Modulation of locomotor activity of polymorphonuclear cells by cationic substances and cationic lysosomal fractions from human neutrophils

Seven cationic substances — human and egg-white lysozyme, RNase, protamine, histone, poly-l-lysine and poly-l-arginine; five cationic lysosomal fractions from human polymorphonuclears (PMNs); RNA; poly-l-glutamic acid; DNA; heparin; endotoxin; mastocytotropic agent compound 48/80; and cytochalasin B were tested for the influence on chemotaxis and random migration of human PMNs using under-agarose migration and Boyden chambers with two filters and [⁵¹Cr]PMNs. The above substances were either preincubated with PMNs, added to chemoattractants, or used instead of chemoattractants. In under-agarose migration method chemotaxis was inhibited by 11–35% when egg-white lysozyme, protamine, heparin, endotoxin, or compound 48/80 was added to the cells. High concentration of cytochalasin B inhibited chemotaxis by 73 %. Cationic fractions I and V and low concentration of cytochalasin B enhanced chemotaxis by 11%, 41%, and 30%, respectively. When human and egg-white lysozyme, DNA, or cytochalasin B was added to the chemoattractants, motility of PMNs was inhibited. Cationic fractions II and V from human PMNs, when used as chemoattractants, enhanced cellular motility by 143–167%. Random migration was enhanced by heparin and inhibited by cytochalasin B and by cationic fractions from human PMNs. These findings suggest that various cationic and anionic substances and cationic fractions from human PMNs have heterogeneous influence on random migration and chemotactic activity of human PMN. Analysis relating chemotaxis to phagocytosis and to intracellular bactericidal activity (ICBA) has shown several patterns. Protamine, poly-l-lysine, poly-l-arginine, and agent compound 40/80 all inhibit chemotaxis and enhance phagocytosis and ICBA; cationic fractions II and V enhanced all three functions, whereas cytochalasin B suppressed phagocytosis and ICBA and had concentration-dependent modulatory influence on chemotaxis. It implies diverse mechanisms of action and possible impact on inflammatory reactions.Supported by agrant-in-aid from the Medical Research Council of Canada.     

Ontogeny of inflammatory cell responsiveness

Newborn calves, like human infants, are uniquely susceptible to bacterial infections. Part of this increased susceptibility may be related to defects in newborn polymorphonuclear leukocyte (PMN) defensive functions. It remains unclear whether reported deficits in newborn PMN function represent maturational disorders or are manifestations of some form of perinatal suppression phenomenon. We therefore compared the ability of bovine newborn PMNs (less than 24 h old), newborn PMNs (7–10 days of age), fetal PMNs (210–220 days gestational age), and adult PMNs to generate superoxide anion (O ₂ ^– ) as an indicator of respiratory burst activity. Citrated biood was collected, and PMNs were isolated to greater than 95% purity and 98% viability. O ₂ ^– generation was measured as the superoxide dismutase-inhibitable (10 g/ml) reduction of ferricytochrome c (2 mg/ml) after activation of PMNs with phorbol myristate acetate (PMA, 2 g/ml) to directly stimulate protein kinase C. The reaction kinetics were measured (37°C, 550 nm) using a spectrophotometer and chart recorder for continuous monitoring. O ₂ ^– generation was measured for 5 min after the initial lag period and the total nanomoles of O ₂ ^– generated calculated using the extinction coefficient for ferricytochromec. Newborn PMNs (N=10) generated significantly less O ₂ ^– (5.7 ±0.8 nmol O ₂ ^– /10⁶ cells/5 min,P < 0.01) than did adult PMNs (N=14) (9.6 ±2.1 nmol O ₂ ^– /10¹⁰ cells/5 min) or fetal PMNs (N=4) (10.7 ±0.7 nmol O ₂ ^– /10⁶ cells/5 min). PMNs from 7-to 10-day-old calves (N=9) generated almost identical amounts of O ₂ ^– as newborn PMNs (5.7 ±1.6 nmol O ₂ ^– /10⁶ ceils/5 min). There was no difference in measured lag time period between new-born and adult PMNs, but fetal PMNs had significantly reduced (P < 0.01) mean lag time. The data indicated that bovine newborn PMNs have a decreased ability to generate O ₂ ^– in response to PMA stimulation, which persists for at least 7–10 days, and that this functional decrement may be a manifestation of some form of perinatal PMN suppression phenomenon rather than a developmental abnormality since fetal PMNs produced O ₂ ^– as well as adult PMNs.     

