Diacylglycerol accumulation and superoxide anion production in stimulated human neutrophils

Exogenous diacylglycerols stimulate neutrophil superoxide anion production, suggesting that endogenous diacylglycerols may function as second messengers for this biological response. We have measured the diacylglycerol mass in human neutrophils stimulated by fMet-Leu-Phe, ionomycin, and concanavalin A and have correlated the kinetics and magnitude of the diacylglycerol response with those for superoxide anion production. For each stimulus, no increase in diacylglycerol mass was detected prior to the onset of superoxide anion generation. However, large sustained increases in diacylglycerol concentration (260-2000% of basal levels) occurred in parallel with the rise in superoxide anion. The cessation or continuation of diacylglycerol accumulation and superoxide anion production also correlated. The diacylglycerol response was proportional to the stimulus concentration and correlated with the concentration dependence for superoxide anion. Pretreatment of neutrophils with cytochalasin B enhanced both superoxide anion and diacylglycerol responses with all three stimuli. These data support the hypothesis that diacylglycerol functions as a modulator of superoxide anion generation causing a sustained or augmented respiratory burst.     

Lipoxygenase-mediated production of superoxide anion in senescing plant tissue

Lipoxygenase activity and superoxide (O^.?₂) production by microsomal membranes and cytosol from bean cotyledons increased in parallel as senescence progressed. Superoxide production was heat denaturable and dependent on the availability of linoleate, the substrate for lipoxygenase. The specific inhibitor of lipoxygenase, U28938, caused a parallel reduction in enzyme activity and the formation of O^?₂. These observations demonstrate that lipoxygenase activity mediates the formation of superoxide anion, and support the contention that membrane senescence is attributable to a sequence of reactions in which lipasederived fatty acids are utilized by lipoxygenase to generate O^?₂ and hydroperoxides.     

Cytosolic calcium, calcium fluxes, and regulation of alveolar macrophage superoxide anion production

The recently available compound quin-2, which acts as a high affinity fluorescent indicator for calcium in the cytosol, was used to examine the role of calcium mobilization in the alveolar macrophage during the stimulation of 0-2 production by the tripeptide N-formyl norleucyl leucyl phenylalanine (FNLLP). After preloading with quin-2, the production of 0-2 was measured in conjunction with the transfer of 45Ca+2 and changes in quin-2 fluorescence upon stimulation with FNLLP. When cells were maintained in low (10 microM) extracellular calcium medium the presence of 1.5 mM quin-2 in the cytosolic space partially inhibited the rate of 0-2 production upon stimulation by FNLLP. Addition of 1 mM Ca+2 to the medium prior to stimulation rapidly restored the cell's capability to produce 0-2 upon stimulation at rates equal to control and extended the duration of stimulated 0-2 production as well. Quin-2 fluorescence measurements indicated an increase in cytosolic Ca+2 upon stimulation with FNLLP. This increase was lowest under conditions in which 0-2 production was inhibited. The addition of 1 mM Ca+2 to the medium caused by itself a rapid but transient increase in cytosolic Ca+2 as measured with quin-2 without stimulating 0-2 production. This intracellularly redistributed calcium was determined to be the source of the greater increase in cytosolic calcium during stimulation in the presence of high extracellular calcium. Measurements of 45Ca+2 transfer demonstrated a buffering of cytosolic Ca+2 changes by quin-2, which in low calcium medium could deplete calcium stores. It is suggested that this effect, prior to stimulation, was responsible for the mitigated 0-2 response for those cells maintained in low calcium medium, wherein calcium stores could not be replenished. These results suggested that the cell's mechanism for regulating cytosolic and bound calcium concentrations may also play an integral role in its normal mechanism for stimulated 0-2 production. They further support the postulate that the commonly observed rise in the concentration of calcium in the cytosol upon formyl peptide stimulation is a concomitant but nonregulatory event only.     

Neutrophil chemotaxis and superoxide production are induced by cross-linking FcgammaRII receptors

Neutrophils express two types of receptor for the Fc region of IgG, FcgammaRII and FcgammaRIIIB. Via these receptors, neutrophils bind IgG complexes that contain more than one IgG molecule. This binding activates functional processes, such as the respiratory burst and chemotaxis. Neutrophils were treated with biotinylated anti-Fc receptor monoclonal antibodies and chemotaxis toward streptavidin, a cross-linking agent, was determined. Cross-linking FcgammaRII and not FcgammaRIIIB induced neutrophil chemotaxis. Superoxide production in response to immobilized anti-Fc receptor antibodies was also examined. Anti-FcgammaRII Fab bound to ELISA plates induced superoxide production, while anti-FcgammaRIIIB Fab did not. Pretreatment of neutrophils with anti-FcgammaRII Fab reduced superoxide generated by immobilized anti-FcgammaRII antibody. The data demonstrate that FcgammaRII and not FcgammaRIIIB are responsible for neutrophil chemotaxis and superoxide production upon Fc receptor activation.     

