C-reactive protein receptors on the human monocytic cell line U-937. Evidence for additional binding to Fc gamma RI.

C-reactive protein (CRP) is an acute-phase protein that binds to components of damage tissue, activates C, and stimulates phagocytic cells. CRP binding to receptors on monocytic and polymorphonuclear phagocytes has been shown. Recently, CRP-binding proteins of 38 to 40 kDa and 57 to 60 kDa have been identified on the human promonocyte cell line U-937 and the mouse macrophage cell line PU5 1.8, respectively. However, analysis of CRP binding to these cells and to peripheral blood leukocytes suggests that additional CRP receptor sites may be present. Because many studies have shown interactions between CRP binding and IgG binding to leukocytes, we have examined further the CRP binding sites on U-937 cells and determined their relationship to the FcR for IgG (Fc gamma R) expressed on these cells. Our results demonstrate specific saturable binding of CRP to peripheral blood monocytes and U-937 cells, which is readily inhibited by aggregated IgG. Monomeric IgG, which binds specifically to Fc gamma RI, inhibited a maximum of 20% of CRP binding to these cells. mAb 197 and mAb IV.3, which block IgG binding to Fc gamma RI and Fc gamma RII, respectively, failed to inhibit CRP binding to U-937 cells. Two CRP-binding molecules were identified by precipitation of lysates from surface-labeled U-937 cells and cross-linking experiments. One of these had a molecular mass of 43 to 45 kDa, similar to the molecule previously described as the CRPR on U-937 cells. The other had the same mobility by SDS-PAGE as Fc gamma RI. The identity of this protein with Fc gamma RI was confirmed by the ability of both IgG-Sepharose and CRP-Sepharose to preclear the protein from cell lysates and by inhibition of binding to both IgG-Sepharose and CRP-Sepharose by anti-Fc gamma RI mAb 197.     

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.     

A quantitative fluorometric assay for detection and characterization of Fc receptors

A new quantitative fluorometric binding assay that uses fluoresceinated aggregated IgG is proposed for the study of Fc receptors. The method was compared with a radiolabeling binding assay on three well characterized murine cell lines (38C-13, EL4, and BW). The apparent association constant of the binding and the amount of aggregated IgG bound per cell at saturation were calculated. The fluorometric assay enables the detection of 5 X 10(-10) M bound aggregated IgG. Inhibition studies with monomeric IgG, reduced and alkylated aggregated IgG, and aggregated F(ab')2 fragments of IgG confirmed the specificity of the assay. Staphylococcal protein A inhibited the binding of the aggregated IgG to Fc receptors.     

An Fc-receptor activity of plasma membranes from guinea-pig peritoneal polymorphonuclear leucocytes.

Plasma membranes prepared from guinea-pig peritoneal polymorphonuclear leucocytes showed an immune-complex-binding activity that corresponded well with the activity in intact cells. The characteristics of this activity were reversible binding, dependence on the Fc portion of antigen-complexed IgG (immunoglobulin G), competition with aggregated IgG and independence from energy metabolism. These results support the conclusion that the binding activity found in the isolated plasma membranes is an Fc-receptor activity of guinea-pig peritoneal polymorphonuclear leucocytes. The activity showed Kd = 6.7 x 10(-8) M-IgG and maximum binding of 17 pmol of IgG/mg of membrane protein when measured with an immune complex of alpha-amylase and homologous guinea-pig anti-(alpha-amylase) IgG. Inhibition of the Fc-receptor activity by a series of various salts indicated the contribution of the hydrophobic interaction to the binding. Inhibitory effects of salts or metal-chelating reagents on the Fc-receptor activity were also observed on superoxide generation by these cells induced by the immune complex, suggesting a role of the Fc receptor as the immune-complex-binding site responsible for the initiation of superoxide generation.     

Evidence for cross-regulation of Fc gamma RIIIB (CD16) receptor-mediated signaling by Fc gamma RII (CD32) expressed on polymorphonuclear neutrophils.