Polyl-histidine

Poly-l-histidine (PHSTD) of molecular weight 26,000 induced the generation of large amounts of Superoxide (O ₂ ^– ) and hydrogen peroxide (H₂O₂) in human neutrophils (PMNs). Despite its low solubility at neutral pH, PHSTD was bound very rapidly to the PMN surfaces. Maximal generation of O ₂ ^– took place with 4–5 ×10^–6 M of PHSTD, starting after a lag of about 25 sec and proceeding for 15–17 min at a rate of 150 nmol/10⁷ PMNs/min, suggesting that this polycation is one of the most potent stimulators of O ₂ ^– generation known, PHSTD was found to be non-toxic for PMNs even at millimolar concentrations. Generation of O ₂ ^– by PHSTD depended on extracellular calcium; it was inhibited by calcium channel blockers and by trifluoperazine, and it triggered a sharp rise in intracellular calcium as determined by the Quin 2 fluorescence technique. The generation of both O ₂ ^– and H₂O₂ by PHSTD was partially inhibited by cytochalasin B or (CYB, CYE). On the other hand, CYB markedly enhanced the generation of both O ₂ ^– and H₂O₂ following stimulation of PMNs either by PHSTD, polyarginine, histone, or by antibody-opsonized group A streptococci. Electron microscopic analysis and NBT reduction tests revealed that both PHSTD and PHSTD-opsonized streptococci were avidly phagocytosed by PMNs. Since CYB totally inhibited internalization of both PHSTD and the PHSTD-opsonized streptococci, it was suggested that these agents stimulated oxygen radical generation mainly on the leukocyte surfaces. Complexes (CX) formed between PHSTD and polyanethole sulfonate (a strong polyanion) or between histone and the polyanion mimicked immune CX in their ability to trigger the generation of large amounts of O ₂ ^– which were inhibited by CYB. Generation of O ₂ ^– and chemiluminescence either by PHSTD or by PHSTD-opsonized streptococci were markedly inhibited by poly-l-glutamate, suggesting that PHSTD acted as a cationic agent which interacted via electrostatic forces with some negatively charged sites in the leukocyte membrane. Generation of H₂O₂ by PHSTD was also markedly inhibited by deoxyglucose, KCN, DASA, as well as by the lipoxygenase inhibitors nordihydroguaiaretic acid, phenidone, and propylgallate. On the other hand, cyclooxygenase inhibitors such as aspirin, indomethacin, and piroxicam were inactive, suggesting that arachidonic acid metabolism via lipoxygenase pathway might have been involved in the activation by PHSTD of the NADPH oxidase in PMNs. PHSTD may mimic the effects of antibodies both as an opsonin and as a potent stimulator of the respiratory burst in PMNs and may thus serve as a model for further study of leukocyte-bacteria interactions in infectious and inflammatory sites and of the pathogenicity of immune complexes.Supported by a research grant from Dr. S. M. Robbins of Cleveland, Ohio.     

Modulation of phagocytosis and intracellular bactericidal activity of polymorphonuclear and mononuclear cells by cationic proteins from human granulocytes: Alternative pathway of phagocytic enhancement

Cationic lysosomal proteins from human polymorphonuclears (PMN) were isolated by column chromatography and divided into five fractions. On acrylamide gel electrophoresis, fraction I had four bands slower than lysozyme (LZM) mobility; fraction II had five or six bands slower than LZM; fraction III had at least seven bands slower and two bands faster than LZM; fraction IV contained LZM, two bands faster and a few faint bands slower than LZM; fraction V was composed of almost pure LZM. Partial characterization of the fractions showed presence of neutral protease in fractions I-IV, chymotrypsin in fraction III, lysozyme in fractions IV and V, and phospholipase A₂ mainly in fractions II and III. Modulatory activity of fractions I-V were tested at concentrations up to 50 g/ml. Enhancement of phagocytosis ofStaphylococcus aureus was observed by fractions I, IV, and V, whereas phagocytic index was enhanced by all but the fraction II. Intracellular bactericidal activity (ICBA) was markedly enhanced by fractions I, II, and V. Addition of DNA or cytochalasine B inhibited or abolished phagocytosis-enhancing activity of cationic fractions. Their influence on ICBA was much less pronounced. Fraction III enhanced phagocytic index and phagocytosis ofE. colt, whereas fractions I and II enhanced intracellular bactericidal activity against this bacteria. Enhancement of phagocytic activity of monocytes has also been observed. The data suggest that some cationic lysosomal fractions from human PMNs enhance phagocytosis and phagocytic index by human PMNs and monocytes and intracellular bactericidal activity of human PMNs. This alternative pathway of phagocytic enhancement is unrelated to the previously described enhancers of phagocytosis and may play a role in defense mechanisms against infection.Supported by grants-in-aid from the Medical Reseach Council of Canada and the Wellesley Hospital Research Institute.This study was presented in part at the 9th International RES Congress, Davos, Switzerland, 1982.     

