Neutrophil association and degradation of normal and acute-phase high-density lipoprotein 3.

The interaction of normal and acute-phase high-density lipoproteins of the subclass 3 (N-HDL3 and AP-HDL3) with human neutrophils and the accompanying degradation of HDL3 apolipoproteins have been studied in vitro. The chemical composition of normal and acute-phase HDL3 was similar except that serum amyloid A protein (apo-SAA) was a major apolipoprotein in AP-HDL3 (approx. 30% of total apolipoproteins). 125I-labelled AP-HDL3 was degraded 5-10 times faster than 125I-labelled N-HDL3 during incubation with neutrophils or neutrophil-conditioned medium. Apo-SAA, like apolipoprotein A-II (apo-A-II), was more susceptible than apolipoprotein A-I (apo-A-I) to the action of proteases released from the cells. The amounts of cell-associated AP-HDL3 apolipoproteins at saturation were up to 2.8 times greater than N-HDL3 apolipoproteins; while apo-A-I was the major cell-associated apolipoprotein when N-HDL3 was bound, apo-SAA constituted 80% of the apolipoproteins bound in the case of AP-HDL3. The associated intact apo-SAA was mostly surface-bound as it was accessible to the action of exogenous trypsin. alpha 1-Antitrypsin-resistant (alpha 1-AT-resistant) cellular degradation of AP-HDL3 apolipoproteins also occurred; experiments in which pulse-chase labelling was performed or lysosomotropic agents were used indicated that insignificant intracellular degradation occurred which points to the involvement of cell-surface proteases in this degradation.     

STUDIES ON NITRIC OXIDE FREE RADICALS GENERATED FROM POLYMORPHONUCLEAR LEUKOCYTES (PMN) STIMULATED BY PHORBOL MYRISTATE ACETATE (PMA)

The interaction of NO and O^?₂free radicals generated from PMA (phorbol myristate acetate)-stimulated PMN (polymorphonuclear leukocytes) was studied by a nitroxide spin trap, DMPO (5,5-dimethyl-1-pyrroline-1-oxide). It was found that addition of L-arginine to the system would significantly decrease the trapped O^?₂by DMPO and addition of N^G-monomethyl-arginine (NGMA) would significantly increase the trapped O^?₂by DMPO. It was proved that the formation of ONOO^?by the reaction of NO and O^?₂was the main reason for the decrease of trapped O^?₂in the experiment with xanthine/xanthine oxidase and irradiation of riboflavin systems. The yield of NO during this process was calculated. The generation dynamic of NO was studied by a luminol-dependent chemiluminescence technique and it was found that after stimulation of PMN by PMA, there would be an immediate, significant chemi-luminescence, which came mainly from the active oxygen free radicals generated by PMN. If L-arginine was added to this system, the chemiluminescence would increase about 100-fold, but NGMA inhibited the increase of the chemiluminescence. Ten minutes after addition of L-arginine, this increase did not change, the chemiluminescence peak decreased gradually, but the half life increased. The ESR and chemiluminescence properties of NO and ONOO^?synthesized were also studied in model systems.     

Resistance of Histoplasma capsulatum to killing by human neutrophils

The basis for resistance of yeast form of Histoplasma capsulatum to antifungal activity of human neutrophils was studied. In limiting dilution assays and short term coculture assays human neutrophils were ineffective in killing H. capsulatum whereas Candida albicans was readily killed. By contrast, in a cell free hydrogen peroxide-peroxidase-halide system H. capsulatum was as sensitive to killing as C. albicans. Moreover, lysate of human neutrophils effectively substituted for horse-radish peroxidase in a cell free system for killing H. capsulatum. H. capsulatum elicited significant products of the oxidative burst in human neutrophils as detected by luminol-enhanced chemiluminescence. However, the response was two-fold less (p<0.05) than that induced by C. albicans. Transmission electron microscopy studies showed that phagosome-lysosome fusion took place when neutrophils phagocytosed C. albicans or H. capsulatum. Taken together, these findings indicate that, even though H. capsulatum elicits an oxidative burst and phagosome-lysosome fusion within the phagosome, it is capable of evading damage in short term assays.Abbreviations CFU colony forming units - PMN polymorphonuclear neutrophil - CTCM complete tissue culture medium - CL chemiluminescence - HPO horseradish peroxidase - P-L lysosomal peroxidase positive material     

