Glutathione-induced enhancement of neutrophil locomotion

Efficacy of screening immune system function in at-risk newborns

This paper explores the introduction of a screening test to highlight impaired immune system status for newborn infants and its efficacy as a preventative clinical measure. Moreover, it is suggested that screening of the infantile immune system has the potential to highlight susceptibility to a range of infant and childhood diseases, bestowing an opportunity to introduce early intervention to reduce the incidence of these diseases. Development of the neonatal immune system is an important health issue, implicated in many childhood problems such as allergies, infection, and autoimmunity. The neonate has a limited immune system and ability to combat bacteria. Depleted levels of the tripeptide reduced glutathione (GSH) have been linked to numerous conditions and its intracellular level is acknowledged as an indicator of immune system function. Introduction of an immune system screening programme for infants is formally reviewed and assessed. Several benefits are reported in the treatment of impaired immune systems, a trial screening programme is proposed for at-risk infants to gather further evidence as to its efficacy. Infants at risk of impaired immune system function include cystic fibrosis, premature infants, and low birth weight infants. The interventions include breastfeeding, milk banks, and appropriate formula to support the immune system.

Hepatotoxic and immunotoxic effects produced by 1,3-dibromopropane and its conjugation with glutathione in female BALB/c mice

To determine a possible role of glutathione (GSH) conjugation in 1,3-dibromopropane (1,3-DBP)-induced hepatotoxicity and immunotoxicity, female BALB/c mice were treated orally with 1,3-DBP. Based on the liquid chromatography/electrospray ionization-tandem mass spectrometry (LC/ESI-MS) analyses, two forms of S-bromopropyl GSH were observed at m/z 427.9 and 429.9 in the positive ESI spectrum with a retention time of 5.29 and 5.23 min, respectively. Following single treatment of mice with 150, 300 or 600 mg/kg 1,3-DBP for 12 hr, the amount of S-bromopropyl GSH was detected maximally in liver homogenates at 600 mg/kg 1,3-DBP. Hepatic GSH levels were significantly decreased by treatment with 1,3-DBP. In a time course study, production of S-bromopropyl GSH rose maximally 6 hr after treatment and decreased gradually thereafter. The liver weights were significantly increased by treatment with 600 mg/kg 1,3-DBP. When mice were treated orally with 600 mg/kg 1,3-DBP for 12 hr, the activities of serum alanine aminotransferase (ALT) and aspartate aminotransferase (AST) were increased by 365- and 83-fold. In addition, oral 1,3-DBP significantly suppressed the antibody response to a T-dependent antigen at 600 mg/kg 1,3-DBP. 1,3-DBP elevated hepatic levels of malondialdehyde and suppressed the activities of some hepatic enzymes involved in anti-oxidation. Taken together, the formation of GSH conjugate with 1,3-DBP may deplete cellular GSH and, subsequently, produce hepatotoxicity and immunotoxicity via damage to the cellular anti-oxidative system.

Role of glutathione conjugation in the hepatotoxicity and immunotoxicity induced by 1-bromopropane in female BALB/c mice

1-Bromopropane (1-BP) is used as a cleaning agent or adhesive solvent in the workplace. In the present study, the hepatotoxic and immunotoxic effects of 1-bromopropane and its conjugation with glutathione (GSH) were investigated in female BALB/c mice. The animals were treated orally with 200, 500 and 1000 mg kg(-1) of 1-BP in corn oil for a dose response study or treated orally with 1000 mg kg(-1) of 1-BP for 6, 12, 24 and 48 h for a time course study. The hepatic and splenic contents of GSH were significantly decreased by 1-BP in a dose-dependent manner. S-propyl GSH was identified in livers following treatment with 1-BP by liquid chromatography-electrospray ionization tandem mass spectrometry. When the production of conjugates from 1-BP was investigated in livers following oral treatment with 1000 mg kg(-1) of 1-BP for 6, 12, 24 and 48 h, the GSH conjugates were detected maximally 6 h after treatment. Treatment of mice with 1-BP increased the serum activity of alanine aminotransferase dose-dependently. The oral 1-BP treatment significantly suppressed the antibody response to a T-dependent antigen and the production of splenic intracellular IL-2 in response to Con A in a dose-dependent manner. The present results suggested that 1-BP could cause hepatotoxicity and immunotoxicity as well as depletion of GSH content due to the formation of GSH conjugates.

