A Role for Complement in Phagocytosis of Myelin

The mechanisms for phagocytosis of myelin in cell-mediated demyelinating diseases have not been clarified. We have previously shown with cultured phagocytic cells that myelin opsonized with antiserum to myelin constituents is phagocytized in much higher amounts than untreated myelin, indicating that Fc receptors may be involved in the demyelinating process. Using various treatments of antisera, such as heating to destroy complement, and purification of IgG, we show here that complement is a necessary factor for maximal myelin phagocytosis by cultured macrophages. If myelin is sonicated to decrease its particle size, however, complement is not an active factor. Cultured microglia, on the other hand, required complement for maximal phagocytosis of both unsonicated and sonicated myelin. Addition of serum complement greatly increased phagocytosis of untreated CNS and PNS myelin, both unsonicated and sonicated, by macrophages and microglia. From these results it appears that the most important effect of complement is to fragment the myelin, making it more easily phagocytized. Prefragmentation of myelin by sonication can substitute for complement. Complement receptors may, in addition, be important for maximal myelin phagocytosis by microglia.This work was done at the VA Medical Center in fulfillment of the research requirement at the University of Amsterdam     

Phagocytosis in rat Kupffer cells in vitro

Phagocytosis was studied in rat Kupffer cells in vitro by using opsonized sheep red cells as objects and inducing attachment and ingestion through the Fc and C₃ receptors. The Fc receptors functioned by and large in the same manner as in the peritoneal macrophages. When the red cells were opsonized with IgM and complement, there was attachment but little ingestion in a serum-free medium. Newborn calf serum was found to trigger ingestion. Our experiments provided no conclusive evidence as to the nature of this triggering mechanism. The limiting factor in phagocytosis was the cytoplasmic volume of the phagocyte rather than the availability of surface receptors. The expression of surface receptors on cells in culture depended on length of culture and degree of spreading. We confirmed the available information on the energy requirements of phagocytosis as studied in peritoneal macrophages. As judged by isotope release, digestion of the red cells was in process shortly after ingestion. However, morphological examination failed to detect any changes in appearance prior to 4 h. After a blocking dose of sheep red cells, a rather long period (40 h) was required before cells fully recovered their phagocytic capacity.     

Determination of quantitative parameters of Escherichia coli phagocytosis by mouse peritoneal macrophages

The fluorometric method was used to study guantitative parameters of phagocytosis of fluorescein-labeled Escherichia coli cells by mouse peritoneal macrophages. E. coli cells were conjugated with fluoresceinisothiocyanate (FITC) and then incubated with macrophages. At the end of the assay phagocytosis was arrested with a lysing solution (0.5% Triton X-100 in 0.01 M phosphate-buffered 0.15 M saline, pH 7.4). Trypan blue at a concentration of 0.04% was used as a quenching agent to differentiate between attachment and ingestion of E. coli cells. The time course analysis within this method showed that phagocytosis of E. coli cells was temperature and opsonin dependent. The number of E. coli cells ingested by macrophages increased rapidly during the initial 60 min of incubation at 37 degrees C. E. coli cells required opsonization with 5% native serum to achieve their optimal uptake. The uptake of nonopsonized bacteria by macrophages was significantly lower that that of opsonized ones (P < 0.05). It was demonstrated that sodium azide inhibited phagocytosis of E. coli cells by mouse peritoneal macrophages in a dose-dependent manner.     

Quantifying complement-mediated phagocytosis by human monocyte-derived macrophages

The present study demonstrates that SRBC can be opsonized with untreated human serum such that lysis by active complement components is minimal but sufficient opsonization occurs to permit high rates of complement-mediated phagocytosis. Phagocytosis of SRBC opsonized with 2% whole human serum by human monocyte-derived macrophages was quantified in a colourimetric assay. Ingestion of SRBC was shown to occur solely via complement receptors because no phagocytosis was observed when SRBC were coated with heat- inactivated human serum, phagocytosis was augmented by the phorbol ester, PMA, and phagocytosis was inhibited by a protein kinase C (PKC)-specific inhibitor RO 31-8220. This method was used to demonstrate directly that HIV-1 infection of human monocyte-derived macrophages inhibits complement-mediated phagocytosis and will provide a useful tool for pharmacological investigations on complement-mediated phagocytosis by adherent macrophages.     