Oxygen-derived free radicals producing activity and survival of activated polymorphonuclear leukocytes

Summary Activation of polymorphonuclear (PMN) leukocytes is known to generate oxygen free radicals (OFR). However the fate of activated PMN leukocytes is not known. We investigated the OFR producing (chemiluminescence) activity and the survival of the activated PMN leukocytes. The study was divided into two groups. Group I, In vivo study (n = 7): zymosan (8.4 mg/kg) was administered intravenously in the anesthetized dogs and the blood samples were collected before and after 5, 15, 30, 60 and 120 min of zymosan administration. This group represents the in vivo pre-stimulated PMN leukocytes; Group II, In vitro study (n = 7): the blood were collected from dogs and further divided into two groups. Group A (n = 7): non-stimulated, without any added zymosan and group B (n = 7): zymosan was added to stimulate PMN leukocytes. Blood samples from group A and B were also collected at various time intervals similar to in vivo studies. Oxygen free radical producing activity of PMN leukocytes was monitored by measuring luminoldependent chemiluminescence (CL). Opsonized zymosan was used to activate PMN leukocytes. The studies in which the PMN leukocytes were stimulated in in vivo, both oxygen derived free radicals and superoxide dismutase (SOD) inhibitable oxygen free radical CL decreased significantly for 60 min and tended to reach thereafter to the pre-stimulated values. The resting chemiluminescence (chemiluminescence without zymosan stimulation in the assay medium) increased significantly for 15 min reaching to pre-stimulated values at 30 min and thereafter. In in vitro studies, oxygen derived free radicals CL of pre-stimulated PMN leukocytes (Group B) was depressed for the whole duration of investigation while SOD inhibitable CL was depressed for only 60 min. There was approximately a two-fold increase in the resting CL within 5 min of PMN leukocyte activation and it remained high for the whole duration of study. The chemiluminescence of non-stimulated PMN leukocytes in vitro (group A) remained practically normal throughout the period of observation. In in vivo studies, total white blood cells (WBC) and PMN leukocyte counts decreased initially and tended to approach towards pre-stimulated values at the end of the protocol. There were no changes in these counts in in vitro studies. These results indicate that the capacity to generate OFR is decreased in the in vivo and in vitro pre-stimulated PMN leukocytes. However this activity recovers with time. This study also suggests that the activated PMN leukocytes are not destroyed.     

Enhanced esterification process of 5-hydroxyeicosatetraenoic acid (5-HETE) in PMN from asthmatic patients

Polymorphonuclear neutrophils (PMN) generate 5-HETE which can be retained within cells as free metabolites or esterified into cellular lipids. Since this metabolite has been shown to have certain inflammatory porperties, we compared the generation and distribution profile of 5-HETE in A 23187-stimulated PMN from asthmatic patients (AP) and normal subjects (NS). 5-HETE was analyzed using RP-HPLC. After 5 min , total 5 HETE generation was similar in the two populations. However, esterified 5-HETE was significantly enhanced in AP (72 ± 3 % versus 47 ± 2 % of the total synthesis, p < 0.005), whereas intracellular free 5-HETE was decreased (13 ± 3 % versus 37 ± 4 %, p < 0.005) and similar low release was observed. Kinetic studies showed that PMN from AP esterified 5-HETE more rapidly and to a greater extent than PMN from NS. By contrast, more intracellular free 5-HETE was recovered in PMN from NS. Esterification seems to be the major pathway of 5-HETE metabolism in PMN from AP. Moreover, we showed that most of the 5-HETE added exogenously was esterified into cellular lipids. In these experimental conditions, PAF-induced migration of PMN was increased. The enhanced ability of PMN to migrate could be due to the increase of 5-HETE esterification process.     