Nitrofuran enhancement of microsomal electron transport, superoxide anion production and lipid peroxidation

Addition of nifurtimox (a nitrofuran derivative used for the treatment of Chagas' disease) to rat liver microsomes produced an increase of (a) electron flow from NADPH to molecular oxygen, (b) generation of both superoxide anion radical (O₂^?) and hydrogen peroxide, and (c) lipid peroxidation. The nifurtimox-stimulated NADPH oxidation was greatly inhibited by NADP⁺ and p-chloromercuribenzoate, and to a lesser extent by SKF-525-A and metyrapone. These inhibitions reveal the function of both the NADPH-cytochrome P-450 (c) reductase and cytochrome P-450 in nifurtimox reduction. Superoxide dismutase, catalase (in the presence of superoxide dismutase), and hydroxyl radical scavengers (mannitol, 5,5-dimethyl-1-pyrroline-1-oxide) inhibited the nifurtimox-stimulated NADPH oxidation, in accordance with the additional operation of a reaction chain including the hydroxyl radical. Further evidence supporting the role of superoxide anion and hydroxyl radicals in the nifurtimox-induced NADPH oxidation resulted from the effect of specific inhibitors on NADPH oxidation by O₂^? (generated by the xanthine oxidase reaction) and by OH. (generated by an iron chelate or the Fenton reaction). Production of O₂^? by rat kidney, testes and brain microsomes was significantly stimulated by nifurtimox in the presence of NADPH. It is postulated that enhanced formation of free radicals is the basis for nifurtimox toxicity in mammals, in good agreement with the postulated mechanism of the trypanocide effect of nifurtimox on Trypanosoma cruzi.     

Superoxide anion generation, erythrocytes superoxide dismutase activity, and lipid peroxidation during hemoperfusion and hemodialysis in chronic uremic patients

In 11 chronic uremic patients superoxide anion generation in whole blood, both without and with opsonized zymosan stimulation, was lower than that in 11 healthy controls, while erythrocyte superoxide dismutase (SOD-1) activity and erythrocyte and plasma malonyldialdehyde (MDA) concentrations were elevated. During hemoperfusion (HP) and hemodialysis (HD) superoxide anion generation transiently significantly increased. Changes in the erythrocyte SOD-1 activity and plasma and erythrocyte MDA concentrations during HP suggested that this procedure exerted beneficial effects on lipid peroxidation. On the other hand, during HD erythrocyte membrane lipid peroxidation seemed to be enhanced even further; this phenomenon took place mainly within the dialyzer and a decrease in the erythrocyte SOD-1 activity seemed to be one of the contributing factors. Results of in vitro experiments with cross-incubation of erythrocytes and blood plasma and incubation of whole blood with cuprophan membrane suggest existence of an SOD-1 activator in the uremic blood plasma, which is possibly eliminated during HD.     

Phagocytosis, bactericidal capacity, and superoxide anion (O2-) production by polymorphonuclear neutrophils from patients with diabetes mellitus

Phagocytosis, bactericidal capacity and superoxide anion production of polymorphonuclear neutrophils (PMN) were estimated in 30 patients with well-controlled insulin-dependent diabetes (IDD) and in 50 patients with non insulin-dependent diabetes (NIDD). The estimations were additionally done in 20 elderly patients without glucose intolerance. The estimations of bactericidal capacity were performed in autologous-, zymosan activated-, inactivated- and control plasma. The phagocytosis of viable staphylococci was unchanged in all evaluated groups. The bactericidal capacity in all diabetic patients was significantly reduced. It was fully correctable in patients with IDD by suspension of cells in control or zymosan activated plasma. The improvement of PMN bactericidal capacity in patients with NIDD in similar conditions was less distinct. The superoxide anion production in patients with IDD was similar to values noticed in healthy persons. Whereas, the O2- production in patients with NIDD as well as in elderly patients were significantly reduced and correlated significantly with bactericidal capacity impairment. The possible mechanism of noticed disturbances were discussed.     