Human polymorphonuclear neutrophils (PMN) express the low affinity receptors for the Fc domain of IgG (Fc gamma R), Fc gamma RII (CD32), and the glycosyl phosphatidylinositol-linked isoform of Fc gamma RIII (Fc gamma RIIIB, CD16) on their cell surface. Both of these receptors have been shown to be signal-transducing molecules. However, the mechanisms involved in such signaling are not clearly understood. In this report, we investigated intracellular Ca2+ ([Ca2+]i) signals triggered in PMN by both the receptors using aggregated human IgG (AggIgG) and specific mAb to Fc gamma RII (KuFc79) and Fc gamma RIII (3G8) as ligands. Addition of AggIgG as well as cross-linking of mAb KuFc79 and 3G8 bound to PMN induced [Ca2+]i flux. However, preincubation of PMN with mAb KuFc79 (whole Ig or Fab fragments) in the absence of cross-linking abrogated the [Ca2+]i flux induced by AggIgG and mAb 3G8, indicating that Fc gamma RII receptor occupancy by mAb KuFc79 can block signals mediated by Fc gamma RIIIB. KuFc79-isotype-matched control mAb (MOPC 195) did not abolish the signals generated by AggIgG and mAb 3G8. In addition, mAb KuFc79 did not abrogate [Ca2+]i responses elicited by the receptor for the chemotactic peptide FMLP indicating that modulation of signal transduction by Fc gamma RII-bound KuFc79 is selective for certain receptors. Immunofluorescence analysis of PMN initially treated with mAb KuFc79 followed by AggIgG showed that KuFc79 did not block the binding of AggIgG to PMN. Similarly, competitive binding studies revealed no stearic hindrance between mAb KuFc79 bound to Fc gamma RII and mAb 3G8 bound to Fc gamma RIIIB. Thus, the ability of mAb KuFc79 to modulate signals induced by AggIgG and 3G8 strongly suggests that Fc gamma RII may regulate Fc gamma RIIIB signaling. While previous studies on Fc gamma RII revealed a requirement for cross-linking of the receptor to induce its effector functions, the present study shows that binding of mAb KuFc79 to Fc gamma RII itself, even in a univalent form, results in cross-regulation of Fc gamma RIIIB-triggered signals. Treatment of PMN with protein tyrosine kinase inhibitors, genistein and herbimycin A, abrogated the [Ca2+]i signals elicited by both mAb KuFc79 and 3G8. These results suggest that tyrosine kinase enzyme(s) associated with these receptors may be crucial for positive/negative signals triggered by Fc gamma RII and Fc gamma RIIIB.     

Analysis of mononuclear cell surfaces with fluoresceinated staphylococcal protein A complexed with IgG antibody of heat-aggregated gamma-globulin.

Fluorescein-conjugated staphylococcal protein A (SPA) was complexed with either: 1) heat-aggregated IgG, 2) B cell specific antibody, or 3) T cell specific antibody and then used for an immunofluorescent analysis of mononuclear cell surfaces. Cellular Fc receptors failed to recognize the Fc region of aggregated IgG that had been blocked by SPA. Moreover, fluoresceinated SPA that had been complexed either with anti-Fab (B-cell specific) or T cell-specific antisera prevented the nonspecific binding of these reagents to the IgG-Fc receptors on mononuclear cells, thereby permitting the latter to be properly identified as B or T lymphocytes. In addition, when unconjugated SPA was added to presensitized target cells in a test for antibody-dependent cell-mediated cytotoxicity, cytolysis was abrogated.     

An appraisal of Fc receptors on human peripheral blood B and L lymphocytes.

Human circulating lymphocytes with easily detectable surface immunoglobulin have been divided into two populations, B cells and L cells. This second population lacks membrane-incorporated Ig, but has a receptor for membrane-labile cytophilic IgG. In this study purified B and L lymphocytes were examined for Fc receptors that bind aggregated IgG and IgG complexed to erythrocytes. Purified lymphocyte populations were prepared by nylon columns and by negative selection with rosetting techniques. L lymphocytes bound aggregated guinea pig and human IgG, and formed rosettes with human erythrocytes sensitized with Ripley IgG (EA). Treatment of L lymphocytes with trypsin had no effect on the receptors for IgG. B lymphocytes did not bind EA and attachment of aggregated IgG was variable; up to one-third of these cells fixed aggregated human IgG to the cell membrane. Trypsin treatment abolished binding of Agg-IgG to B cells in sharp contrast to its effect on L cells. Furthermore, double-label immunofluorescence studies showed that cells with both membrane-incorporated Ig and receptors for aggregated guinea pig IgG were rare. These studies indicate that human peripheral blood B lymphocytes lack a high affinity, trypsin-resistant Fc receptor that is present on L lymphocytes.     