A novel function of serum amyloid A: a potent stimulus for the release of tumor necrosis factor-alpha, interleukin-1beta, and interleukin-8 by human blood neutrophil

High density lipoprotein (HDL) and its main apolipoproteins, AI and serum amyloid A (SAA), present in physiological and acute phase response conditions, respectively, affect the inflammatory process. This study focuses on the effect of AI, SAA, and HDL from healthy (N-HDL) and acute phase individuals (AP-HDL) on the release of TNF-alpha, IL-1beta, and IL-8 by human blood neutrophils. It was observed that SAA (100 microg/mL) causes a dramatic increase (75-400 times) in the basal liberation of the three cytokines assayed. This effect is not triggered by AP-HDL. Although AI (100 microg/ml) increases the release of IL-1beta and IL-8 modestly, N-HDL does not. Both HDLs (0.16-0.32 mg of protein/mL) had an anti-inflammatory action, decreasing the basal and LPS-stimulated cytokine release. Given that the biological role of SAA is still uncertain, the present study adds an important finding potentially pertinent to the biological role of this acute phase protein.     

Leukotriene B4 is a complete secretagogue in human neutrophils: a kinetic analysis

The interactions have been studied of leukotriene B₄ (LTB₄) and 20-COOH-LTB₄ with human neutrophils (PMN). Kinetic studies, utilizing continuous recording techniques, showed that LTB₄ activates PMN with respect to aggregation, mobilization of membrane-associated Ca²⁺, $\underset{\dot{}}{?}$ generation, and degranulation within seconds of exposure. Dose-response studies indicate 1) that LTB₄ is much more potent than its dicar?ylic acid derivative (20-COOH-LTB₄) or its all trans-isomer, and 2) that PMN responses to these agents are largely dependent upon pretreatment of the cells with cytochalasin B. These properties were similar to those of the microbial ionophores, ionomycin and A23187. Results demonstrate that LTB₄ rapidly activates PMN and indicate that LTB₄ serves as a complete secretagogue. Moreover, they provide additional evidence that oxidized fatty acids activate human PMN.     

Stereoselective cyclooxygenase inhibition in cellular models by the enantiomers of ketoprofen

The pharmacological activity of rac-ketoprofen and its enantiomers was investigated in vitro using different cellular models. The effect of these compounds on arachidonic acid metabolism was assessed by measuring the inhibition of prostanoid generation under the action of several agonists. Thus, we have evaluated the inhibition of (1) thromboxane B₂ synthesis in rabbit platelets and human polymorphonuclear leukocytes (PMNs), (2) prostaglandin E₂ synthesis in three cultured cells, namely human umbilical vein endothelial cells (HUVEC), human keratinocytes, and mouse macrophage-like P388D1 cells. The IC₅₀ values found for (+)-(S)-ketoprofen were in the range between 0.1 nM and 0.8 μM, being slightly lower in all models than those found for rac-ketoprofen (0.4 nM–3 μM). On the other hand, (?)-(R)-ketoprofen showed inhibition of cyclooxygenase only at concentrations two or three orders of magnitude higher than those required for the (+)-(S) enantiomer. These results, obtained with cell types of relevance for inflammatory processes and with compounds of high optical purity, demonstrate that the prostanoid biosynthesis inhibition caused by the drug rac-ketoprofen is exclusively due to its dextrorotatory enantiomer. © 1993 Wiley-Liss, Inc.     

Chemiluminescence response of the human polymorphonuclear neutrophil to lipopolysaccharides

Polymorphonuclear neutrophils (PMN) respond to a variety of stimuli with a sequence of reactions that lead to the production of “active oxygen” species, including H₂O₂, free radicals, such as superoxide (O₂ ⁻·) and hydroxyl (HO·), and singlet molecular oxygen (¹O₂). Some of these can oxidize (5-amino-2,3-dihydrophthalazine 1,4-dione) (luminol) to the ground state aminophthalate ion; this reaction sequence is accompanied by the generation of a photon and forms the basis for the chemiluminescence (CL) response. In this work we used a dedicated photon counting instrument to record CL from PMN incubated with bacterial lipopolysaccharide (LPS). We have studied the CL response to the LPS fromEscherichia coli strains 026:B6 and 055:B5, as well asSalmonella minnesota RE 595 and have determined that CL requires heat-labile serum factors, these most likely being intact components of the complement system.     