Nuclear autoantigen translocation and autoantibody opsonization lead to increased dendritic cell phagocytosis and presentation of nuclear antigens: a novel pathogenic pathway for autoimmunity?

Autoreactivity in lupus requires the delivery of autoantigens to APCs in a proinflammatory context. It has been proposed that apoptotic cells are a source of lupus autoantigens and targets for autoantibodies. Using a histone H2B-GFP fusion protein as traceable Ag, we show here that lupus autoantibodies, directed against nuclear autoantigens, can opsonize apoptotic cells, enhance their uptake through induction of proinflammatory Fc gammaR-mediated phagocytosis, and augment Ag-specific T cell proliferation by increasing Ag loading. Apoptotic blebs and bodies seemed to be a preferred target of DC phagocytosis, via both "eat-me signals" and Fc gammaR-mediated mechanisms; furthermore, inhibition of nuclear Ag redistribution, by blockade of chromatin fragmentation, could stop binding and opsonization of apoptotic cells by autoantibodies, and inhibited Fc gamma-R-mediated enhancement of phagocytosis. Our results suggest that DC uptake of opsonized histones and other nuclear Ags from apoptotic cells is a novel pathway for the presentation of nuclear Ags in a highly inflammatory context. Blockade of chromatin fragmentation in lupus is a potential therapeutic approach, which could theoretically limit DC access to autoantigens delivered in proinflammatory context, while leaving available for tolerization those delivered in a noninflammatory context.     

Binding and uptake of single and dual-opsonized targets by macrophages

Our current understanding of phagocytosis is largely derived from studies of individual receptor-ligand interactions and their downstream signaling pathways. Because phagocytes are exposed to a variety of ligands on heterogeneous target particles in vivo, it is important to observe the engagement of multiple receptors simultaneously and the triggered involvement of downstream signaling pathways. Potential crosstalk between the two well-characterized opsonic receptors, FcγR and CR3, was briefly explored in the early 1970s, where macrophages were challenged with dual-opsonized targets. However, subsequent studies on receptor crosstalk were primarily restricted to using single opsonins on different targets, typically at saturating opsonin conditions. Beyond validating these initial explorations on receptor crosstalk, we identify the early signaling mechanisms that underlie the binding and phagocytosis during the simultaneous activation of both opsonic receptors, through the presence of a dual-opsonized target (immunoglobulin G [IgG] and C3bi), compared with single receptor activation. For this purpose, we used signaling protein inhibitor studies as well as live cell brightfield and fluorescent imaging to fully understand the role of tyrosine kinases, F-actin dynamics and internalization kinetics for FcγR and CR3. Importantly, opsonic receptors were studied together and in isolation, in the context of sparsely opsonized targets. We observed enhanced particle binding and a synergistic effect on particle internalization during the simultaneous activation of FcγR and CR3 engaged with sparsely opsonized targets. Inhibition of early signaling and cytoskeletal molecules revealed a differential involvement of Src kinase for FcγR- vs CR3- and dual receptor-mediated phagocytosis. Src activity recruits Syk kinase and we observed intermediate levels of Syk phosphorylation in dual-opsonized particles compared with those opsonized with IgG or C3bi alone. These results likely explain the intermediate levels of F-actin that is recruited to sites of dual-opsonized particle uptake and the notoriously delayed internalization of C3bi-opsonized targets by macrophages.     

Effects of Microparticle Size and Fc Density on Macrophage Phagocytosis

Controlled induction of phagocytosis in macrophages offers the ability to therapeutically regulate the immune system as well as improve delivery of chemicals or biologicals for immune processing. Maximizing particle uptake by macrophages through Fc receptor-mediated phagocytosis could lead to new delivery mechanisms in drug or vaccine development. Fc ligand density and particle size were examined independently and in combination in order to optimize and tune the phagocytosis of opsonized microparticles. We show the internalization efficiency of small polystyrene particles (0.5 µm to 2 µm) is significantly affected by changes in Fc ligand density, while particles greater than 2 µm show little correlation between internalization and Fc density. We found that while macrophages can efficiently phagocytose a large number of smaller particles, the total volume of phagocytosed particles is maximized through the non-specific uptake of larger microparticles. Therefore, larger microparticles may be more efficient at delivering a greater therapeutic payload to macrophages, but smaller opsonized microparticles can deliver bio-active substances to a greater percentage of the macrophage population. This study is the first to treat as independent variables the physical and biological properties of Fc density and microparticle size that initiate macrophage phagocytosis. Defining the physical and biological parameters that affect phagocytosis efficiency will lead to improved methods of microparticle delivery to macrophages.     

