Inhibition of immune opsonin-independent phagocytosis by antibody to a pulmonary macrophage cell surface antigen

Unlike other hamster phagocytes, hamster pulmonary macrophages (PM) avidly ingest albumin-coated latex particles in the absence of serum. They also possess a highly specific cell surface antigen. To evaluate the relationship between these two characteristics, PM were incubated with mouse monoclonal antibody directed against the PM antigen. After unbound antibody was removed, the amount of bound antibody and the phagocytic capability of PM were measured by flow cytometry and fluorescence microscopy. Maximum antibody binding produced a 25% inhibition of ingestion. Particle attachment was not affected. This effect was antigen specific, since neither a nonspecific mouse myeloma protein of the same subclass nor a mouse antibody that bound to another hamster surface antigen had any effect on binding or ingestion. If antigen-specific F(ab')2 fragments were introduced both before and during the period of phagocytosis, the inhibition of particle ingestion approached 100%. Particle binding increased at low F(ab')2 concentrations but declined at higher concentrations. Because calcium may play a role in the ingestion process, the effect of antibody on 45Ca uptake was evaluated. It was observed that antigen-specific F(ab')2 fragments stimulated 45Ca uptake, whereas control antibodies did not. These results suggest that the antigen reacting with our anti-hamster PM monoclonal antibody is involved in immune opsonin-independent phagocytosis and that calcium participates in this phagocytic process.     

Involvement of locomotion of granulocytes in the phagocytosis of glass-adherent group B streptococci in the absence of opsonins

Abstract Phagocytosis of glass-adherent group B streptococci (GBS) by bovine polymorphonuclear leukocytes (PMN) was investigated by a fluorochrome microassay. Three out of the four tested strains were taken up in the absence of serum, but phagocytosis was increased when immobilized bacteria were pre-treated by either normal bovine serum (NBS, containing antibodies to GBS), precolostral calf serum (PCS, virtually devoid of antibodies), heat-inactivated PCS (H-PCS), or to a lesser extent by human serumalbumin (HSA) or gelatin. The fourth strain required opsonization by NBS to be ingested. The under-agarose PMN migration assay showed that HSA, PCS, H-PCS, and NBS had locomotion-promoting effects that ranked as for enhancement of phagocytosis. In addition, fixed antigen-antibody complexes inhibited both migration under agarose and surface phagocytosis. These findings suggested that when bacteria are sensitive to surface phagocytosis in the absence of opsonins, the enhancing effect of serum is essentially mediated through promotion of PMN locomotion and not through opsonin-enhanced ingestion.     

Calcium channel blockers nifedipine and diltiazem inhibit Ca2+ release from intracellular stores in neutrophils.

We have undertaken a detailed study of the mechanisms of maintenance of intracellular Ca2+ homeostasis in human polymorphonuclear neutrophils (PMN) and its implications for phagocytosis and IgG Fc receptor (FcR) signaling. When PMN were incubated in Ca(2+)-free medium, cytoplasmic calcium concentration ([Ca2+]i) was markedly depressed and intracellular stores were depleted of calcium. [Ca2+]i in these depleted cells increased within 1 min when PMN were placed in medium containing Ca2+ and then decreased to a level close to the normal basal [Ca2+]i, replenishing the intracellular Ca2+ pools. LaCl3 prevented entry of Ca2+ into Ca(2+)-depleted PMN, but the calcium channel blockers nifedipine, diltiazem, and verapamil did not. Nifedipine and diltiazem but not verapamil inhibited the movement of Ca2+ from cytosol to intracellular stores. Nifedipine and diltiazem inhibited the normal increase in [Ca2+]i from aggregated IgG binding to FcR and also prevented formyl-methionyl-leucyl-phenyl-alanine (fMLP)-induced [Ca2+]i rise. Verapamil had no effect on either an fMLP- or IgG-mediated increase in [Ca2+]i. Consistent with this, nifedipine and diltiazem inhibited fMLP-stimulated phagocytosis (which is dependent on an increase in [Ca2+]i) when PMN had repleted intracellular stores. In contrast, LaCl3 inhibited fMLP-stimulated ingestion only in PMN which had intracellular store depleted. None of these compounds had any effect on phorbol dibutyrate-stimulated ingestion (which is independent of a [Ca2+]i rise). In summary, these data show that Ca2+ is in rapid equilibrium between intracellular and extracellular compartments in PMN. Exchange of cytoplasmic Ca2+ with the extracellular space is inhibited by LaCl3, while exchange of Ca2+ between the cytosol and intracellular stores is inhibited by the dihydropyridine nifedipine and the benzothiazepine diltiazem. These data suggest that these drugs, which are known to regulate some plasma membrane Ca2+ channels in excitable cells, can also regulate Ca2+ release from intracellular stores in PMN and that this regulation may have significant effects on PMN function.     