Inhibition of superoxide anion production by extracellular acidification in neutrophils

Extracellular acidification inhibited formyl-Met-Leu-Phe- or C5a-induced superoxide anion (O₂⁻) production in differentiated HL-60 neutrophil-like cells and human neutrophils. A cAMP-increasing agonist, prostaglandin E₁, also inhibited the formyl peptide-induced O₂⁻ production. The inhibitory action on the O₂⁻ production by extracellular acidic pH was associated with cAMP accumulation and partly attenuated by H89, a protein kinase A inhibitor. A significant amount of mRNAs for T-cell death-associated gene 8 (TDAG8) and other proton-sensing ovarian cancer G-protein-coupled receptor 1 (OGR1)-family receptors is expressed in these cells. These results suggest that cAMP/protein kinase A, possibly through proton-sensing G-protein-coupled receptors, may be involved in extracellular acidic pH-induced inhibition of O₂⁻ production.     

The production of superoxide anion (O2-) by polymorphonuclear cells in patients with rheumatoid arthritis

Superoxide anion production has been determined in controls and RA patients PMNs stimulated with zymosan, rheumatoid synovial membrane, nodule and synovial fluid, rheumatoid factor, aggregated gamma-globulins, Mycoplasma and Epstein-Barr virus. Patients with RA showed an increased production of O2- after incubation with zymosan and rheumatoid tissue extracts or synovial fluid in comparison to normal controls. The findings indicate that rheumatoid PMNs become activated by different stimuli to produce an excess of O2- which can contribute to chronic inflammatory process.     

Mitochondrial superoxide and aging: uncoupling-protein activity and superoxide production

Mitochondria are a major source of superoxide, formed by the one-electron reduction of oxygen during electron transport. Superoxide initiates oxidative damage to phospholipids, proteins and nucleic acids. This damage may be a major cause of degenerative disease and aging. In isolated mitochondria, superoxide production on the matrix side of the membrane is particularly high during reversed electron transport to complex I driven by oxidation of succinate or glycerol 3-phosphate. Reversed electron transport and superoxide production from complex I are very sensitive to proton motive force, and can be strongly decreased by mild uncoupling of oxidative phosphorylation. Both matrix superoxide and the lipid peroxidation product 4-hydroxy-trans-2-nonenal can activate uncoupling through endogenous UCPs (uncoupling proteins). We suggest that superoxide releases iron from aconitase, leading to a cascade of lipid peroxidation and the release of molecules such as hydroxy-nonenal that covalently modify and activate the proton conductance of UCPs and other proteins. A function of the UCPs may be to cause mild uncoupling in response to matrix superoxide and other oxidants, leading to lowered proton motive force and decreased superoxide production. This simple feedback loop would constitute a self-limiting cycle to protect against excessive superoxide production, leading to protection against aging, but at the cost of a small elevation of respiration and basal metabolic rate.     

Studies on the superoxide anion production and peroxidase activity in potato leaf cell suspension exposed to salicylic acid

It is now widely accepted that salicylic acid (SA) signaling is mediated by reactive oxygen species (ROS) production. We have studied the effect of SA on peroxidase activity and superoxide anion production in potato leaf cell suspension. The results show that potato cells are insensitive to low concentrations of exogenous SA (< 1 mM) and the effect is observed at 1–5 mM SA. The cells exposed to SA exhibit higher peroxidase activity and show different peroxidase pattern when analyzed on native gels compared to the control. Superoxide anion production is enhanced after two hours of treatment and 2.5 mM SA gives the highest value. The results suggest peroxidase-mediated detoxification of ROS elicited by SA.     

Effects of in vitro and in vivo supplementation with zinc on superoxide anion production in leukocytes

The effects of zinc on the rate of production of bactericidal O2- of polymorphonuclear leukocytes (PMN) in response to three different types of stimulating agents (serum-treated zymosan (STZ), Con A, and myristate) were studied. The percentage reduction of O2- production of PMN stimulated by STZ, Con A, and myristate were all reduced in response to Zn, irregardless of whether Zn was added to the reaction mixture immediately before SZT addition or following a prior 20 min. incubation of PMN in the presence of Zn. However, when Zn was introduced intraperitonially into guinea pigs before the collection of PMN from the animal, zinc treatment produced inhibition only in STZ-activated PMN; it produced no effect in O2- production of PMN stimulated by myristate, and it further augmented the O2- production stimulated by Con A.     