Time course of superoxide generation by leukocytes—The MCLA chemiluminescence system

This study was performed to examine the pattern of Superoxide (O ₂ ^– ·) generation from leukocytes using the O ₂ ^– · 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 O ₂ ^– · generation by leukocytes. The time course of O ₂ ^– · generation obtained by the MCLA-CL system was compared with that by the luminol-dependent CL, electron spin resonance (ESR)/spin trapping, and cytochromec systems. Following stimulation by three different stimulants (PMA, OZ, FMLP), leukocytes continuously generated O ₂ ^– · 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 cytochromec 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 O ₂ ^– · 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 O ₂ ^– · much longer than previously estimated and that the MCLA-CL-system is the most suitable system for the measurement of the O ₂ ^– · generation by leukocytes.     

Alterations in complement-induced shape change and stimulus-specific superoxide anion generation by neonatal calf neutrophils

Increased susceptibility of neonates to infection may be related to defects in newborn neutrophil (PMN) functional activities, including altered responses to complement fragments (Cf) and defective microbicidal activity. We therefore compared the kinetics of newborn and adult bovine PMN membrane shape change responses following stimulation with zymosan-activated plasma (ZAP) as a source of Cf. Measurement of PMN membrane shape change was a rapid, sensitive, and reproducible measure of Cf stimulation within a population of PMNs; a maximum of 67–85% of the PMNs exhibited easily detectable membrane ruffling, lamellipodia formation, and polarity within 2 min. Newborn PMNs exhibited significantly increased (P<0.01) membrane shape change at 20, 30, 60, 120, and 300 sec after Cf stimulation. A maximum of 85.8±3.2% of newborn PMNs exhibited such C-finduced shape changes by 120 sec, which was significantly greater (P<0.01) than the maximum stimulation (67.7±4.3%) attained with adult PMNs. These data indicate enhanced kinetics of induced newborn PMN membrane shape change in response to Cf stimulation. We also compared stimulus-specific superoxide anion (O ₂ ^– ) generation as a measure of respiratory burst activity after incubation of new-born and adult PMNs with soluble (phorbol myristate acetate, PMA) and particulate (opsonized zymosan, OZ) stimuli. When PMA was used as the stimulus, newborn PMNs generated significantly less O ₂ ^– (9.3±0.5 nmol O ₂ ^– /10⁶ PMN,P<0.05) than did adult PMNs (12.4±0.3 nmol O ₂ ^– )/10⁶ PMN). This finding was reversed when OZ was used as the stimulus; newborn PMNs generated significantly more O ₂ ^– (7.7±0.4 nmol O ₂ ^– /10⁶ PMN,P <0.05) than did adult PMN (5.5 ±0.5 nmol O ₂ ^– /10⁶ PMN). These findings collectively document biochemical and morphological differences between newborn and adult PMNs as determined by stimulusspecific O ₂ ^– generation and C_f-induced membrane shape change. Such differences may be important to neonatal disease susceptibility.     

Role of myeloperoxidase in respiratory burst of human polymorphonuclear leukocytes

