathways. In recent years the presence of different types of superoxide dismutase (SOD) have been demonstrated in peroxisomes from several plant species, and more recently the occurrence of SOD has been extended to peroxisomes from human and transformed yeast cells. A copper,zinc-containing SOD from plant peroxisomes has been purified and partially characterized. The production of hydroxyl and superoxide radicals has been studied in peroxisomes. There are two sites of O2- production in peroxisomes: (1) in the matrix, the generating system being xanthine oxidase; and (2) in peroxisomal membranes, dependent on reduced nicotinamide adenine dinucleotide (NADH), and the electron transport components of the peroxisomal membrane are possibly responsible. The generation of oxygen radicals in peroxisomes could have important effects on cellular metabolism. Diverse cellular implications of oxyradical metabolism in peroxisomes are discussed in relation to phenomena such as cell injury, peroxisomal genetic diseases, peroxisome proliferation and oxidative stress, metal and salt stress, catabolism of nucleic acids, senescence, and plant pathogenic processes.

Activation of the oxygen-radical-generating system in granules of intact human neutrophils by a calcium ionophore (ionomycin)

Subcellular fractionation studies were performed on human neutrophils stimulated with ionomycin (a Ca(2+)-specific ionophore). The results of these studies revealed NADPH-oxidase activity, without any additive, both in the plasma membrane and in the specific granule fractions. After comparing these results with the NADPH oxidase activity induced by the ionophore in intact neutrophils, in differentiated HL-60 cells and in neutrophil cytoplasts, we conclude that ionomycin preferentially activates the NADPH oxidase pool located in the membrane of specific granules. Furthermore, we suggest that incorporation of granule membrane into the plasma membrane makes the associated NADPH oxidase less sensitive to activation induced by a rise in [Ca(2+)]i.

Time course of superoxide generation by leukocytes--the MCLA chemiluminescence system

This study was performed to examine the pattern of superoxide (O2-.) generation from leukocytes using the O2-. specific chemiluminescence (CL) method. Cypridina luciferin analog, 2-methyl-6-(p-methoxyphenyl)-3,7-dihydroimidazo [1,2-alpha]pyrazin-3-one (MCLA) was used as a CL probe. The appropriate conditions of the MCLA method was first determined for the evaluation of the time course of O2-. generation by leukocytes. The time course of O2-. generation obtained by the MCLA-CL system was compared with that by the luminol-dependent CL, electron spin resonance (ESR)/spin trapping, and cytochrome c systems. Following stimulation by three different stimulants (PMA, OZ, FMLP), leukocytes continuously generated O2-. for up to 5 h in the MCLA-CL system, irrespective of the kind of stimulation. The curves obtained by generation ceased more rapidly in the luminol-CL, ESR/spin trapping, and cytochrome c systems. A 50% activity of the initial value was observed at 70 min in the MCLA-CL system, but 30, 10 and 35 min in the other systems, respectively. The CL or O2-. generation value decreased to less than 1% (possible termination) at 300, 90, 120 and 180 min, respectively. With the exception of ESR studies with OZ, the cell viability was not significantly affected in any of the trials. These results indicate that leukocytes can generate O2-. much longer than previously estimated and that the MCLA-CL-system is the most suitable system for the measurement of the O2-. generation by leukocytes.

Differential up-regulation of specific and azurophilic granule membrane markers in electropermeabilized neutrophils

We have developed an alternative method to study the degranulation in electropermeabilized human neutrophils by measuring the up-regulation of the specific membrane markers CD63 (residing in the azurophilic granules of resting neutrophils) and CD67 (present in specific granules). The expression of these marker proteins was measured by the binding of specific antibodies to paraformaldehyde-fixed cells and subsequent flow cytometry. We first investigated whether the changes in CD63 and CD67 expression after stimulation of intact cells were comparable with earlier measurements of neutrophil degranulation, in which the release of soluble marker proteins was measured. These experiments indicated that this new method compares favourably with earlier studies, both with respect to kinetics and stimulus dependency. Subsequently, we applied this method (which does not include centrifugation of the cells) to study degranulation in electropermeabilized neutrophils. In permeabilized neutrophils, a clear up-regulation of the specific granule marker CD67 was observed upon incubation with a free Ca2+ concentration of 1 microM, a value of the cytosolic free Ca2+ concentration occurring in formylmethionyl-leucyl-phenylalanine (FMLP)-activated neutrophils. The azurophilic granule marker CD63 required GTP-gamma-S besides 1 microM Ca2+ for a significant up-regulation. Hence, our study indicates a different requirement for intracellular signals of the two main types of granules in human neutrophils.

Neutrophils as mediators of human skeletal muscle ischemia-reperfusion syndrome

Nine patients with aortic aneurysm undergoing arterial reconstruction with temporary aortic occlusion were studied. Since a typical condition of ischemia-reperfusion of the muscles of the lower limbs was created during this surgery, muscle biopsies from the right femoral quadriceps as well as blood samples from the homolateral saphenous vein were taken: (1) before clamping of the aorta, (2) just before declamping, and (3) 30 minutes after reperfusion. Light microscopy revealed a consistent granulocyte infiltration in the ischemic and reperfused skeletal muscle. Ultrastructural damage to the muscle fibers was seen during ischemia and became more severe upon reperfusion. The recruitment of granulocytes into the muscle tissue paralleled the activation of the blood complement system and an increase in circulating neutrophils. Although a spontaneous superoxide anion (O2-) generation from such granulocytes cannot be proved, upon stimulation with formyl-methionyl-leucyl-phenylalanine neutrophils showed a reduced ability in O2 free radical production at the end of ischemia and enhanced O2- generation at reperfusion as compared with the controls. All these findings indicate an active role of granulocytes in the genesis of reperfusion-induced tissue injuries.

Purification of the 28.5 kDa cytosolic protein involved in the activation of NADPH oxidase from guinea pig neutrophils

We tried to purify a new protein component required for the activation of NADPH oxidase from the guinea pig neutrophil cytosolic fraction which did not contain p47phox and p67phox, using HAC-5CP, IEC-QA and Superose 12HR columns. The NADPH oxidase-activating activity was separated into three fractions on IEC-QA anion-exchange HPLC. However, when each of the fractions was purified by Superose 12HR gel filtration, the active fraction eluted at the same position, and was found to contain a common protein with a molecular weight of 28.5 kDa on SDS-PAGE. These results suggest that the 28.5 kDa protein is a novel NADPH oxidase activating protein.