Triggering of the superoxide generation of macrophages by crosslinking of Fc gamma receptor

Crosslinking of monomeric IgG2 molecules bound to the Fc gamma receptors on the cell surface of guinea pig macrophages generated the triggering signal for the superoxide-generating system. A binding experiment indicated that macrophages have saturable binding sites for monomeric IgG2. Scatchard analysis of the binding data showed that macrophages have an average of 4 X 10(5) binding sites per cell and the association constant for the binding was 4.2 X 10(6) M-1. Binding of monomeric IgG2 to macrophages could be detected by subsequent reaction with the 125I-labeled F(ab')2 fragment of rabbit antibody specific for guinea pig Fab. Although binding of IgG2 monomer to Fc receptor did not stimulate superoxide release, further addition of the F(ab')2 fragment of anti-guinea pig Fab antibody did induce generation and release of superoxide, and the amount released was dependent on the dose of cell-bound IgG2. When macrophages were bound with a constant dose of IgG2 monomer in the first step, the superoxide release triggered by the addition of the F(ab')2 of anti-guinea pig Fab was dependent on the dose of the F(ab')2 fragment added. These results show that crosslinking of Fc receptors triggers the superoxide generation.     

Alterations in intramembrane particle distribution during interaction of erythrocyte-bound ligands with immunoprotein receptors

Freeze fracture studies have been performed on rabbit pulmonary alveolar macrophages and a nonphagocytic murine lymphoblastoid cell line, PU-5 Fc+, incubated with sheep erythrocytes, sheep erythrocyte-IgG Forssman antibody complex, sheep erythrocyte-IgG Forssman antibody-C complexes and aggregated IgG. Alveolar macrophages show redistribution of intramembrane particles after interaction with (EIgG) and E(IgM)C. The murine lymphoblastoid cell line shows intramembrane particle redistribution consequential to binding of E(IgG) and aggregated IgG. The results demonstrate that after specific immunoprotein receptor-ligand interaction, there is extensive plasma membrane reorganization which results in a redistribution and loss of intramembrane particles. Changes are observed in the protoplasmic face of the plasma membrane after the binding of ligand to the outer membrane surface. The findings suggest that interaction of erthrocyte-bound ligands with specific lymphoid and macrophage plasma membrane receptors leads to a generalized redistribution of integral membrane components in the membrane.     

Studies on Fc receptor function. I. IgG-mediated inhibition of B lymphocyte activation by T-dependent and T-independent antigens.

Mouse aggregated IgG, when continuously present in cultures of mouse spleen cells immunized with sheep erythrocytes, causes a dose dependent inhibition of the generation of plaque forming cells with a maximum of about 90% at 400 μg IgG/culture. Unaggregated IgG induces a similar inhibition, whereas treatment with mouse albumin or F (ab¹)₂, under the same conditions, does not affect the generation of plaque forming cells.It has been reported that unaggregated IgG binds poorly to Fc receptors of B lymphocytes and thus should not be expected to inhibit PFC generation if the effect is at the level of B lymphocyte Fc receptors. Competitive binding experiments were carried out and showed that aggregated and unaggregated IgG compete similarly with ¹²⁵I-labeled aggregated IgG for binding to Fc receptors of mouse spleen cells.The same inhibition of PFC can be induced by aggregated IgG in cultures of B lymphocytes immunized with the T-independent antigen DNP-Ficoll. When IgG is absorbed extensively with sheep erythrocytes and added to cultures immunized with sheep erythrocytes, PFC generation is inhibited to a level comparable to that of nonabsorbed IgG.These results suggest that IgG binding to Fc receptors leads to a severe inhibition of the induction of PFC by both T-dependent and T-independent antigens. This and other work from our laboratory indicate that this effect may be at the level of B lymphocyte Fc receptors.Taken together with reports from several laboratories, the data presented here suggest that Fc receptors may have a regulatory role on the activation of B lymphocytes by antigens or mitogens.     