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.     

The opsonizing ligand on Salmonella typhimurium influences incorporation of specific, but not azurophil, granule constituents into neutrophil phagosomes

Phagosomes were purified from human neutrophils ingesting Salmonella typhimurium opsonized with adsorbed normal human serum or with rabbit IgG. Constituents within the phagosome were endogenously labeled by supplying the cells with 125INa during phagocytosis. Lactoferrin and vitamin B12 binding protein (TC1 and TC3), markers for specific granules, were present in the phagosomes from neutrophils ingesting S. typhimurium opsonized with IgG but were 3.5- to 5-fold less prominent in phagosomes from cells phagocytosing Salmonella bearing C3 fragments only. In contrast, iodinated azurophilic granule components, most prominently defensins, were the major constituents in phagosomes prepared under both opsonization conditions. Furthermore, labeled complement (CR1 and CR3) and immunoglobulin (Fc gamma RIII) receptors were incorporated in the phagosome regardless of the ligand mediating phagocytosis. These results suggest that the ligand-receptor interactions mediating phagocytosis influence incorporation of neutrophil-specific granule contents into phagosomes.     

Definition of fibronectin-mediated uptake of gelatinized latex by liver slices and macrophages

These studies show that both liver slices and macrophages carried out fibronectin concentration-dependent uptake of ¹²⁵I-labeled gelatin-coated latex (test latex). Lack of phagocytosis of test latex by liver slices was shown directly by electron microscopy and indirectly by trypsin treatment, which caused the release of all test latex taken up in response to fibronectin. Inhibitors of phagocytosis did not alter this uptake. On the other hand, trypsin released only a portion of test latex from macrophages. Inhibitors of phagocytosis did not effect the released radioactive particles from macrophages but greatly reduced the trypsin-resistant radioactivity, taken as representing phagocytized particles. Opsonization of test latex with fibronectin did not require heparin but its association with liver slices occurred only in the presence of heparin. Macrophages, however, readily bound and internalized the opsonized test latex and heparin only potentiated these reactions. Gelatin competed with test latex for fibronectin for opsonization, but did not inhibit binding and phagocytosis of fibronectin-test latex complexes. Finally, soluble fibronectin-gelatin complexes did not compete for binding and phagocytosis of fibronectin-test latex complexes. Thus, fibronectin concentrated on the surface of latex is preferred for interaction with the fibronection receptor of macrophages. Gelatin, however, was not essential for this reaction, because fibronectin directly coupled to latex was also readily taken up.     

Naturally occurring anti-band 3 antibodies and complement in phagocytosis of oxidatively-stressed and in clearance of senescent red cells

Treatment of human red blood cells with diamide and opsonization with whole serum enhanced their phagocytosis by mononuclear phagocytes. Opsonization of diamide-treated red cells with whole serum containing 20-100 times the physiologic concentration of naturally occurring anti-band 3 antibodies further increased the extent of phagocytosis. Enhanced phagocytosis was due to an anti-band 3 mediated binding of C3b to red cells via the alternative pathway. Red cell-bound anti-band 3 was slightly elevated on diamide-treated cells and elicited a C3 binding that exceeded the amount of bound antibody by two orders of magnitude. Pretreatment of red cells with a monoclonal anti-CR1 did not significantly inhibit opsonization and phagocytosis if cells were opsonized at elevated anti-band 3 concentrations. On the other hand, phagocytosis of mildly oxidized (20 microM diamide) red cells was completely inhibited by blocking CR1 if cells were opsonized with serum containing physiologic concentrations of anti-band 3. The results suggest that two types of opsonization mediate in vitro phagocytosis: one operating at physiologic anti-band 3 concentrations with mildly oxidized red cells (IC-like mechanism) and one that operates with either heavily oxidized (greater than 200 microM diamide) red cells at physiologic anti-band 3 concentrations, or with mildly oxidized cells opsonized at elevated concentration of anti-band 3. The latter mechanism is relevant in vivo. It is most likely that it starts by Fab-dependent binding of anti-band 3 to diamide-induced band 3 protein oligomers. Complement activation may occur by assembly of an alternative convertase on C3b covalently bound to red cell-associated anti-band 3. This mechanism is also likely to mediate clearance of senescent red cells, as it was primarily from senescent red cells that we could isolate complexes containing IgG covalently bound to C3b.     