Stimulation of human neutrophil Fc receptor-mediated phagocytosis by a low molecular weight cytokine

Human neutrophil Fc receptor-mediated phagocytosis can be markedly enhanced by a low m.w. (less than 10,000) heat-labile cytokine(s) derived from specifically stimulated human mononuclear cells and from a human T cell line, MO(t). PMN incubated with supernatant from control mononuclear leukocyte (MNL) culture bound EIgG (percentage of rosettes = 73.7% +/- 7.1) but did not ingest the attached targets (phagocytic index, PI = 40.7 +/- 9.5) as efficiently as PMN incubated with supernatant from adherent MNL, which had ingested EIgG and were then cocultured with nonadherent MNL (PI = 264.3 +/- 46.3). Cytokine-containing supernatants were fractionated on YM-10 Centricon microconcentrators, and the effluent (YM-10E) was found to contain the phagocytosis-enhancing activity. Optimal Fc receptor-mediated ingestion by YM-10E-stimulated PMN required a critical level of target-bound IgG; stimulation was dose dependent and detectable after 5 min at 37 degrees C with a maximal response by 15 min. Monoclonal antibody 3G8 (anti-PMN Fc receptor) inhibited in a dose-dependent fashion both Fc receptor-mediated rosette formation and ingestion by nonstimulated and YM-10E-stimulated PMN. Solid-phase 3G8 Fab had the same effect. A previously undescribed monoclonal antibody, 1C2, exhibited a different pattern of inhibition. It had no effect on rosetting or ingestion of EIgG by nonstimulated PMN; however, it inhibited EIgG phagocytosis by YM-10E-stimulated PMN down to the level of nonstimulated ingestion without affecting rosette formation. Solid-phase 1C2 had the same effect. These data indicate that phagocytosis mediated by 3G8-positive Fc receptors may be enhanced by cytokine(s) stimulation in a manner requiring the molecule recognized by 1C2. Monoclonal antibodies to the alpha-chain of CR3 had only minimal effects on YM-10E-stimulated ingestion. Fluorescence flow cytometry of YM-10E-stimulated PMN, indirectly stained with 3G8 or 1C2, indicated that cytokine enhancement of EIgG ingestion occurred without an increase in either 3G8 or 1C2 binding sites. These data show that the low avidity Fc receptor, which binds immune complexes, may be functionally modulated at sites of inflammation where PMN and macrophages mediate clearance and destruction of immune complexes and opsonized particles.     

Independent effects of IgG and complement upon human polymorphonuclear leukocyte function.

Particle ingestion by polymorphonuclear leukocytes (PMN) is promoted by cell surface recognition and binding of fragments of the third component of complement (C3) and Fc regions of certain immunoglobulin (IgG) molecules. In order to determine the influence of these specific ligandsurface membrane interactions upon other PMN functions, we have employed nonphagocytosable particles (serum-treated Sepharose beads) coated with fragments of C3 and/or IgG, and have investigated whether these provide a sufficient stimulus for the metabolic changes and degranulation that ordinarly accompany phagocytosis by PMN. Sepharose 4B activates complement in fresh normal serum and consequently is coated with fragments of C3 (confirmed by immunoelectrophoretic evidence of factor B and C3 conversion and by immunofluorescence). Adsorbed IgG could be removed from serum-treated Sepharose by boiling in 2 M NaCl without significantly influencing bound complement. We have found that normal human PMN recognize and adhere to Sepharose beads coated with fragments of C3 and consequently are stimulated to increase their oxidative metabolism (measured as superoxide anion generation). This PMN response occurred in the absence of IgG but could be amplified if this immunoglobulin was also present on the bead surfaces.Both adherence and metabolic stimulation could be blocked by treatment of the beads with F(ab)2 anti-C3. In contrast to metabolic stimulation, degranulation (selective extracellular release of lysosomal constituents) was observed only when PMN encountered both C3 fragments and IgG on the beads. This response could be blocked by treating beads with either F(ab)2 anti-C3 or F(ab)2 anti-IgG. These results indicate that cell surface stimulation of PMN is not an "all or none" phenomenon and that certain vital functions of these cells may be mediated or modulated independently by immunoglobulins and complement.     