Monitoring of polymorphonuclear leukocyte functions in diabetes mellitus— a comparative study of conventional radiometric function tests and low-light imaging systems

In this study neutrophil (PMN) phagocytic capacity was investigated using a conventional radiometric ingestion assay (IN) in comparison with PMN respiratory burst activity assessed by luminol-enhanced chemiluminescence (LCL) in response to phorbolesters and LCL induction during phagocytosis of opsonized Staphylococous aureus (STLCL) in diabetes mellitus and healthy controls. PMN ingestion was measured with ³H-thymidine-labelled S. aureus in a kinetic radiometric assay. LCL and STLCL were assessed in a parallel detecting microtitre-plate luminometer (MTP-Reader). PMN of diabetic subjects showed a highly significant reduction of peak LCL in response to PMA as well as during phagocytosis of S. aureus (STLCL) compared to non-diabetic controls (p<0.001 respectively). PMN ingestion in diabetic patients (51.8±4.6%) was significantly reduced compared to controls (78.3±6.2%) (p<0.01). The in vitro data displayed impaired PMN oxidative burst activity at glucose concentrations ? 13.8mmol/L, whereas PMN IN was significantly reduced at glucose levels ?27.75mmol/L. The control group showed a positive correlation of peak LCL response and IN (p<0.05) but not of STCL and IN; in diabetic patients this was also true, but did not reach statistical significance. The data obtained in this study clearly demonstrated impaired PMN respiratory burst activity and markedly reduced phagocytic PMN functions in diabetic patients ex vivo and in vitro as measured by LCL and by ingestion of ³H-thymidine-labelled S. aureus suggesting inhibitory effects of elevated glucose concentrations on various PMN-functions, which might be of clinical importance concerning altered host defence.     

Differences in the respiratory burst of human polymorphonuclear leukocytes induced by virulent and avirulent Legionella pneumophila Serogroup 1

Two strains of Legionella pneumophila of different virulence were examined for their influence on the metabolic oxidative activity of human polymorphonuclear leukocytes. The leukocytes exhibited decreased rates of oxygen consumption and diminished chemiluminescence activity following phagocytosis of a virulent strain of L. pneumophila serogroup 1. In contrast, phagocytosis of its multipassaged derivative rendered avirulent, was accompanied by increased rates of both oxygen consumption and chemiluminescence activity. Although no differences were observed in oxygen uptake induced by the virulent legionellae compared to leukocytes at rest, statistically significant differences were observed in the chemiluminescence responses. These observations were not unexpected, since the luminol-enhanced chemiluminescence assay, is more sensitive than the oxygen uptake assay. In spite of decreased metabolic activity of PMN in the presence of virulent legionellae, electron microscope studies showed higher numbers of intracellular L. pneumophila than the avirulent subtype. Thus, virulent and avirulent L. pneumophila can be differentiated on the basis of oxygen consumption and chemiluminescence assays.     

Nitric oxide synthase inhibitors decrease human polymorphonuclear leukocyte luminol-dependent chemiluminescence

Nitric oxide synthase (NOS) inhibitors have been reported to modulate luminol-dependent chemiluminescence (CL) in rat macrophages, whereas the potent oxidant peroxynitrite (ONOO^-) was shown to react with luminol to yield CL in a cellfree system. We evaluated the role of the -arginine/NOS pathway in luminol CL by phorbol ester-activated human polymorpho-nuclear (PMN) leukocytes using the NOS inhibitors N^G-monomethyl- -arginine ( -NMMA) and N-iminoethyl- -omithine ( -NIO). Nitric oxide (·NO) release was determined by oxidation of oxymyoglobin. In addition, the effect of NOS inhibitors on superoxide anion O₂^-) production was measured. Luminol CL was notably diminished by -NMMA in a dose-dependent manner. Superoxide dismutase (SOD) also decreased luminol CL and -NMMA potentiated light emission decrease produced by SOD. Nitric oxide and O₂^·- production was significantly decreased by -NMMA; moreover, luminol-dependent CL but not O₂^·- production was attenuated by -NIO. These data suggest that products of catalytic activity of both ·NO synthase and NADPH oxidase are required to elicit maximal luminol CL in this system. These studies demonstrate that the NOS synthase pathway is involved in luminol CL by human PMN, and they suggest that ONOO would be an unrecognized mediator in this phenomenon.     