A comparative study of the respiratory burst [monitored as superoxide (O₂ ^–) production] of normal and myeloperoxidase (MPO) -deficient poiymorphonuclear leukocytes (PMNs) was carried out on 11 MPO-deficient subjects that represent the largest sample of this kind ever studied. The rate of O₂ ^– production by isolated PMNs and whole blood from normal and MPO-deficient subjects was comparable during the initial 30–40 min of incubation with serum-treated zymosan (STZ). Afterwards, the amount of O₂ ^– produced became progressively higher in MPO-deficient cells at least until 120 min incubation with STZ. On the contrary the rate of O₂ ^– production by both cell types in response to 4--phorbol-12-myristate-13-acetate (PMA) was the same. The PMNs of four MPO-deficient subjects were tested for their ingestion ability by counting the number of ingested particles on toluidine blue-stained sections of epoxy-embedded PMN suspensions. Both cell types ingested STZ particles at a comparable rate at early postphagocytic times, whereas on prolonged incubation MPO-deflcient PMNs ingested more STZ particles than normal PMNs. These results suggest that the ingestion capacity of normal cells may undergo a more rapid deterioration than that of MPO-deficient cells during incubation with STZ. Evidence for a higher deterioration of normal PMNs with respect to MPO-deficient PMNs was obtained also from studies on the effect of storage on O₂ ^– generation. After standing at melting ice temperature for 3 h, normal PMNs produced less O₂ ^– than MPO-deficient PMNs in response to PMA, and the difference in O₂ ^– production by the two cell types in response to STZ was evident at earlier postphagocytic periods than with freshly isolated cells. Taken all together these results suggest that normal PMNs and MPO-deficient PMNs do not intrinsically differ in O₂ ^– generating potential and that the difference in the respiratory burst observed during phagocytosis may be accounted for by a more marked deterioration, in normal PMNs, of one or more functions related to the respiratory burst.     

Lipoteichoic acid-antilipoteichoic acid complexes induce superoxide generation by human neutrophils

Human neutrophils (PMNs) which have been incubated with lipoteichoic acid (LTA) from group A streptococci generated large amounts of Superoxide (O ₂ ^– chemiluminescence and hydrogen peroxide when challenged with anti-LTA antibodies. Cytochalasin B further enhanced O ₂ ^* generation. The onset of Of generation by the LTA-anti-LTA complexes was much faster than that induced by BSA-anti-BSA complexes. LTA-treated PMNs generated much less O ₂ ^* when challenged with BSA complexes, suggesting that LTA might have blocked, nonspecifically, some of the Fc receptors on PMNs. PMNs treated with LTA-anti-LTA complexes further interacted with bystander nonsensitized PMNs resulting in enhanced Of generation, suggesting that small numbers of LTA-sensitized PMNs might recruit additional PMNs to participate in the generation of toxic oxygen species. Protelolytic enzyme treatment of PMNs further enhanced the generation of O ₂ ^– by PMNs treated with LTA-anti-LTA. Superoxide generation could also be induced when PMNs and anti-LTA antibodies interacted with target cells (fibroblasts, epithelial cells) pretreated with LTA. This effect was also further enhanced by pretreatment of the target cells with proteases. PMNs incubated with LTA released lysosomal enzymes following treatment with anti-LTA antibodies. The amounts of phosphatase,-glucoronidase,N-acetylglucosaminidase, mannosidase, and lysozyme release by LTA-anti-LTA complexes were much smaller than those released by antibody or histone-opsonized streptococci, suggesting that opsonized particles are more efficient lysosomal enzyme releasers. However, since the amounts of O ₂ ^– generated by the LTA complexes equaled those generated by the opsonized particles, it is assumed that the signals for triggering a respiratory burst and lysosomal enzyme secretion might be different.Supported by a research grant from Dr. S. M. Robbins of Cleveland Ohio, and by grants HL-288442, HL-31963 and GM-29507, from the National Institutes of Health, Bethesda, Maryland, and by grant IM-432 from the American Cancer Society.     

Altered function of synovial fluid granulocytes in patients with acute inflammatory arthritis