Definition of fibronectin-mediated uptake of gelatinized latex by liver slices and macrophages

These studies show that both liver slices and macrophages carried out fibronectin concentration-dependent uptake of 125I-labeled gelatin-coated latex (test latex). Lack of phagocytosis of test latex by liver slices was shown directly by electron microscopy and indirectly by trypsin treatment, which caused the release of all test latex taken up in response to fibronectin. Inhibitors of phagocytosis did not alter this uptake. On the other hand, trypsin released only a portion of test latex from macrophages. Inhibitors of phagocytosis did not effect the released radioactive particles from macrophages but greatly reduced the trypsin-resistant radioactivity, taken as representing phagocytized particles. Opsonization of test latex with fibronectin did not require heparin but its association with liver slices occurred only in the presence of heparin. Macrophages, however, readily bound and internalized the opsonized test latex and heparin only potentiated these reactions. Gelatin competed with test latex for fibronectin for opsonization, but did not inhibit binding and phagocytosis of fibronectin-test latex complexes. Finally, soluble fibronectin-gelatin complexes did not compete for binding and phagocytosis of fibronectin-test latex complexes. Thus, fibronectin concentrated on the surface of latex is preferred for interaction with the fibronectin receptor of macrophages. Gelatin, however, was not essential for this reaction, because fibronectin directly coupled to latex was also readily taken up.     

The different roles of two distinct Fc gamma receptors on guinea pig macrophages in the phagocytosis of sensitized sheep erythrocytes

The functional roles of two distinct types of Fc gamma receptors (Fc gamma 1/gamma 2R specific for both IgG1 and IgG2, and Fc gamma 2R specific for IgG2 alone) on the surface of guinea pig macrophages in the phagocytosis of sensitized sheep erythrocytes (EA) were investigated by the use of two Fab's of monoclonal anti-Fc gamma 1/gamma 2R and anti-Fc gamma 2R antibodies. The binding and subsequent ingestion of IgG1 antibody-sensitized erythrocytes (EA gamma 1) by macrophages were completely inhibited by anti-Fc gamma 1/gamma 2R Fab', indicating that the reactions are mediated only by Fc gamma 1/gamma 2R. On the other hand, the binding and subsequent ingestion of IgG2 antibody-sensitized erythrocytes (EA gamma 2) were substantially inhibited by anti-Fc gamma 2R Fab', but not by anti-Fc gamma 1/gamma 2R Fab'. The inhibitory activities of anti-Fc gamma 2R Fab' were dependent upon the amount of IgG2 antibody bound on erythrocytes; increasing the amount of bound IgG2 antibody from 0.15 to 0.91 micrograms/2 X 10(8) erythrocytes resulted in a decrease in the inhibition of binding of EA gamma 2 by anti-Fc gamma 2R Fab' from 50 to 0%, and also a decrease in the inhibition of ingestion of EA gamma 2 from 100 to 50%.(ABSTRACT TRUNCATED AT 250 WORDS)     

Serum amyloid P component and C-reactive protein mediate phagocytosis through murine Fc gamma Rs

The pentraxins, serum amyloid P component (SAP) and C-reactive protein (CRP) are acute-phase serum proteins in mice and humans, respectively. Although SAP binds to DNA and chromatin and affects clearance of these autoantigens, no specific receptor for SAP has been identified. CRP is an opsonin, and we have shown that it binds to FcgammaR. Mice deficient in FcgammaR were used to assess the role of these receptors in phagocytosis by pentraxins using zymosan as a ligand. Phagocytosis of zymosan by bone marrow macrophages (BMM) was enhanced by opsonization with SAP or CRP. BMM from mice deficient in all three FcgammaR or in gamma-chain ingested unopsonized zymosan, but phagocytosis of SAP- or CRP-opsonized zymosan was not enhanced. SAP binding to BMM from gamma-chain-deficient mice was also greatly reduced, indicating little or no binding of SAP to FcgammaRII. SAP and CRP opsonized zymosan for phagocytosis by BMM from mice deficient in FcgammaRII or FcgammaRIII. SAP, but not CRP, opsonized zymosan for uptake by neutrophils that express only low levels of FcgammaRI. Together these results indicate that FcgammaRI and FcgammaRIII are receptors for SAP in the mouse. Opsonization of zymosan by CRP is mediated through FcgammaRI. Pentraxins are major proteins of the innate immune system and arose earlier in evolution than Igs. The use of FcgammaR by the pentraxins links innate and adaptive immunity and may have important consequences for processing, presentation, and clearance of the self-Ags to which these proteins bind.     