The effects of antioxidants and hypohalous acid scavengers on neutrophil activation by hypochlorous acid-modified low-density lipoproteins

Hypochlorous acid-modified human blood low density lipoprotein (LDL–HOCl) was shown to stimulate neutrophils and to increase the luminol- (lm-CL) or lucigenin-enhanced chemiluminescence (lc-CL) of neutrophils. Antioxidants and HOCl scavengers (glutathione, taurine, cysteine, methionine, ceruloplasmin, and human serum albumin (HSA)) were tested for effects on lm-CL, lc-CL, H₂O₂ production, and degranulation of azurophilic granules of neutrophils. All agents used in increasing concentrations were found to decrease lm-CL produced by neutrophils upon stimulation with LDL–HOCl or subsequent treatment with the activator phorbol 12-myristate 13-acetate (PMA). The agents exerted a far lower, if any, effect on lc-CL and the H₂O₂ production by neutrophils in the same conditions. In the majority of cases, a decline in neutrophil chemiluminescence in the presence of the agents was not related to their effect on neutrophil degranulation, but was most likely due to their direct interactions with reactive halogen (RHS) or oxygen (ROS) species generated upon neutrophil activation or to myeloperoxidase (MPO) inhibition. Antioxidants and HOCl scavengers present in the human body were assumed to decelerate the development of oxidative or halogenative stress and thereby prevent neutrophil activation.     

In vitro modulation of canine polymorphonuclear leukocyte function by granulocyte-macrophage colony stimulating factor

Granulocyte-macrophage colony stimulating factor (GMCSF) promotes the growth of granulocytes and macrophages from undifferentiated bone marrow cells and modulates the oxidative responses of polymorphonuclear leukocytes (PMN) to endogenous chemoattractants. We found that,in vitro, naturally occurring glycolsylated human GMCSF does not disturb the resting canine PMN membrane potential, may attentuate PMN oxidative responses to PMA, and is, to a small degree, chemotaxigenic. GMCSF, however, inhibits PMN chemotaxis to zymosanactivated plasma (ZAP). Compared to temperature controls, GMCSF (1-100 U/ml) produced up to 1.5-fold increases in H₂O₂ production after 15 minutes, while phorbol myristate acetate (PMA) treated cells increased H₂O₂ production 8–12-fold after 15 minutes. Preincubation of cells with GMCSF (1–100 U/ml) prior to PMA stimulation significantly reduced the H₂O₂ levels induced by PMA. H202 production was inhibited up to 15% after 15 minutes of GMCSF preincubation and up to 40% after 60 minutes of preincubation. As a chemotaxigenic agent, GMCSF (10–1000 U/ml) was able to elicit 49%–102% increases in quantitative cellular migration, compared to random migration. Total cellular chemotaxis to GMCSF was < 30% of the response to ZAP. Preincubation of PMNs with GMCSF for 15 minutes significantly inhibited ZAP-induced cellular migration. Human GMCSF does not appear to activate canine PMNin vitro and may actually down-regulate PMN inflammatory responses.Supported by the Armed Forces Radiobiology Research Institute, Defense Nuclear Agency, under work unit No. 00082. Views presented in this paper are those of the authors; no endorsement by the Defense Nuclear Agency has been given or should be inferred. Research was conducted according to the principles enunciated in the Guide for the Care and Use of Laboratory Animals prepared by the Institute of Laboratory Animal Resources, National Research Council.     