In rheumatoid arthritis (RA) a chronic inflammatory state exists in which the synovial fluid is periodically filled with large numbers of polymorphonuclear leukocytes (PMNs). Oxygen radicals produced by these cells have been implicated as mediators of tissue damage and may be directly involved in the pathogenesis of RA. We examined the production of oxygen radicals by synovial fluid PMNs (SFPMNs) and peripheral blood PMNs (PB-PMNs) by measuring chemiluminescence (CL) as well as Superoxide anion (O ₂ ^– ) release. Increased spontaneous CL in the presence of luminol and increased CL in response to phorbol myristate acetate (PMA) was observed in SF-PMNs when compared to PB-PMNs. When zymosan was used as the stimulus in the absence of luminol, a slightly lower CL response was observed in SF-PMNs as compared to PB-PMNs. No significant differences were observed in the generation of O ₂ ^– generation with any stimulus. Preincubation of normal PBPMNs in 10% synovial fluid enhanced the luminol-dependent spontaneous and PMA-stimulated CL as well as zymosan-stimulated CL. When O ₂ ^– release from normal PB-PMNs pretreated with 10% synovial fluid was compared to untreated controls, enhancement of spontaneous O ₂ ^– release was observed. PMA- and zymosan-stimulated responses did not differ significantly from controls. Increased spontaneous and PMA-stimulated release of myeloperoxidase (MPO) was also observed in normal PB-PMNs pretreated with synovial fluid. These findings may explain the increased luminol-dependent CL since this type of CL requires the presence of MPO. Our findings suggest that the enhanced chemiluminescence observed in normal PMNs treated with synovial fluids may be related to increases in spontaneous O ₂ ^– generation and myeloperoxidase release. Increased MPO release may account for enhanced CL observed in SF-PMNs.     

Effect of antiinflammatory agents on neutrophil superoxide production in rheumatoid arthritis

Granulocyte superoxide production by different stimuli was studied in 14 patients suffering from rheumatoid arthritis, and in four cases defective (O ₂ ^– generation was shown. The effect of two chemically related drugs, such as indomethacin and oxamethacin, was also evaluated, since we have previously investigated the action of antiinflammatory agents on cell locomotion. Indomethacin did not affect O ₂ ^– production, whereas oxamethacin reduced significantly superoxide generation in PMNs from all subjects tested. Moreover, the extent of the effect was dependent on the stimulant used, being larger when the activation of O ₂ ^– generating system was induced by opsonized zymosan.     

Lysophosphatides enhance superoxide responses of stimulated human neutrophils

Human neutrophils which are pretreated with subtoxic concentrations of a variety of lysophosphatides (lysophosphatidytcholine, lysophosphatidylcholine oleoyl, lysophosphatidylcholine myrioyl, lysophosphatidylcholine stearoyl, lysophosphatidylcholine gamma-O-hexadecyl, lysophosphatidylinositol, and lysophosphatidylglycerol) act synergistically with neutrophil agonists phorbol myristate acetate, immune complexes, poly-L-histidine, phytohemagglutinin, andN-formyl methionyl-leucyl-phenyalanine to cause enhanced generation of superoxide (O ₂ ^– ). None of the lyso compounds by themselves caused generation of O ₂ ^– . The lyso compounds strongly bound to the neutrophils and could not be washed away. All of the lyso compounds that collaborated with agonists to stimulate O ₂ ^– generation were hemolytic for human red blood cells. On the other hand, lyso compounds that were nonhemolytic for red blood cells (lysophosphatidylcholine caproate, lysophosphatidylcholine decanoyl, lysophosphatidylethanolamine, lysophosphatidylserine) failed to collaborate with agonists to generate synergistic amounts of O ₂ ^– . However, in the presence of cytochalasin B, both lysophosphatidyiethanolamine and lysophosphatidylserine also markedly enhanced O ₂ ^– generation induced by immune complexes. O ₂ ^– generation was also very markedly enhanced when substimulatory amounts of arachidonic acid or eicosapentanoic acid were added to PMNs in the presence of a variety of agonists. On the other hand, neither phospholipase C, streptolysin S (highly hemolytic), phospholipase A₂, phosphatidylcholine, nor phosphatidylcholine dipalmitoyl (all nonhemolytic) had the capacity to synergize with any of the agonists tested to generate enhanced amounts of O ₂ ^– . The data suggest that in addition to long-chain fatty acids, only those lyso compounds that possess fatty acids with more than 10 carbons and that are also highly hemolytic can cause enhanced generation of O ₂ ^– in stimulated PMNs.Supported by a research grant from Dr. Samuel M. Robbins, Cleveland, Ohio; by grant IM-432 from the American Cancer Society; and grants HL-28442-07, HL-31963, and GM-29507 from the National Institutes of Health, Bethesda, Maryland.Dr. Isaac Ginsburg was a visiting professor in the Department of Pathology at The University of Michigan when this research was conducted.     