Mechanisms of azithromycin accumulation and efflux in human polymorphonuclear leukocytes]

Azithromycin achieves prolonged, high tissue concentrations in spite of low serum levels and obviously must be effective at tissue sites of infection. These unique features prompted us to evaluate the interactions of azithromycin and human polymorphonuclear leukocytes (PMN). Uptake of radiolabeled antibiotic by PMN was determined by a velocity-gradient centrifugation technique and expressed as the ratio of cellular to extracellular drug concentration (C/E). Azithromycin was massively accumulated by human PMN (C/E = 387.2 at 2 h). Uptake was not influenced by inhibitors of cellular metabolism, but phagocytosis slightly inhibited the entry of azithromycin into PMN. After removal of extracellular drug, the release (efflux) of azithromycin from PMN was extremely slow. Agents which neutralize lysosomal pH, preventing protonation and trapping of azithromycin, markedly increased antibiotic efflux. Active concentration and prolonged retention of azithromycin by phagocytic cells should allow delivery and subsequent release of accumulated drug at sites of infection.     

Microfilaments and microtubules in calcium ionophore-induced secretion of lysosomal enzymes from human polymorphonuclear leukocytes.

Human peripheral blood leukocytes (PMN) are induced to release lysosomal enzymes by the calcium ionophore A23187 in the presence but not the absence of extracellular Ca++. Whereas secretion induced by particulate or immune stimuli is accompanied by an increase in visible microtubules and is inhibitable by colchicine, secretion induced by A23187 and Ca++ was not accompanied by an increase in microtubule numbers and was not inhibited by colchicine. Ca++ did not appear to regulate microtubule assembly in these cells since resting PMN had a mean of 22.3 +/- 2.0 microtubules in the centriolar region as compared to 22.3 +/- 1.1 in ionophore-treated cells and 24.9 +/- 1.5 in cells exposed to ionophore and 1 mM Ca++. Bipolar filaments, 10 nm thick and 300--400 nm long, were numerous in the pericortical cytoplasm of cells exposed to both reagents. Microtubules in these cells were decorated with an electron-opaque fibrillar material. PMN exposed to A23187 and Ca++ were contracted in two directions at right angles to each other: (a) Contractions parallel to the plasma membrane resulted in extensive plication of the cell membrane. The cytoplasm subjacent to the plicae contained dense filamentous webs. Plication was prevented by cytochalasin B or reversed by subsequent exposure to an endocytic stimulus such as zymosan. (b) Contractions perpendicular to the plasma membrane, toward the cytocenter, resulted in the formation of vacuoles in normal PMN and of membrane invaginations in cytochalasin B-treated PMN. Whereas contractions parallel to the plasma membrane could occur in the absence of enzyme release (ionophore alone) and enzyme release could occur in the absence of such contractions (ionophore plus calcium plus cytochalasin B), contraction toward the cytocenter occurred in all experimental conditions in which significant enzyme release was obtained. Thus, lysosomal enzyme secretion in PMN involves contractile movements in the plasma membrane toward the lysosomes rather than the reverse. These calcium-mediated contractile events are mediated by cytochalasin B-insensitive microfilaments but not by microtubule assembly.     

THE PHAGOCYTOSIS OF SOLID PARTICLES : II. CARBON.