Sodium azide enhances neutrophil migration and exocytosis: involvement of nitric oxide, cyclic GMP and calcium

Azide, in the absence of other stimuli, enhanced neutrophil migration in a chemotactic way. The effect of azide on migration was significant at concentrations > or = 1 microM and maximal at 10 microM azide. Although azide itself could not induce exocytosis, at concentrations > or = 10 microM azide enhanced exocytosis induced by a combination of the chemotactic peptide f-methionyl-leucyl-phenylalanine (fMLP) and cytochalasin B (CB). Azide can be oxidized by catalase and myeloperoxidase in the presence of H2O2, resulting in the generation of nitric oxide (NO). Formation of NO from azide was detected by ESR spectroscopy with carboxy-PTIO as a NO-selective probe, and by measurement of nitrite formation. Azide-induced migration, and the enhancement by azide of fMLP/CB-induced exocytosis, were blocked by pre-incubating cells with aminotriazole, an inhibitor of catalase and myeloperoxidase, suggesting that the effect of azide was mediated by NO. Azide-induced migration, but not the enhancement by azide of fMLP/CB-induced exocytosis, was inhibited to a large extent by inhibitors of soluble guanylate cyclase and by inhibitors of cGMP-dependent protein kinase. These observations suggest that azide-induced migration is mediated via cGMP and cGMP-dependent protein kinase, while the enhancement of fMLP/CB-induced exocytosis is not. Azide caused a sustained elevation of the intracellular Ca2+-concentration of neutrophils stimulated with fMLP/CB, which was not affected by inhibitors of the cGMP-signalling cascade. Since neutrophil exocytosis has been shown to be closely correlated with increases in intracellular Ca2+, a further increase by azide of the intracellular Ca2+-level of cells stimulated with fMLP/CB provides a likely mechanism for the enhancement of fMLP/CB-induced exocytosis by azide.

Polymorphonuclear phagocytosis and killing in workers occupationally exposed to hexachlorobenzene

Phagocytosis and intracellular killing of Candida albicans and Candida pseudotropicalis by neutrophils from 66 workers exposed to chlorinated compounds were studied. Phagocytosis with both antigens was normal in all the workers studied. However, lytic activity of the neutrophils in the presence of both antigens, C. albicans and C. pseudotropicalis was impaired. These findings might be related to a derangement in the antioxidant mechanisms and to some interference with GSH levels that might lead to the abnormal functions observed in neutrophils.

Intracellular but not extracellular conversion of nitroxyl anion into nitric oxide leads to stimulation of human neutrophil migration

Considerable controversy exists in the literature with regard to the nature of the agent mediating the biological effects of nitroxyl (NO-) donors. Here it is demonstrated that Angeli's salt (AS), a generator of NO-, enhanced human neutrophil migration. Under aerobic conditions, AS was converted to peroxynitrite to a small extent. However, using methionine, a scavenger of peroxynitrite, it was shown that peroxynitrite was not involved in AS-induced migration. AS equally enhanced human neutrophil migration under aerobic and anaerobic conditions, which strongly suggests that extracellular conversion of NO- to .NO by oxygen was not required. Furthermore, metHb and L-cysteine, which react more readily with NO- than with .NO, inhibited AS-induced migration, whereas the response towards gaseous .NO remained unaffected. AS induced an increase in the intracellular level of cGMP, although the curves for migration and cGMP level appeared to be slightly different in their concentration dependence. An inhibitor of soluble guanylate cyclase and antagonists of cGMP-dependent protein kinase had a more pronounced inhibitory effect on .NO-induced migration than on AS-induced migration. This suggests that the cGMP signalling cascade is partially, but not solely, responsible for AS-induced migration. As it has been demonstrated that soluble guanylate cyclase can only be activated by .NO, and not by NO-, these data indicate that NO- is at least partly converted intracellularly to .NO.