Dissociation of phagocytosis,metabolic stimulation and lysosomal enzyme release in human leukocytes

In this paper studies are reported concerning the relationship between particle binding to the plasma membrane of human polymorphonuclear leukocytes (PMN's), phagocytosis, generation of oxidative metabolites, and the release of lysosomal enzymes by these cells. Superoxide (O ₂ ^– ) generation by, and lysosomal enzyme release from normal PMN's and cytochalasin B-treated cells were measured. We have found that neither phagocytosis nor lysosomal degranulation are prerequisites for enhanced O ₂ ^– generation. Cytochalasin B-treated PMN's, incapable of ingesting particles but still able to bind particles to membrane receptors, generated enhanced amounts of O ₂ ^– when treated with serum-treated zymosan (STZ), a C3b receptor stimulus, or with aggregated IgG (agg IgG), an Fc receptor stimulus. Moreover, the soluble stimulators complement component C5a, phorbol myristate acetate (PMA), and calcium ions in the presence of the ionophore A23187, also increased the O ₂ ^– production of these cells. In all cases a time and dose-dependent stimulation was found of both the O ₂ ^– generation and the lysosomal enzyme release, but there was no correlation between ability of any stimulus to provoke enzyme release and its ability to stimulate O ₂ ^– generation. When PMN's were preincubated with 5×10^–4 M hydrocortisone-Na-succinate, lysosomal enzyme exocytosis with the immune reactants was inhibited 16–35%. Hydrocortisone also inhibited O ₂ ^– generation, except when STZ was used as the stimulus. Thus, in the case of stimulation of functional processes of PMN's via the C3b receptor, hydrocortisone inhibits membrane fusion without interfering with one of the early biochemical events (O ₂ ^– production).Financially supported by a travel grant from the Netherlands Organization for the Advancement of Pure Research (Z.W.O.).     

Effects of gold compounds on function of phagocytic cells

The effect of sodium aurothiomalate and auranofin on the generation of superoxide anions (O ₂ ^– ) by polymorphonuclear leukocytes (PMNLs) and adherent mononuclear phagocytic cells (AMNCs) has been investigated. Sodium aurothiomalate at final concentrations of 1, 10, and 100 g Au/ml and auranofin ranging from 0.1 to 2.0 g Au/ml were used in the reactions involving all celt types. Results have been compared between cells drawn from normal controls and patients with active rheumatoid disease. The effect of gold compounds on both cell types was assessed following activation by phorbyl myristate acetate (1×10^–8 M) and N-formyl-methionylleucyl-phenylalanine (1×10^–4 M) using a cytochromec reduction method. Sodium aurothiomalate at the maximum concentration modestly inhibited O ₂ ^– generation by PMNLs but not AMNCs. Auranofin inhibits O ₂ ^– generation by both cell types. Inhibition of cells from patients with rheumatoid arthritis was greater than that seen with cells from normal controls.     

Neutrophil responses to intravascular pneumococcal sonicate

Leukopenia and pulmonary leukostasis are prominent features in patients succumbing to pneumococcal (PNC) infections. We examined mechanisms involved in recruitment of polymorphonuclear neutrophils (PMNs) into pulmonary capillaries and alveolae after PNC sonicate injection. We showed that by 15 min postinjection, PMN chemotactic activity was found in bronchoalveolar lavage (BAL) fluids and increased with time until the end point of the study at 90 min. Accompanying the increased chemotactic activity in BAL fluids was a decrease in circulating PMNs more pronounced in the femoral artery (FA) then the pulmonary artery (PA). Super-oxide anion (O ₂ ^– ) production by peripheral PMNs was depressed following PNC sonicate injection, and comparison of FA and PA showed that FA PMNs produced less O ₂ ^– than PA PMNs. PA PMNs also showed enhanced random migration when compared to the depressed random migration of FA PMNs. This study demonstrated that an intravascular challenge of PNC sonicate was associated with increased chemotactic activity for PMNs in BAL fluid. Fewer PMNs and altered PMN function resulted from passage through the pulmonary microvasculature after PNC sonicate injection.Supported in part by USDHHS grant CA 20819 from the National Cancer Institute and from the Veterans Administration Research Service.     