Nitroblue tetrazolium-dye reduction by rat peritoneal macrophages during the uptake of Diplococcus pneumoniae,type VI

The relationship between the rate of particle ingestion and the rate of Nitroblue Tetrazolium (NBT)-dye reduction by macrophages was studied after incubation of peritoneal exudate macrophages with heat-killed type VI pneumococci. The adherence to a polyethylene surface of the macrophages during the uptake of the pneumococci was determined as well. In some experiments pneumococci opsonized with heat-stable opsonins were used as material to beingested. The NBT-dye reduction and the surface adherence of the macrophages was enhanced when ingesting normal heat-killed pneumococci. During the uptake of opsonized, heat-killed pneumococci the macrophages showed an unaltered NBT-dye reduction and less adherence to a polyethylene surface as compared with macrophages incubated with normal heat-killed pneumococci. This implies that using opsonized pneumococci the quantitative NBT-dye reduction assay is not reliable as a parameter for macrophage phagocytosis, because the uptake was in fact enhanced. The surface adherence of the macrophages did not reflect the enhanced ingestion of opsonized bacteria either.     

Augmentation of macrophage complement receptor function in vitro. V. Studies on the mechanisms of ligation of macrophage Fc receptors required to trigger macrophages to signal T lymphocytes to elaborate the lymphokine that activates macrophage C3 receptors for phagocytosis

We previously described a unique lymphokine that activates macrophage C3 receptors for phagocytosis. The lymphokine is generated when T lymphocytes receive a signal from macrophages that have ingested IgG-coated material. In the present work, we examined the mechanisms by which macrophage Fc receptors must be engaged for macrophages to signal lymphocytes to elaborate the lymphokine. We found that ingestion mediated by any of the three classes of murine macrophage Fc receptors was sufficient to trigger macrophages, and that engagement of macrophage Fc receptors by immobilized immune complexes was effective as well. We also found that ligation of Fc receptors by an anti-Fc receptor IgG antibody or by its F(ab')2 or Fab fragments also triggered macrophages. The ability of monovalent ligation of the receptor to elicit biologic activity suggests that this system may be of value in elucidating general mechanisms by which ligand binding of receptors is transduced into biologic effects.     

Antibody-mediated phagocytosis of the amyloid beta-peptide in microglia is differentially modulated by C1q

Microglial ingestion of the amyloid beta-peptide (Abeta) has been viewed as a therapeutic target in Alzheimer's disease, in that approaches that enhance clearance of Abeta relative to its production are predicted to result in decreased senile plaque formation, a proposed contributor to neuropathology. In vitro, scavenger receptors mediate ingestion of fibrillar Abeta (fAbeta) by microglia. However, the finding that cerebral amyloid deposition in a transgenic mouse model of Alzheimer's disease was diminished by inoculation with synthetic Abeta has suggested a possible therapeutic role for anti-Abeta Ab-mediated phagocytosis. Microglia also express C1qR(P), a receptor for complement protein C1q, ligation of which in vitro enhances phagocytosis of immune complexes formed with IgG levels below that required for optimal FcR-mediated phagocytosis. The data presented here demonstrate FcR-dependent ingestion of Abeta-anti-Abeta complexes (IgG-fAbeta) by microglia that is a function of the amount of Ab used to form immune complexes. In addition, C1q incorporated into IgG-fAbeta enhanced microglial uptake of these complexes when they contained suboptimal levels of anti-Abeta Ab. Mannose binding lectin and lung surfactant protein A, other ligands of C1qR(P), also enhanced ingestion of suboptimally opsonized IgG-fAbeta, whereas control proteins did not. Our data suggest that C1qR(P)-mediated events may promote efficient ingestion of Abeta at low Ab titers, and this may be beneficial in paradigms that seek to clear amyloid via FcR-mediated mechanisms by minimizing the potential for destructive Ab-induced complement-mediated processes.     