Amidation of C3 at the thiolester site: stimulation of chemiluminescence and phagocytosis by a new inflammatory mediator

We studied the ability of particle-bound and fluid-phase C3b monomers and monomeric amidated C3 (prepared by treatment of purified human C3 with ammonium chloride or methylamine) to stimulate chemiluminescence of human polymorphonuclear leukocytes (PMN) and monocytes and to promote phagocytosis in the absence of antibody. Particle-bound C3b evoked chemiluminescence from both PMN and monocytes, and fluid-phase C3b (0.5 mg/ml) elicited significant chemiluminescence from PMN but not from monocytes. Amidated forms of C3, both particle bound and fluid phase, were potent stimulators of chemiluminescence from phagocytic cells and caused a significantly greater response than did C3b. The phagocytosis of 1-micron microspheres by PMN and monocytes was enhanced by coating them with purified C3b in an antibody-free system. Microspheres coated with amidated C3 were avidly phagocytized, and to a greater degree than were C3b-coated microspheres. In a direct binding assay with tritiated monomeric C3b and amidated C3, the affinity of the PMN complement receptor type 1 for C3b (Ka = 4.9 X 10(7) L/M) was similar to that for amidated C3 (Ka = 5.7 X 10(7) L/M). However, there was a fourfold increase in the number of apparent binding sites for amidated C3. This increase did not reflect binding of amidated C3 to the complement receptor type 3, because blocking of CR3 with the monoclonal antibody OKM 10 failed to decrease binding of amidated C3. In sites of increased ammoniagenesis, such as the kidney in chronic renal failure, amidated C3 may play a role as an inflammatory mediator by stimulating oxidative metabolism in phagocytic cells.     

Simultaneous determination of isoniazid and p‐aminosalicylic acid by capillary electrophoresis using chemiluminescence detection

It was found that isoniazid (ISO) or p‐aminosalicylic acid (PAS) could enhance the chemiluminescence (CL) emission from Cu (II)‐luminol‐hydrogen peroxide system, and the increased chemiluminescence signals were proportional to their concentrations, respectively. Based on this phenomenon, a chemiluminescence method coupled to capillary electrophoresis (CE) was established for simultaneous determination of ISO and PAS. The CE conditions including running buffer and running voltage were investigated in detail. The effects of the pH of H₂O₂ solution and the concentrations of luminol, H₂O₂ and Cu (II) on the CL signal were also investigated carefully. Under the optimized conditions, the analysis could be accomplished within 10 min, with the limits of detection of 0.3 µg mL^–1 for ISO and 1.1 µg mL^–1 for PAS, corresponding to 7.2 and 26.4 pg per injection (24 nL), respectively. Finally, the method was validated by determining the two analytes in pharmaceutical preparation and spiked human serum samples. The results of pharmaceutical tablet analysis were in good agreement with the labeled amounts. The recoveries for ISO and PAS in human serum were in the range of 92–104% and 90–113%, respectively. Copyright © 2009 John Wiley & Sons, Ltd.     

Optimization of peroxynitrite–luminol chemiluminescence system for detecting peroxynitrite in cell culture solution exposed to carbon disulphide

We established a peroxynitrite–luminol chemiluminescence system for detecting peroxynitrite in cell culture solution exposed to carbon disulphide (CS₂). Three factors, including exposure time to ozone (Factor A), volume of peroxynitrite (ONOO^?) solution (Factor B) and luminol concentrations (Factor C) at three levels were selected and the combinations were in accordance with orthogonal design L₉ (3⁴). Peroxynitrite was generated from the reaction of ozone and 0.01 mol/L sodium azide (NaN₃) dissolved in carbonic acid buffer solution (pH 11), and it was reacted with luminol to yield chemiluminescence. The peak value, peak time and kinetic curve of the light emission were observed. The selected combination conditions were 50 s ozone, 800 µL peroxynitrite and 0.001 mol/L luminol solution. Cell culture solution with CS₂ enhanced the emission intensity of chemiluminescence (F = 8.38, p = 0.018) and shortened the peak time to chemiluminescence (F = 139.00, p = 0.0001). The data demonstrated that this luminol chemiluminescence system is suitable for detecting peroxynitrite in cell culture solutions for evaluating the effect of CS₂ on endothelial cells. Copyright © 2003 John Wiley & Sons, Ltd.     