Effects of psoriatic scale extracts on oxidative metabolic responses in granulocytes assessed by chemiluminescence

The peptide fractions containing C5a_desarg and anionic neutrophil activating peptide (ANAP) and the low-molecular-weight fractions containing LTB₄ in psoriatic scale extracts exert a potent polymorphonuclear leukocyte (PMN) chemotactic activity. To evaluate whether any of these components in the psoriatic scale extracts stimulate a respiratory burst in PMNs, we studied luminol-dependent chemiluminescence (CL) in PMNs under their direct stimulation. After fractionation by molecular sieve chromatography, pooled peptide fractions eluting near the cytochromec marker from eight samples induced high CL in PMNs, whereas those eluted in low-molecular-weight fractions after vitamin B₁₂ marker were very weak in this response. Moreover, in six samples such low-molecular-weight fractions eluting near the vitamin B₁₂ marker were found to have a suppressive effect on the oxidative metabolism of neutrophils induced by other stimulators. These findings suggest that the fraction of chemotactic peptides in psoriatic scales plays a major role in the activation of PMNs, inducing tissue damage in the psoriatic lesional epidermis. On the other hand, at least some low-molecular-weight components in psoriatic scales seem to exert an inhibitory effect on the respiratory burst induced by other activators.     

Patients with adult respiratory distress syndrome (ARDS) demonstrate in vivo neutrophil activation associated with diminished binding of neutrophil-specific monoclonal antibody 31D8

Neutrophils (PMNs) from patients with adult respiratory distress syndrome (ARDS) were assessed for light scattering, membrane potential, and phagocytic responses using fluorescent probes and flow cytometry to evaluate individual cells. Qualitative and quantitative oxidant responses were measured by nitroblue tetrazolium (NBT) and cytochromec reduction assays, respectively. The results were correlated with the proportion of cells binding the PMN subset-specific monoclonal antibody 31D8. Despite an increased forward scatter signal (4.3±1.6 vs. 1.3±1.1 ARDS vs. control,P=0.041) and spontaneous NBT test (12.6±4.7% vs. 2.5 ±0.8% positive, ARDS vs. control,P=0.033) indicating in vivo priming of ARDS PMNs, there were no significant differences between ARDS and control PMNs in assays of stimulated membrane potential, NBT, and O·₂ ^– production or phagocytosis. However, positive correlations between the degree of prestimulus forward light scatter and subsequent O·₂ ^– production to FMLP (r=0.673,P=0.006) and between the percentage of bands and the O·₂ ^– response to PMA (r=0.660,P =0.003), suggest that the great variability of the ARDS PMN functional responses may relate to varying degrees of in vivo cell priming and/or deactivation. ARDS PMNs demonstrated a significantly lower percentage of 31D8 positive cells (73.4 ±7.5% vs. 94.5±1.6%,P=0.012) and a lower level of 31D8 staining when compared to normals (60.1±10.4% of control level,P=0.001). The lower 31D8 expression did not directly correlate with any functional parameter tested or with the proportion of immature cells. However, patients receiving an intravenous PGE₂1-infusion demonstrated a significant increase in 31D8 staining relative to controls and inhibition of PMA-stimulated O·₂ ^– production. The data suggest that the function of PMNs from ARDS patients varies widely and reflects great in vivo variation in cell priming. While the mechanism responsible for the lowered expression of the 31D8 antigen and its apparent modulation by PGE₁ is unknown, 31D8 may be an indirect marker for in vivo stress factors that regulate the preferential release of a structurally distinct PMN subset from the bone marrow.This work was supported in part by NIH grant P30-DK35747, a University of California, Davis, Dean's Research Grant, and The Upjohn Company.     

Evidence that OH· production by human PMNs is related to prostaglandin metabolism

Recent studies indicate that human granulocytes generate OH· during the phagocytosis of zymosan particles. Several theoretical considerations suggested to us that this OH· production might be related to prostaglandin metabolism, particularly the observation that OH· is generated by the reduction of hydroperoxides in microsomal systems. In our studies, we tested the importance of prostaglandin metabolism in the production of OH· by human granulocytes (PMNs). Indomethacin and aspirin at concentrations known to impair cyclooxygenase activity decreased OH· production by PMNs during the phagocytosis of zymosan particles. Phenol, which is known to alter prostaglandin metabolism, ablated OH· completely. None of these drugs at the concentrations used impaired the generation of O ₂ ^- or H₂O₂ by PMNs, as indicated by their failure to diminish significantly the generation of chemiluminescence. Thus, the decrement in OH· production by these drugs could not be attributed to a nonspecific effect on the production of O ₂ ^- or H₂O₂. These experiments therefore, indicate that the model for OH· production observed during prostaglandin synthesis with microsomal systems applies to human granulocytes.     