1. By measurements of the diameter and velocity of leucocytes and of the particles in two carbon suspensions, the relative rates of ingestion of the two suspensions by the leucocytes are predicted and the predictions verified experimentally. 2. The results indicate that 4.7µ particles of carbon are ingested as readily as 3.2µ particles. The more rapid apparent rate of ingestion of the 4.7µ particles is due to their greater availability rather than the greater capability of the leucocytes. 3. There is almost no phagocytosis of carbon in absence of serum or in heated serum. 4. The clumping of unwashed leucocytes is accllerated by serum and by the ingestion of carbon. 5. The available evidence indicates that the phagocytosis of bacteria does not follow the law for a monomolecular reaction, possibly because of the toxic effect upon the leucocytes of bacterial extracts.     

The immune response in the hamster. VII. Studies on cytophilic immunoglobulin.

Hamster 7S IgG1 and IgG2 antibodies to hen-egg albumin (HEA) were tested for their capacity to bind to macrophage cytophilic Ig receptors. Both IgG1 and IgG2 were cytophilic for hamster macrophages though the membrane receptor had a predominant specificity for IgG1. Hamster IgG1 bound primarily to homologous macrophages whereas IgG2 bound to macrophages from other rodent species as well. The binding of hamster Ig to hamster macrophages was inhibited by a wide range of heterologous rodent sera. The only exception was guinea pig serum since guinea pig IgG2 was found to bind only to homologous macrophages. Sheep red blood cells (SRBC) coated with hamster IgG2 were ingested by macrophages more readily than those coated with hamster IgG1. Thus, there appeared to be a paradoxical relationship between the apparently strong affinity of IgG1 for the hamster macrophage Ig receptor and its reactivity weak ingestion promoting activity. Implications of this phenomenon are discussed.     

The respiratory burst response to Histoplasma capsulatum by human neutrophils. Evidence for intracellular trapping of superoxide anion

Human neutrophils (PMN) have received little attention as to the role they play in host defense against Histoplasma capsulatum (Hc). We have characterized the binding and phagocytosis of Hc yeasts by human PMN and quantified the PMN respiratory burst in response to this organism. mAb specific for CD11a, CD11b, and CD11c all partially blocked the attachment of unopsonized yeasts to PMN; a mAb to CD18 inhibited attachment by greater than 90%. Thus, human PMN recognize and bind Hc yeasts via CD18 adhesion receptors as has been found for human cultured macrophages and alveolar macrophages. Unopsonized yeasts were phagocytosed by PMN, but phagocytosis was increased markedly by heat-labile and heat-stable serum opsonins. These opsonins promoted enhanced phagocytosis of yeasts by increasing the attachment of Hc yeasts to the PMN membrane. Phagocytosis of viable or heat-killed Hc yeasts by PMN did not induce the secretion of superoxide anion (O2-) as quantified by the reduction of cytochrome c. O2- was not detected when yeasts were opsonized in normal serum or immune serum, or at a ratio of yeasts to PMN of up to a 100:1. However, phagocytosis of opsonized yeasts by PMN did not prevent them from subsequently releasing O2- after further incubation with opsonized zymosan or PMA. Opsonized Hc yeasts clearly stimulated the PMN respiratory burst as quantified by intracellular reduction of nitroblue tetrazolium, reduction of cytochrome c in the presence of cytochalasin D, oxygen consumption, luminol-enhanced and nonenhanced chemiluminescence, and H2O2 production. These data suggest that phagocytosis of Hc yeasts by PMN is associated with intracellular entrapment of O2- that is not detectable by reduction of extracellular cytochrome c.     

Modulation of platelet-activating factor (PAF) synthesis and release from human polymorphonuclear leukocytes (PMN): role of extracellular Ca2+