N-acetylcysteine causes a transient stimulation of neutrophil migration

Random migration of rabbit peritoneal neutrophils was enhanced in a chemokinetic way by N-acetylcysteine (NAC) in a small concentration range (10-400 microM). The enhancement was due to the cysteine moiety in the molecule, because cysteine equally caused a stimulation of random migration. The stimulating effect of NAC or cysteine largely disappeared when cells were preincubated with NAC or cysteine for 30 min before submission to chemotaxis, indicating that desensitization occurs. The stimulating effect of NAC was dependent on extracellular calcium. Because the Ca2+-dependence of migration by electroporated cells differed from that of intact cells, and because calcium channel blockers inhibited the effect of NAC, the calcium-dependent target is probably located inside the cell rather than on the cell surface. In contrast with fMLP, NAC did not cause an upregulation of CD11b expression of cells in suspension. Inhibitors of guanylate cyclase and of cGMP-dependent protein kinase (G-kinase) inhibited stimulation of migration by NAC, suggesting that cGMP played a decisive role in the stimulatory effect of NAC.

Defective neutrophil function in workers occupationally exposed to hexachlorobenzene

In this work we have studied the respiratory burst and chemotaxis of polymorphonuclear leukocytes from 51 workers exposed to chlorinated compounds, which were compared with those of non-exposed, age- and sex-matched individuals. These two neutrophil functions were significantly reduced as compared to controls. No correlation was observed between the length of exposure, hexachlorobenzene (HCB) blood concentrations and neutrophil chemotaxis or the extent of nitroblue tetrazolium reduction.

The effect of sodium aurothiomalate on stimulated and non-stimulated migration by human neutrophils: the role of cyclic GMP

Preincubation of human neutrophils with aurothiomalate had little effect on random migration or chemotactic migration towards the chemotactic peptide fMLP. However, a strong enhancement of migration was observed when aurothiomalate was present in a concentration gradient; the effect of the drug was chemotactic rather than chemokinetic. Thiomalate also caused a chemotactic enhancement of migration but here a tenfold higher concentration of the drug was required as compared with aurothiomalate. Aurothiomalate caused an increase of cellular cGMP level, and inhibitors of guanylate cyclase inhibited the activating effect of aurothiomalate. Three specific antagonists of cGMP-dependent kinase (G-kinase) strongly inhibited aurothiomalate-induced migration of electroporated neutrophils. The results suggest that stimulation of migration by aurothiomalate is mediated by cGMP and a G-kinase. Monoclonal anti-IL-8 inhibited aurothiomalate-induced stimulation of migration. Though no increased release of IL-8 could be established upon exposure of neutrophils to aurothiomalate, it seems conceivable that the stimulating effect of aurothiomalate is mediated by IL-8.

Glutathione-dependent modulation of exhausting exercise-induced changes in neutrophil function of rats

Reduced glutathione (GSH) plays a central role in maintaining an effective synergism between various physiological and exogenous antioxidants. We tested the effects of GSH and N-acetylcysteine (NAC, a pro-GSH clinical drug), intraperitoneal (i.p.) supplementation and GSH deficiency on exercise-induced leucocyte margination and neutrophil oxidative burst activity. GSH, NAC (1g.kg-1) or placebo saline was i.p. injected (one or eight times) to male rats (n > or = seven per group). The GSH-deficient rats were prepared by i.p. injections of L-buthionine-[SR]-sulphoximine (BSO, 6 mmol.l-1.kg-1) twice daily for 4 days. Exercised animals were subjected to treadmill run to exhaustion. Exhausting treadmill exercise significantly decreased peripheral blood leucocyte count in the controls (P < 0.001). Such exercise-associated leucocyte margination was prevented by GSH supplementation. Peripheral blood neutrophil counts were significantly higher (P < 0.02) in the GSH-supplemented groups compared to the placebo control groups. Exercise-induced increase in peripheral blood neutrophil oxidative burst activity as measured by luminol-enhanced chemiluminescence per volume of blood tended to be higher in the GSH-supplemented group (P < 0.10), and lower in the GSH-deficient rats (P < 0.02). In these experiments, for the first time we have shown that GSH supplementation can induce neutrophil mobilization and decrease exercise-induced leucocyte margination, and that exogenous and endogenous GSH can regulate exercise-induced stimulation of the neutrophil oxidative burst.