Properties of calcium ionophore-induced generation of superoxide anion by human neutrophils

Exposure of human neutrophils to the calcium ionophore, A23187, eventuates in a time- and concentration-dependent generation of Superoxide anion (O ₂ ^– ) in the presence but not absence of extracellular calcium. The selective requirement for calcium is demonstrated by the observation that magnesium caused a dose-related inhibition of A23187-stimulated O ₂ ^– generation. Preincubation of neutrophils with cytochalasin B prior to their interaction with A23187 results in a significant enhancement of O ₂ ^– production. The activity of the O ₂ ^– -generating system was maximum at 37°C and was significantly curtailed at lower and higher temperatures. A23187-induced O ₂ ^– generation was inhibited by the sulfhydryl reagents.N-ethyl maleimide (NEM) and iodoacetic acid (IA), and by the metabolic inhibitor 2-deoxy-D-glucose (2-DG) in the absence of glucose and cytochalasin B. Cyanide was inactive. Therefore, A23187 represents a useful pharmacologic probe for investigating the divalent cation and metabolic requirements of the neutrophil O ₂ ^– -generating system.     

Neutrophil migration,oxidative metabolism,and adhesion in elderly and young subjects

Objective. To evaluate neutrophil functions in the elderly.Methods. We investigated the PMN migration in vivo and PMN superoxide production and adhesion in response to a variety of compounds; PMN have been isolated both from blood and from a skin experimental exudate (obtained by Senn's skin window technique) of 25 normal elderly and of 25 normal young control subjects.Results. No difference was found in PMN migration in vivo (62.9±21.3×10⁶ and 65.5±9.1×10⁶ PMN/cm²/24 hours in elderly and young subjects respectively), neither were different the adhesion under basal condition and after some stimuli and the superoxide production in basal condition and in response to STZ and PMA in two groups. In elderly subjects superoxide production, in response to fMLP, markedly resulted lower than in young controls both by circulating PMNs (3.6±2.7 and 9.3±3.3 nMOLES O ₂ ^– /10⁶ PMN respectively, p<0.0001) and by exudate PMNs (13.6±4.3 and 19.4±6 nMOLES O _2– ^{10 6} PMNs respectively, p<0.005).Conclusion. Many PMN functions in the elderly do not differ from young people, suggesting that the overall defense function of these cells is not affected by aging. The only parameter that we have found to be different between the two groups is the poor superoxide production after fMLP stimulus of PMNs. The stimulus- and function-specificity of this defect in PMNs from elderly subjects indicates the existence of a dysregulation of the signal transduction pathway distal to fMLP receptor and proximal to NADPH oxidase activation.     

Stimulation of neutrophil oxidative metabolism by indomethacin

Human neutrophils exposed to indomethacin demonstrate an enhanced capacity for superoxide ion (O ₂ ^– ) generation when stimulated with opsonized zymosan. Enhancement is not seen with indomethacin-treated cells exposed to solube oxidative stimuli. To further investigate this phenomenon, O ₂ ^– generation, chemiluminescence, and phagocytosis were assessed in human neutrophils preincubated with indomethacin. Zymosan-stimulated O ₂ ^– release was increased from 150 to 300% of controls in neutrophils exposed to 400 g/ml. indomethacin. Enhancement was not reversed by removal of indomethacin from the medium prior to addition of the stimulus and was dose-dependent at drug concentrations of 5 to 400 /ml. Neutrophils exposed to methacin alone also generated more O ₂ ^– than control cells, although this increment was not sufficient to account for the degree of enhancement seen when indomethacintreated cells were exposed to zymosan. Neutrophil cehmiluminescence induced by zymosan was also increased by exposure to indomethacin, and at a drug concentration of 400 g/ml (1.1 mM), enhancement randed from 253 to 333% of controls. As was observed with O ₂ ^– generation, chemiluminescence of neutrophils was increased in the presence of indomethacin alone, although, to a degree far less than was seen when drug-treated cells were stimulated with zymosan. Phagocytosis of radiolabeledS. aureus by neutrophils incubated with indomethacin was increased 13±5% over controls (P<0.01,n=5), but was unaltered by incubation of cells with the buffer used to solubilize the drug. The modest degree of enhancement of phagocytosis suggests that increased particle uptake is not the sole mechanism of oxidative enhancement. The data are in keeping with the hypothesis that indomethacin has a direct effect on the neutrophil plasma membrane and/or the O ₂ ^– -forming oxidase.