Extracellular Ca2+ regulated the synthesis and release of platelet-activating factor (PAF) from human polymorphonuclear leukocytes (PMN) stimulated with N'-formyl-methionyl-leucyl-phenylalanine (FMLP) in the presence of cytochalasin B. Maximum PAF synthesis and release required the presence of 0.14 mM Ca2+ whereas 1.4 mM Ca2+ was necessary for maximum lysosomal enzyme secretion. The synthesis of PAF occurred within 2.5 min after PMN stimulation in the presence of 1.4 mM Ca2+; however, PAF release did not occur until 5 min after stimulation. Peak PAF release occurred by 7.5 min but accounted for only 30-40% of the total amount of PAF synthesized, the remainder being retained on or within the PMN. Stimulation of PMN in the presence of 0.01 M EDTA or EGTA decreased PAF synthesis and release by greater than 95%. In the absence of extracellular Ca2+, stimulated PMN synthesized PAF in amounts that were 10-30% of maximum, but there was no release of the newly synthesized PAF. At Ca2+ concentrations greater than 0.01 mM, there was a dose-dependent (up to 0.14 mM) increase in PAF synthesis that was associated with the initiation and concomitant increase in the amount of PAF released. These data suggest the presence of a PAF synthesis-release coupling mechanism in which the extracellular Ca2+-dependent release of PAF stimulates additional PAF synthesis.     

An immobile subset of plasma membrane CD11b/CD18 (Mac-1) is involved in phagocytosis of targets recognized by multiple receptors

CD11b/CD18 is a heterodimeric leukocyte surface receptor which functions in both C3bi-ligand binding and homotypic and heterotypic cell adherence. We have examined the effect of several anti-CD11b/18 mAb on phagocytosis of IgG (EIgG) or complement (EC4b) opsonized erythrocytes by polymorphonuclear leukocytes (PMN) and monocytes. F(ab')2 of two mAb (IB4, an anti-beta-chain mAb and Mo-1 an anti-alpha-chain mAb), inhibited both phagocytosis of EIgG and phorbol ester-stimulated phagocytosis of EC4b by PMN and monocytes. These F(ab')2 inhibited the binding of EIgG to monocytes, but they had no effect on binding of EIgG to PMN, or EC4b to either phagocyte. In addition, IB4 inhibited phorbol-ester stimulated phagocytosis of sheep E opsonized with C component 3bi (EC3bi) without inhibiting rosetting of these same targets. These data separate the anti-phagocytic effect of these mAb from effects on phagocyte-target adherence. When PMN were adherent to an anti-CD11b/CD18 F(ab')2-coated surface, EC3bi binding was abolished, but phagocytosis of EIgG or EC4b was unaffected. Subsequent addition of fluid- phase IB4 or Mo-1 F(ab')2 inhibited phagocytosis of EIgG or EC4b by the adherent cells. This suggested that the CD11b/CD18 involved in C3bi rosetting were mobile in the membrane, whereas those involved in phagocytosis of EIgG or EC4b were not. Cytochalasin treatment of PMN during adherence to F(ab')2-coated plates decreased both apical expression of CD11b/18 and subsequent ingestion of EIgG by 70%, suggesting that microfilaments are important in maintaining immobile CD11b/18 on the apical PMN surface. We conclude that there are functionally distinct populations of CD11b/CD18 on monocytes and PMN: one involved in C3bi rosetting and another involved in the process of phagocytosis mediated via several different receptors. CD11b/18 is not required for optimal target binding in all cases, but is always required for ingestion. As with several other integrins, the CD11b/18 molecules involved in phagocytosis have a functional association with the cell cytoskeleton.     

Synergy between extracellular group IIA phospholipase A2 and phagocyte NADPH oxidase in digestion of phospholipids of Staphylococcus aureus ingested by human neutrophils

Acute inflammatory responses to invading bacteria such as Staphylococcus aureus include mobilization of polymorphonuclear leukocytes (PMN) and extracellular group IIA phospholipase A2 (gIIA-PLA2). Although accumulating coincidentally, the in vitro anti-staphylococcal activities of PMN and gIIA-PLA2 have thus far been studied separately. We now show that degradation of S. aureus phospholipids during and after phagocytosis by human PMN requires the presence of extracellular gIIA-PLA2. The concentration of extracellular gIIA-PLA2 required to produce bacterial digestion was reduced 10-fold by PMN. The effects of added gIIA-PLA2 were greater when present before phagocytosis but even apparent when added after S. aureus were ingested by PMN. Related group V and X PLA2, which are present within PMN granules, do not contribute to bacterial phospholipid degradation during and after phagocytosis even when added at concentrations 30-fold higher than that needed for action of the gIIA-PLA2. The action of added gIIA-PLA2 required catalytically active gIIA-PLA2 and, in PMN, a functional NADPH oxidase but not myeloperoxidase. These findings reveal a novel collaboration between cellular oxygen-dependent and extracellular oxygen-independent host defense systems that may be important in the ultimate resolution of S. aureus infections.     