Determination of quantitative parameters of Escherichia coli phagocytosis by mouse peritoneal macrophages

Quantitative parameters of phagocytosis of fluorescein-labeled Escherichia coli cells by mouse peritoneal macrophages were studied using a fluorimetric method. E. coli cells were conjugated with fluoresceinisothiocyanate (FITC) and then incubated with macrophages. At the end of incubation, phagocytosis was stopped by the addition of a lysing solution (0.5% Triton X-100 in 0.01 M phosphate buffer in 0.15 M saline, pH 7.4). Trypan blue at a concentration of 0.04% was used as a quenching agent to differentiate between attached and ingested E. coli cells. It was shown that phagocytosis of E. coli cells depended on temperature and opsonization of bacteria. The number of E. coli cells ingested by macrophages increased rapidly for the initial 60 min of incubation at 37°C. To achieve optimal uptake of E. coli cells, their opsonization with 5% native serum was needed. The uptake of nonopsonized bacteria by macrophages was significantly lower than that of the opsonized ones (p < 0.05). Sodium azide was shown to produce a dose-dependent suppression of phagocytosis of E. coli cells by mouse peritoneal macrophages.     

Kinesin 5B is necessary for delivery of membrane and receptors during FcγR-mediated phagocytosis

FcγR-mediated phagocytosis is a cellular event that is evolutionary conserved to digest IgG-opsonized pathogens. Pseudopod formation during phagocytosis is a limiting step in managing the uptake of particles, and in this paper, we show that the conventional kinesin is involved in both receptor and membrane delivery to the phagocytic cup. Expression of a mutant kinesin isoform (GFP dominant negative mutant of kinesin H chain [EGFP-Kif5B-DN]) in RAW264.7 cells significantly reduced binding of IgG-sheep RBCs when macrophages were faced with multiple encounters with opsonized particles. Scanning electron microscopy analysis of EGFP-Kif5B-DN-expressing cells challenged with two rounds of IgG-sheep RBCs showed sparse, extremely thin pseudopods. We saw disrupted Rab11 trafficking to the phagocytic cup in EGFP-Kif5B-DN-transfected cells. Our particle overload assays also implicated phagosome membrane recycling in pseudopod formation. We observed reduced phagosome fission and trafficking in mutant kinesin-expressing cells, as well as reduced cell surface expression of FcγRs and Mac-1 receptors. In conclusion, anterograde trafficking via kinesin is essential for both receptor recycling from the phagosome and delivery of Rab11-containing membrane stores to effect broad and functional pseudopods during FcγR-mediated phagocytosis.     

Characteristics of the beta-glucan receptor of murine macrophages

Phagocytosis of heat-killed yeast (HK-yeast), zymosan, and glucan particles by thioglycollate-elicited mouse peritoneal macrophages (Tg-macrophages) was inhibited by soluble glucan polymers/oligomers. The inhibitory capacity of soluble glucans decreased steeply with the decrease in the degree of polymerization (DPn); i.e., the concentration at which 50% inhibition of phagocytosis was attained was 0.23 microgram/ml for glucan 1 (DPn 24.8), 0.8 microgram/ml for glucan 2 (DPn 21.9), and greater than 40 micrograms/ml for glucan 3 (DPn 13.8). The glucan polymers were obtained by partial hydrolysis of glucan particles with formic acid (90%, 95 degrees C, 20 min) and fractionation according to solubility in ethanol water mixtures. A short preincubation (5 min, 4 or 37 degrees C) of Tg-macrophages with glucan 1 led to a subsequent inhibition of HK-yeast phagocytosis. Recovery of the phagocytic function was slow (27% in 3 h; 68% in 5 h) and required protein synthesis. beta-Glucan receptor expression was also suppressed by dexamethasone treatment. Mannan exerted at high concentrations (5 mg/ml) a partial inhibitory activity which was totally abrogated by beta-glucanase treatment. Treatment of macrophages with glucan together with mannan did not enhance the inhibitory capacity of glucan beyond the component abrogated by enzyme treatment. Contribution of local opsonization of HK-yeast to the phagocytic response (involvement of complement receptors) was indirectly negated; (a) glucan 1 which inhibits HK-yeast phagocytosis by up to 95% is not an activator of complement and therefore could not compete for the opsonizing proteins; (b) cycloheximide treatment in itself inhibited only partially HK-yeast phagocytosis whereas it inhibited the reexpression of the glucan receptors; (c) glucan 1 did not affect the phagocytosis of serum opsonized HK-yeast. Thus under the experimental conditions described, phagocytosis of HK-yeast by murine macrophages is mediated by and large by the beta-glucan receptors, while the mannose receptors and complement receptors do not contribute to the process.