Kinetics of nitric oxide and hydrogen peroxide production and formation of peroxynitrite during the respiratory burst of human neutrophils (original) (raw)
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Nitric oxide reduces hydrogen peroxide production from human polymorphonuclear neutrophils
European Journal of Clinical Investigation, 1995
Nitric oxide has been reported to affect both adhesion and respiratory burst of neutrophils. This indicates a possible role of nitric oxide in regulation of acute inflammatory responses. Release of oxygen metabolites from neutrophils can be measured using luminol-enhanced chemiluminescence and this method can detect both extracellularly and intracellularly released oxygen metabolites. Neutrophils treated with nitroprusside and activated with FMLP, type I collagen or PMA decreased their extracellular release of oxygen metabolites, while their intracellular release was almost unaffected. The effect of nitroprusside was mediated by nitric oxide since treatment with cyanide had the opposite effect. N-ethylmaleimide treatment decreased both extra-and intracellular release of oxygen metabolites. This indicates that nitric oxide affects membrane-bound NADPH-oxidase either indirectly or directly, and not a cytosol factor of the oxidase as earlier shown for N-ethylmaleimide. In conclusion, extracellular nitric oxide attenuates extracellularly released oxygen metabolites from activated neutrophils in an inflammatory response.
Oxidative Metabolism of neutrophils
Polymorphonuclear neutrophils "PMN# have an important role in the host defence response to infection[ These cells produce large amounts of reactive oxygen species "O = − 1 \H 1 O 1 and ONOO − # with microbicidal activity[ PMN are commonly isolated from peripheral blood by sedimentation through a gradient of density "Ficoll!Hypaque gradient and dextran#\ yielding a highly homogeneous cellular population[ However\ some cellular activation due to membrane perturbation is also expected[ We studied how the production of reactive oxygen species and release of myelo! peroxidase "MPO# from blood PMN are a}ected by the use of the Ficoll!Hypaque density gradient[ PMN isolated by spontaneous sedimentation and total blood were used for comparisons[ Lucigenin! and luminol!enhanced chemi! luminescence was used to estimate the production of reactive oxygen from intact cells and shown to be higher for cells isolated by density gradient both in the absence and presence of added stimuli[ The release of MPO\ estimated by the chemiluminescence of the luminol:H 1 O 1 reaction in the supernatant of PMN incubated in the absence and presence of stimuli and absence and presence of cytochalasin B\ was also higher for PMN isolated by a density gradient[ In conclusion\ it was shown that the PMN isolation procedure a}ects reactive oxygen species production and MPO release and in some cases may cause a misinterpretation of results [ Copyright Þ 1999 John Wiley + Sons\ Ltd[ KEY WORDS * oxidative metabolism^myeloperoxidase^polymorphonuclear leukocytes^Ficoll!Hypaque^spontaneous sedi! mentation^blood cells^chemiluminescence ABBREVIATIONS * C\ control^FMLP\ N!formyl!methionyl!leucyl!phenylalanine^MPO\ myeloperoxidase^PMA\ phorbol miristate acetate^PMN\ polymorphonuclear leukocytes^ZY\ opsonized zymosan\ SG\ sedimentation in gradient^SS\ spontaneous sedimentation^TB\ total blood^HRP\ horseradish peroxidase
2010
Previous reports from this laboratory and others demonstrated NO-mediated biphasic modulation of NADPH oxidase and attenuation of neutrophil reactive oxygen species generation, whereas recently we reported augmentation in DCF fluorescence following NO treatment. These discrepancies seem to be due to utilization of different probes/ methods to assess effect of NO on reactive oxygen and nitrogen species (ROS/RNS, reactive species) generation. This study aims to look into this and evaluate NO-mediated enzymatic reactive species formation by using multiple probes, human neutrophils/ HL60 cells and various interventions. Addition of NO donor, SNP or SNAP (100 nM-1 mM) to PMNs suspension, exhibited a concentration-and time-dependent augmentation in DCF fluorescence, but reduced DHE fluorescence. Collective generation of reactive species was confirmed by enhanced DMPO-nitrone adduct, dityrosine and rhodamine-123 and quenching of scopoletin. NO also enhanced bacterial killing, without altering phagocytosis. Addition of NO