Aggregation of complement receptors on human neutrophils in the absence of ligand

C3bi receptors (CR3) on human polymorphonuclear leukocytes (PMN) bind ligand-coated particles and promote their ingestion. The binding activity of CR3 is not constitutive but is transiently enabled by phorbol esters (Wright, S. D., and B. D. Meyer, 1986, J. Immunol. 136:1759-1764). Our observations indicate that the capacity of CR3 to bind ligand is tightly correlated with the degree of ligand-independent aggregation of the receptor in the plane of the membrane. Fixed PMN were labeled with anti-CR3 monoclonal antibodies and streptavidin colloidal gold before viewing in the electron microscope either en face or in thin section. On unstimulated PMN, gold particles marking CR3 were dispersed randomly. Stimulation of PMN for 25 min with phorbol myristate acetate (PMA) dramatically enhances binding of C3bi-coated particles, and the CR3 on such stimulated cells was observed in clusters containing more than six gold particles. CR3 was not aggregated over coated pits. After 50 min in PMA, the binding activity of CR3 falls, and the distribution of CR3 was again observed to be disperse. If a hydrophilic phorbol ester was washed away after a 20-min stimulation, binding activity remains elevated for at least 50 min, and CR3 remained aggregated. Thus, clustering of CR3 was temporally correlated with its ability to bind ligand and initiate phagocytosis. Unlike CR3, Fc receptors and HLA did not exhibit changes in their aggregation state in response to PMA. Treating PMN with formyl-methionyl-leucyl-phenylalanine, which enhances expression of CR3 but not its function, did not lead to aggregation of CR3. These observations suggest that a clustered configuration is a precondition necessary for binding ligand and signaling phagocytosis.     

Selective down-regulation of alveolar macrophage oxidative response to opsonin-independent phagocytosis

We have compared the oxidative response of alveolar macrophages (AM) during opsonin-dependent and independent phagocytosis by using multiparameter flow cytometry. The respiratory burst of AM during phagocytosis was quantitated by the intracellular oxidation of the nonfluorescent precursors dichlorofluorescin diacetate (DCFH) or hydroethidine (HE, a reduced precursor of ethidium) to their fluorescent (oxidized) counterparts. After loading freshly isolated normal hamster AM with DCFH or HE, red or green fluorescent beads, respectively, were added to the shaking cell suspensions. Ingestion of opsonized particles by AM caused a marked increase in oxidation of both DCFH and HE proportional to the number of beads ingested. In contrast, uptake of one to three unopsonized particles per cell led to inhibition of oxidative activity compared to control cells incubated without particles. AM ingesting four or more unopsonized particles showed some increase in oxidative metabolism, but far less than that with identical numbers of particles in opsonin-dependent ingestion. Similar results were obtained using fluorescent labeled staphylococcal bacteria. Using three-color flow cytometry to study cells ingesting both types of particles, cells first ingesting unopsonized beads were also found to have an inhibited oxidative response to subsequently ingested opsonized particles. The mitochondrial poison antimycin inhibited most of the intracellular oxidative response to either type of phagocytosis. The remaining antimycin-insensitive, membrane derived respiratory burst of AM was also substantially diminished after phagocytosis of unopsonized particles vs similar numbers of opsonized particles. The greatly increased mitochondrial respiration in AM during phagocytosis of opsonized particles may be related to bactericidal mechanisms. Killing of ingested Staphylococcus by AM was markedly impaired in the presence of antimycin. The results suggest that AM may ingest the numerous, unopsonized inert particles that are inhaled without generation of potentially toxic oxygen metabolites, while retaining the capacity to undergo a respiratory burst after ingesting opsonized particles and bacteria. The mechanism(s) for this distinct response may include generation of an inhibitor of intracellular oxidative metabolism.     