Comparative studies on superoxide anion production by polymorphonuclear leukocytes stimulated with various agents

Guinea-pig peritoneal polymorphonuclear leukocytes promoted superoxide anion (O2(-)) generation when stimulated with soluble antigen-antibody complex, concanavalin A or sodium dodecyl sulfate. The enhancement with antigen-antibody complex or concanavalin A was inhibited with diisopropyl fluorophosphate. On the other hand, the enhancement with sodium dodecyl sulfate was not affected by the inhibitor. L-1-pTosylamido-2-phenylethyl chloromethyl ketone (Tos-PheCH2Cl) and tetrahydrofuran also enhanced O2(-) generation even in the presence of diisopropyl fluorophosphate, while at low concentrations they inhibited O2(-) generation with antigen-antibody complex. These results indicate that a certain diisopropyl fluorophosphate-sensitive factor may be involved in the O2(-)-generating response of leukocytes to antigen-antibody complexes or concanavalin A, but not in that to sodium dodecyl sulfate, Tos-PheCH2Cl or tetrahydrofuran.     

Superoxide anion production and superoxide dismutase and catalase activities in Coxiella burnetii.

Coxiella burnetii was examined for superoxide anion (O2-) production and superoxide dismutase and catalase activities. The organism generated O2- at pH 4.5 but not at pH 7.4. The rickettsia displayed superoxide dismutase activity distinguishable from that of the host cell (L-929 mouse fibroblast). Catalase activity was maximal at pH 7.0 and diminished at pH 4.5. These enzymes may account, in part, for the ability of this obligate intracellular parasite to survive within phagocytes.     

Collagen activates superoxide anion production by human polymorphonuclear neutrophils.

Human polymorphonuclear neutrophils (PMNs), purified on Ficoll-Hypaque cushions, were incubated for 5 min with calf skin acid-soluble collagen and the released superoxide anions (O2-) measured spectrophotometrically by reduction of ferricytochrome c or by chemiluminescence analysis. This collagen stimulated the release of O2- unless it had been treated with pepsin. The stimulatory activity remained in denatured collagen, was contained only in the alpha 1(I) chain and was present in the alpha 1(I)-CB 6 (CNBr-cleaved) peptide, which is C-terminal. The activity was linearly dependent on the collagen concentration up to about 200 micrograms/ml. In addition, this collagen induced a release of beta-glucuronidase and N-acetyl-beta-glucosaminidase from PMNs.     

Reaction of the desulfoferrodoxin from Desulfoarculus baarsii with superoxide anion. Evidence for a superoxide reductase activity

Desulfoferrodoxin is a small protein found in sulfate-reducing bacteria that contains two independent mononuclear iron centers, one ferric and one ferrous. Expression of desulfoferrodoxin from Desulfoarculus baarsii has been reported to functionally complement a superoxide dismutase deficient Escherichia coli strain. To elucidate by which mechanism desulfoferrodoxin could substitute for superoxide dismutase in E. coli, we have purified the recombinant protein and studied its reactivity toward O-(2). Desulfoferrodoxin exhibited only a weak superoxide dismutase activity (20 units mg(-1)) that could hardly account for its antioxidant properties. UV-visible and electron paramagnetic resonance spectroscopy studies revealed that the ferrous center of desulfoferrodoxin could specifically and efficiently reduce O-(2), with a rate constant of 6-7 x 10(8) M(-1) s(-1). In addition, we showed that membrane and cytoplasmic E. coli protein extracts, using NADH and NADPH as electron donors, could reduce the O-(2) oxidized form of desulfoferrodoxin. Taken together, these results strongly suggest that desulfoferrodoxin behaves as a superoxide reductase enzyme and thus provide new insights into the biological mechanisms designed for protection from oxidative stresses.     

Tetramethylpyrazine scavenges superoxide anion and decreases nitric oxide production in human polymorphonuclear leukocytes

Tetramethylpyrazine is one of the active ingredients of the Chinese herb Ligusticum wallichii Franchat. By electron spin resonance spin trapping methods, effects of tetramethylpyrazine on superoxide anion and nitric oxide generated by human polymorphonuclear leukocytes were studied. During the respiratory burst of polymorphonuclear leukocytes induced by N-formylmethionyl-leucyl-phenylalanine, tetramethylpyrazine scavenges superoxide anion dose-dependently, and decreases the production of nitric oxide significantly, but shows no influence on oxygen consumption. These results suggest that the effective protection of tetramethylpyrazine against ischemic brain injury might be due to its scavenging of reactive oxygen species and regulation on nitric oxide production, and consequent prevention of peroxynitrite formation.