The role of cyclic nucleotides in neutrophil migration

1. The literature concerning the effects of cAMP and especially cGMP on neutrophil migration is reviewed. 2. Experiments with agents that enhance cGMP level, and with electroporated neutrophils in which cGMP was introduced, show that the nucleotide has different effects. There is a maximal stimulation at a specific concentration while higher concentrations are less effective or even inhibitory. 3. Some physiologically active peptides such as granulocyte-macrophage colony-stimulating factor (GM-CSF), atrial natriuretic factor, and endothelin appear to modify neutrophil migration via a cGMP-dependent mechanism. 4. Dependent on concentration and conditions (random migration vs. fMLP-activated migration, using nitric oxide (NO), NO donors, and inhibitors of NO synthase), NO has stimulatory or inhibitory effects on neutrophil migration. 5. The differential effects of cGMP and cAMP on neutrophil migration are discussed with regard to intracellular actions, metabolism, interaction with calcium, and relation to structural changes required for cell movement.

The effect of cyclic GMP and cyclic AMP on migration by electroporated human neutrophils

Human neutrophils retain the ability to migrate when they are electroporated; this enables the study of potential mediators by direct application to the cell interior. Cyclic GMP strongly enhances random migration by electroporated human neutrophils. The effect is maximal at a concentration of 10 microM. The potentiating effect of cGMP is chemokinetic. Chemotaxis of electroporated neutrophils activated by formylmethionylleucylphenylalanine (fMLP) is stimulated by cGMP at concentrations up to 10 microM; higher concentrations inhibit chemotaxis. Cyclic AMP resembles cGMP in that both activation and inhibition may occur. However, activation occurs over a very small concentration range, and inhibition is a predominant feature. Cyclic nucleotide-activated migration is dependent on Ca2+, in contrast with activation of migration by fMLP.

Captopril-induced enhancement of fMet-Leu-Phe-activated enzyme secretion from neutrophils

Captopril enhanced exocytotic enzyme secretion from rabbit peritoneal neutrophils activated by suboptimal concentrations of fMet-Leu-Phe. For optimal enhancement the presence of Ca2+ was required. Captopril did not induce enzyme secretion by its own, and there was little effect on PMA-induced exocytosis. Cyclic GMP level of neutrophils was transiently enhanced by captopril. Methylene blue inhibited both captopril-induced enhancement of enzyme release and of cGMP levels. From our studies and from reports in the literature it appears that cGMP level-enhancing compounds may have both activating or inhibitory properties.

Modulation of neutrophil migration by captopril

Because neutrophils might be involved in some of the therapeutic effects of captopril we studied the effect of captopril on neutrophil migration. Captopril strongly enhances migration by rabbit peritoneal neutrophils. Stimulation by captopril was maximal at a concentration of about 400 microM; at higher concentrations stimulation decreased again. The stimulatory effect is partly chemokinetic, and partly chemotactic. Captopril disulfide also stimulates migration, though the stimulating effect is less than that of captopril. Captopril-induced stimulation of migration was strongly inhibited by pretreatment of neutrophils with pertussis toxin, indicating that the stimulation is mediated by a pertussis toxin-sensitive G protein. Intact sulfhydryl groups on the cell surface are required for stimulation because inactivation of these groups with the non-penetrating sulfhydryl reagent 5,5'-dithiobis(2-nitrobenzoic acid) (DTNB) completely abolishes the stimulating effect of captopril and of captopril disulfide. Both captopril and captopril disulfide cause an enhancement of cyclic GMP level in the neutrophil. The enhancement of both the cGMP level and that of migration is blocked by methylene blue and by LY-83583, suggesting that the stimulating effect of captopril is mediated by cGMP. Inhibitors of NO generation, such as NG-monomethyl-L-arginine, NG-nitro-L-arginine and canavanine have no effect on captopril-induced stimulation of migration, indicating that NO is not involved in the stimulating effect of captopril.