Phagocytosis of polymorphonuclear leukocytes by guinea pig peritoneal macrophages: effects of serum and temperature in vitro

Abstract The regulation of phagocytosis of neutrophils by peritoneal macrophages was studied in vitro. Peritoneal exudate cells (PECs) of guinea pigs were lavaged 15 h after the i.p. injection of thioglycollate medium and were cultured in chamberslides. When PECs were cultured in RPMI 1640 medium in the absence of serum, approximately 20% of the macrophages phagocytized autologous neutrophils during 48–72 h of culture. Addition of guinea pig serum to the culture (2.5–20% v/v) suppressed the extent of the phagocytosis. The suppression was induced by globulin-rich ammonium sulfate fractions of the serum. Sera from rat, mouse, hamster, horse or calf also suppressed the phagocytosis, but fetal bovine serum (FBS) supported the phagocytosis, which was inhibited by globulin-rich Cohn fractions of bovine serum. The rate of neutrophil-phagocytosing macrophages was proportional to the rate of the pyknotic change of neutrophils. At a high temperature (42°C), the autophagocytosis took place at 12 h of culture when fresh, but not heat-inactivated, autologous serum was added, implying that complement components may play a role in the hyperthermia-induced phagocytosis of neutrophils by macrophages. At 42°C, ingested neutrophils did not show the pyknotic changes, indicating that intact neutrophils were ingested by macrophages.     

Rat retinal pigment epithelial cells show specificity of phagocytosis in vitro

The retinal pigment epithelial (RPE) cell of the eye normally phagocytozes only retinal rod outer segments (ROS). The specificity of this phagocytic process was examined by incubating RPE cells with a variety of particle types. Confluent RPE cell cultures were incubated for 3 h at 37 degrees C in the presence of rat ROS, rat red blood cells (RBC), algae, bacteria, or yeast. Other cell cultures were incubated with equal numbers of ROS and one other particle type. Quantitative scanning electron microscopy was used to determine the numbers and morphology of particles bound to RPE cells, while double immunofluorescence labeling (Chaitin, M. H., and M. O. Hall, 1983, Invest. Ophthalmol. Vis. Sci., 24:812-820) was used to quantitate particle binding and ingestion. Both assays demonstrated phagocytosis to be a highly specific process. RPE cells bound 40-250 X more ROS than RBC, 30 X more ROS than algae, and 5 X more ROS than bacteria or yeast. Ingestion was more specific than binding; RPE cells ingested 970 X more ROS than RBC, 140 X more ROS than bacteria, and 35 X more ROS than yeast. The phagocytic preference for ROS was maintained in competition experiments with other particle types. Serum was found to be essential for phagocytosis. This study demonstrates that both the binding and ingestion phases of phagocytosis are highly specific processes.     

Mechanism of neutrophil activation by an unopsonized inflammatory particulate. Monosodium urate crystals induce pertussis toxin-insensitive hydrolysis of phosphatidylinositol 4,5-bisphosphate.

Monosodium urate crystals are believed to trigger acute inflammation via the direct stimulation of leukocytes. Unopsonized urate crystals activate neutrophil (PMN) membrane G proteins in a pertussis toxin (PT)-sensitive manner, but induce PT-insensitive cytosolic [Ca2+]i elevation. Thus, we have further defined the mechanism of PMN responsiveness to urate crystals in this study. Though urate crystals can increase membrane permeability by lytic effects, we observed elevation of PMN cytosolic [Ca2+]i in the absence of extracellular [Ca2+]i. In addition, the early, crystal-induced cytosolic [Ca2+]i transient was buffered in cells loaded with a [Ca2+]i-chelator. This suggested mobilization of internal [Ca2+]i stores, which was supported by demonstrating rapid phosphatidylinositol bisphosphate (PIP2) hydrolysis, and the formation of inositol (1,4,5) trisphosphate (as well as phosphatidic acid) in a PT-insensitive manner. Importantly, PMN activation by urate crystals was discriminatory, as evidenced by the absence of phosphatidylinositol trisphosphate formation, a PT-sensitive event triggered by chemotactic factors. Urate crystal-induced PIP2 hydrolysis was not a nonspecific consequence of the early cytosolic [Ca2+]i transient itself, and it did not require phagocytosis. However, crystal-induced O2- release was markedly inhibited by buffering of the early cytosolic [Ca2+]i transient under conditions where crystal phagocytosis and PMA-induced O2- release were unaffected. We conclude that urate crystals activate PT-insensitive PIP2 hydrolysis, resulting in IP3 generation, and early urate crystal-induced mobilization of cytosolic [Ca2+]i. This pathway appears to modulate crystal-induced O2- release.     