Development of cytochrome b558 and oxidative metabolism in human granulocytes, monocytes and during differentiation of HL-60 and U 937 cells

The development of cytochrome b558 (Cyt b) as determined spectrophotometrically, was investigated in human polymorphonuclear neutrophils (PMN), monocytes (MN) and during differentiation of HL-60 and U 937 cells induced by retinoic acid (RA) alone or in combination with IFN gamma. O2- release in response to a panel of stimulating agents, ie latex particles, opsonised zymosan, PMA, Con A and fMLP, was monitored by lucigenin-amplified chemiluminescence (CL). In parallel the expression of myeloperoxidase (MPO) was investigated and its catalytic activity on H2O2 related to luminol-amplified CL responses. In mature PMN and MN phagocytes, regardless of the stimulating agent, the O2- production is closely related to Cyt b but not to MPO specific contents. In differentiated HL-60 and U 937 cells, the oxidative metabolism increases in parallel with Cyt b specific contents, both being enhanced by the addition of IFN gamma to the RA treatment. However, marked differences in the O2- production intensities are observed depending on the stimulating agent tested and the state of differentiation considered. The PMA-stimulated O2- production is rather low ie 100 and 20 times less in granulocytic HL-60 and monocyto-macrophagic U 937 cells than in PMN and MN respectively. Latex, zymosan and Con A stimulated responses are close to those of MN, in monocyte-macrophagic U 937 cells. In conclusion, these data show that during differentiation; 1), Cyt b plays a critical role in O2- production; 2), the pathways leading to NADPH oxidase activation are diversely modulated following phagocyte differentiation with IFN gamma and/or with RA.     

Prolongation of oxidative stress by long-lived reactive protein species induced by X-ray radiation and their genotoxic action

Abstract

The formation of long-lived reactive protein species of bovine serum albumin (BSA), ovalbumin, casein and casein hydrolyzate with a half-life of 3–5 hours was shown using chemiluminescence induced by X-ray radiation. It was found that long-lived reactive protein species are capable of generating reactive oxygen species (ROS) (H₂O₂, OH^?, HO₂^{?, 1}O₂) in the aquatic environment over a long period of time in vitro. The interaction of X-ray-irradiated BSA with DNA in vitro led to the formation of 8-oxoguanine (8-oxo-7,8-dihydroguanine), a biomarker of oxidative damage to DNA. Some natural antioxidants are effective scavengers of ROS (inosine, tryptophan, methionine and ascorbate). They protect DNA from the action of long-lived reactive protein species leading to ROS generation and the formation of 8-oxoguanine. The intravenous injection of X-ray radiation-induced, long-lived reactive protein species to rats, as well as the peroral and intraperitoneal administration of these products to mice, gave rise to cytogenetic injuries in the cells of their red bone marrow through the formation of micronuclei in polychromatophilic erythrocytes. The administration of the same natural antioxidants used for in vitro experiments soon after irradiation made it possible to effectively eliminate the genotoxic action of oxidative stress caused by radiation-induced, long-lived reactive protein species. Our data represent clear evidence that the oxidative damage to proteins induced by X-rays is directly involved in the induction of a response to DNA damage in rodents.     

Respective roles of nitric oxide and superoxide radical in the respiratory burst activity of rat polymorphonuclear leukocytes induced by hyperthyroidism

Summary

Administration of single doses of 0.1 mg of L-3,3′,5-triiodothyronine (T₃)/kg for 3 consecutive day to fed rats elicited a marked increase both in the opsonized zymosan-induced luminal-amplified integrated chemiluminescence (ICL) of isolated polymorphonuclear leukocytes (PMN) in the absence (200%) and presence (228%) of L-arginine, and in the rate of superoxide radical (O₂^.-) production (180%). In the presence of L-arginine, the ICL was significantly increased by 57 and 17% over values observed in its absence, in PMN from control rats and T₃-treated animals, respectively, an effect that was completely abolished by Nω-nitro-L-arginine. However, the net L-arginine-dependent ICL was comparable in stimulated PMN from both experimental groups, and the respective rates of nitric oxide (NO^.) production were not significantly different, either in the absence or presence of nitro-L-arginine methyl ester. It is concluded that thyroid hormone-induced respiratory burst activity of rat PMN is not dependent on changes in NO^. synthase activity, but rather on the adaptive increase in O₂^.- generation by NADPH oxidase.