to HL-60 cells lacking functional NADPH oxidase enhanced reactive species formation, indicating importance of other enzyme(s) too. NO-dependent ROS/RNS generation was substantially reduced by NADPH oxidase inhibitor (DPI), MPO inhibitor (ABAH), or NOS inhibitor (7-NI). However, 7-NI reduced MPO activity, warranting reappraisal of those reports, which implied NOS in reactive species formation. The results obtained demonstrated NO-mediated reactive species augmentation in human PMNs. Furthermore, superoxide scavenging by NO seems to be the key process in the decrease of DHE fluorescence and suggest usefulness of DCF as the most appropriate probe to measure the NO-mediated modulation of reactive oxygen species in particular in various pathological situations. ' 2010 International Society for Advancement of Cytometry
Nitric oxide produced by rat peritoneal neutrophils: Kinetic of release and apoptosis
Pharmacological Research, 1995
POLYMORPItONUCLEAR neutrophils (PMN) obtained from carrageenin-stimulated peritoneal cavities of rats, but not blood PMN, spontaneously produced nitric oxide (NO) when incubated in vitro. Incubation of the cells with the NO synthase inhibitors, L-imino-ethyl-L-ornithine (L-NIO) or N-monomethyl-L-arginine (L-NMMA), inhibited NO production. This inhibition could be reversed by L-arginine. Incubation of PMN with lipopolysaccharide (LPS) failed to enhance NO production. Pretreatment of the rats with dexamethasone (DEXA) prior to carrageenin injection or incubation of PMN with the glucocorticoid in vitro partially inhibited the spontaneous release of NO. On the other hand, when PMN obtained from DEXA pretreated rats were incubated in vitro with DEXA, NO synthase activity and hence NO generation were almost abolished. A similar inhibition was also observed following the addition of L-NIO or cycloheximide to cultures of carrageenin-elicited PMN. The NO production by PMN did not appear to be related to cell viability or apoptosis. Indeed, neither the blockade of NO generation by L-NIO nor the incubation of the neutrophils with a NO donor, S-nitroso-acetylpenicillamine (SNAP) modified the pattern of LDH release or DNA fragmentation. In summary, it appears that PMN migration triggers a continuous NO synthesis, and that NO produced by these cells is not related to their apoptosis.
Journal of leukocyte biology, 1999
Peroxynitrite is a potent oxidant generated from the reaction of nitric oxide (NO) and superoxide anion (O2-), both of which can be produced in inflammatory tissues. In these studies, we analyzed what direct effect peroxynitrite had on neutrophil (PMN) function. We found that peroxynitrite was an effective priming agent for PMNs, as demonstrated by enhanced O2- production on subsequent activation with low doses of PMA or N-formyl-methionine-leucine-phenylalanine (fMLF), changes in the expression of PMN surface markers (L-selectin, Mac-1, flavocytochrome b, and fMLF receptor), and increased intracellular calcium levels. Analysis of the mechanism of PMN priming by peroxynitrite demonstrated that peroxynitrite resulted in minimal oxidation of protein sulfhydryl groups and subsequent protein cross-linking. In contrast, treatment of PMNs with peroxynitrite resulted in significant nitration of tyrosine residues on neutrophil proteins. In addition, inhibition of tyrosine nitration with a p...
Free Radical Biology and Medicine, 2000
We studied the roles of nitrogen monoxide (NO • ) and peroxynitrite produced by the polymorphonuclear leukocytes (PMNs) isolated from an inflammatory exudate. PMNs were incubated either in a medium with a submicromolar concentration of iron or in a diethylenetriaminepenta-acetic acid (DTPA)-containing medium, and stimulated with phorbol 12-myristate 13-acetate (PMA) to generate free radicals. In both conditions superoxide anion (O 2 •Ϫ ), NO • and peroxynitrite were produced. In the presence of arachidonic acid, malondialdehyde (MDA) was generated. This MDA was generated in one of two way; the peroxynitrite iron-independent mechanism (40%) and the Fenton reaction, caused by free iron (60%). We also observed that the addition of L-arginine was followed by a 42% reduction in MDA, which can be explained by the antioxidant effect of NO • . These results indicate that lipid peroxidation can occur in the absence of iron, through a peroxynitrite-mediated mechanism, and that NO • may act as an antioxidant when it is produced in large amounts.