Opsonic properties of C-reactive protein. Stimulation by phorbol myristate acetate enables human neutrophils to phagocytize C-reactive protein-coated cells

We examined phagocytosis of sheep erythrocytes passively sensitized with pneumococcal C-polysaccharide (E-PnC) and of E-PnC coated with C-reactive protein (E-PnC-CRP) by human polymorphonuclear leukocytes (PMN). PMN isolated from blood of normal individuals failed to ingest either E-PnC or E-PnC-CRP; however, after stimulation with 12-O-tetradecanoylphorbol-13-acetate (PMA; 2 ng/ml), PMN ingested E-PnC-CRP efficiently with a mean phagocytic index (PI) of 99.5 +/- 4.8 (mean +/- SD, n = 11), and E-PnC to a lesser extent with a mean PI of 33.2 +/- 11.7 (mean +/- SD, n = 11). PMN that had adhered to PnC-coated glass and that were stimulated with PMA attached but did not ingest E-PnC-CRP. In contrast, PMN plated on E-PnC-CRP-coated glass and stimulated with PMA did not attach or ingest E-PnC-CRP. These data indicate that PMN can be induced to phagocytize PnC-CRP and that both PnC and CRP are required for ingestion. They also suggest that specific receptors for these ligands are expressed by stimulated PMN. Neither attachment nor phagocytosis of E coated with rabbit anti-E IgG (E-IgG) was affected by plating PMN on PnC or PnC-CRP. On the other hand, both phagocytosis and ingestion of E-PnC-CRP as well as E-IgG was blocked by plating PMA-stimulated PMN on immune complexes containing rabbit IgG. Inhibition experiments with the use of 3G8, a monoclonal antibody to the Fc gamma receptor of PMN, and human monomeric IgG1 demonstrated that attachment of E-PnC-CRP is mediated by receptors other than the Fc gamma receptors. These combined results indicated a nonreciprocal association between the putative CRP receptors and the Fc gamma receptors of stimulated PMN, resulting in the clearance of both types of receptors from the apical surface of PMN by antigen-immobilized rabbit IgG.     

The role of calcium and cyclic adenosine 3',5'-monophosphate in the regulation of glycogen metabolism in phagocytozing human polymorphonuclear leukocytes.

Incubation of human polymorphonuclear leukocytes in a glucose-free Krebs-Ringer bicarbonate buffer for 2 h resulted in glycogen depletion, decreased phosphorylase activity and increased synthase-R activity. Addition of dialyzed latex particles to starved leukocytes revealed a very rapid ingestion rate (half-maximal ingestion within 30 s). This uptake is followed by glycogenolysis associated with an immediate two-fold increase in phosphorylase a activity and a synthase-R to -D conversion within 30 s. Furthermore, in rapid time-course experiments with phagocytozing cells we found that the concentration of cyclic AMP increased by 93% within 15 s and returned to baseline values at 1 min. In a medium without added calcium and with 1 mM ethyleneglycol-bis-(beta-aminoethylether)-N,N'-tetraacetic acid, phagocytosis was blocked, cyclic AMP formation decreased by 50% and phosphorylase activation was abolished, but the conversion of synthase-R to -D was preserved. Addition of calcium ions to cells suspended in a calcium-free buffer without added latex results in phosphorylase activation and glycogenolysis, but not in cyclic AMP increase or synthase-R to -D conversion. Measurements of 45Ca efflux during phagocytosis suggest an initial increase in cytosolic calcium obtained by a release of membrane-bound 45Ca. Activation of phosphorylase during phagocytosis is thus presumably due to an increase in cytosol Ca2+ and subsequent activation of phosphorylase kinase, and is independent of the simultaneous increase in concentration of cyclic AMP. Phosphorylation of synthase R to the D form does not depend on the presence of Ca2+ in the extracellular phase.