Journal of Leukocyte Biology, 1997
Because nitric oxide (NO) can act both as a regulatory and as a toxic molecule, we have studied N-formyl-methionyl-leucyl-phenylalanine (fMLF) -stimulated responses of human neutrophils (PMNs) during various conditions of NO modulation in unprimed and bacterial lipopolysaccharide (LPS) -primed cells. Effects of various NO modulators were assessed on stimulated superoxide (O2-) generation, granule exocytosis, homotypic aggregation, and rises in intracellular free Ca2+ ([Ca2+]i). Significant differences in the effects of various NO modulators on inflammatory responses of PMNs kept in stirred suspension versus those kept under static and/or adherent conditions, were observed. L-arginine, the physiological substrate for NO synthase (NOS), and NG-nitro-L-arginine methyl ester, an inhibitor of NOS, both caused a 40-50% inhibition of LPS-induced priming of O2- generation in PMNs in stirred suspension, but not in LPS-primed PMNs under static or adherent conditions. The NO donors, sodium nit...
Effect of nitric oxide donors on oxygen-dependent cytotoxic responses mediated by neutrophils
Journal of immunology (Baltimore, Md. : 1950), 1999
We analyzed the effect of nitric oxide (NO) on oxygen-dependent cytotoxic responses mediated by neutrophils against unopsonized erythrocytes using three NO donors: S-nitrosoglutathione (GSNO), S-nitroso-N-acetylpenicillamine (SNAP), and sodium nitroprusside (SNP). Neutrophils were treated with these compounds for 1-2 min at 37 degrees C and cytotoxicity was then triggered in the presence of NO donors by precipitating immune complexes, aggregated IgG, the chemotactic peptide FMLP, or opsonized zymosan. GSNO induced, in all cases, a marked increase in cytotoxic responses, while SNAP moderately increased cytotoxicity triggered by immune complexes, aggregated IgG, or Z, opsonized zymosen, without modifying those responses induced by FMLP. By contrast, SNP dramatically suppressed cytotoxicity triggered by all of the stimuli assessed. The enhancing effects mediated by GSNO and SNAP did not depend on the stimulation of guanylyl cyclase and were prevented by the NO scavengers hemoglobin and...
FEBS Letters, 1998
To assess peroxynitrite formation in lipopolysaccharide (LPS)-stimulated human blood, we have measured nitric oxide (NO)-dependent intracellular oxidation of dihydrorhodamine 123 (DHR 123) to rhodamine. LPS increased DHR 123 oxidation in neutrophil granulocytes, monocytes and lymphocytes in a time-dependent fashion. Greater extent of DHR 123 oxidation was detected in neutrophils and monocytes than in lymphocytes. These changes were accompanied by accumulation of rhodamine in the plasma. While intracellular DHR 123 oxidation and rhodamine accumulation in the plasma were not affected by inhibition of constitutive NO synthase at 30 and 60 min after addition of LPS, they were markedly attenuated by inhibition of inducible NO synthase at 4, 8, 16 and 24 h after addition of LPS. These results demonstrate that human leukocytes can produce high amounts of peroxynitrite in response to LPS, and may contribute to the elevated plasma peroxynitrite levels observed during endotoxic shock.
On the Pharmacology of Oxidative Burst of Human Neutrophils
Physiological Research, 2015
The effect of three therapeutically used drugs and five polyphenolic compounds on the mechanism of oxidative burst was compared in whole blood and isolated neutrophils at cellular and molecular level. In 10 μM concentration, the compounds investigated decreased the oxidative burst of whole blood in the rank order of potency: N-feruloylserotonin (N-f-5HT) > curcumin (CUR) > quercetin (QUER) > arbutin (ARB) > resveratrol (RES) > dithiaden (DIT) > carvedilol (CARV) > brompheniramine (BPA). The ratio between the percentage inhibition of extracellular versus intracellular chemiluminescence (CL) followed the rank order QUER > N-f-5HT > RES > CUR > DIT and is indicative of the positive effect of the compounds tested against oxidative burst of neutrophils, demonstrating suppression of reactive oxygen species extracellularly with minimal alteration of intracellular reactive oxygen species (ROS). Activation of protein kinase C was significantly decreased by DIT, CUR, QUER and N-f-5HT. CARV, DIT, QUER and ARB reduced activated neutrophil myeloperoxidase release more significantly compared with the effect on superoxide anion generation. All compounds tested increased the activity of caspase-3 in cell-free system. It is suggested that other regulatory mechanisms than protein kinase C might participate in the inhibition of neutrophil activation with the compounds tested. Different mechanisms are concerned in controlling the assembly of NADPH oxidase and the regulatory role of calcium ions is suggested. Compounds decreasing the amount of extracellular ROS generation, yet affecting but minimally intracellular ROS generation, are promising for further investigation in vivo.