Induction of surface IgG receptors in cytomegalovirus-infected human fibroblasts

Binding studies on diploid human fibroblasts with human immunoglobulin G (IgG) demonstrate the existence of a specific receptor for this class of immunoglobulin. The receptor preferentially binds aggregated human IgG and recognizes these complexes via the Fc portion of the molecule. Cytomegalovirus infection of diploid human fibroblasts results in a more than 100-fold increase in the number of IgG-receptors present on the cell surface. The binding of aggregated IgG by these newly expressed receptors exhibits the characteristics of the binding mediated by the receptors detectable in uninfected cells.     

Immune complex-stimulated neutrophil LTB4 production is dependent on beta 2 integrins

The beta 2 integrins (LFA-1, Mac-1, and p150,95) are critical for many adhesive functions of leukocytes. Although the binding of the IgG- opsonized particles occurs normally in the absence of beta 2 integrins, phagocytosis of IgG-opsonized particles by activated neutrophils (PMN) requires these integrins. This observation suggests a role for beta 2 integrins in phagocytosis subsequent to particle binding. To investigate the mechanism of involvement of beta 2 integrins in IgG- mediated functions, we examined the role of beta 2 integrins in adhesion to immune complex (IC)-coated surfaces. Initial adhesion and spreading on IC-coated surfaces were equivalent in control and beta 2- deficient phagocytes. However, both genetically beta 2-deficient PMN and PMN treated with the anti-beta 2 mAb IB4 subsequently detached from the IC-coated surfaces. To determine whether biochemical consequences of IgG activation were also affected by beta 2 deficiency, LTB4 production in response to Fc receptor ligation was assessed. LTB4 production by beta 2-deficient PMN adherent to IC-coated surfaces was markedly decreased in comparison with control PMN. Importantly, LTB4 production by PMN stimulated with fluid phase heat-aggregated IgG also required the beta 2 integrins, showing that the defect was not a simple consequence of abnormal adhesion. In contrast, superoxide production by IC-adherent PMN was equivalent in control and beta 2-deficient PMN. The initial rises in intracytoplasmic [Ca2+]i in response to aggregated IgG also were unaffected by inhibition of beta 2 integrins. These data show that lack of beta 2 integrins does not inhibit all FcR-dependent signal transduction. Finally, LTB4 production by normal PMN adherent to ICs was inhibited by antibodies to FcRII, but not FcRIII, showing that FcRII ligation was required for this effect. Together these data identify a role for the beta 2 integrins in a signal transduction pathway leading to sustained adhesion and LTB4 production in response to IC. Since both beta 2 integrins and FcRII are required for these effects, the data further suggest cooperation between these receptors in generating PMN activation in response to IC stimulation.     

Immunoreactivity of cytomegalovirus-induced Fc receptors

The present studies were undertaken to characterize the affinity of CMV-induced Fc receptors for each of the subclasses of human IgG and to define the specific region of the IgG Fc fragment interacting with such receptors. To do this, we infected confluent human embryonic lung (HEL) cell monolayers with CMV (strain AD169) and then used a double radiolabel assay to measure adherence of antibody-coated E. coli 06 to such monolayers. Preincubating monolayers with each of the 4 subclasses of human IgG (but not IgA, IgM, or human or bovine albumin) abrogated the enhancing effect of CMV infection on adherence of antibody-coated E. coli 06 to HEL monolayers. Pepsin-derived, purified Fc fragments of human IgG had a similar abrogative effect. Preincubating these with staphylococcal protein A did not reduce their capacity to interfere with binding of antibody-coated E. coli to CMV-induced Fc receptors. These observations establish a broad range of immunoreactivity for CMV-induced Fc receptors, that encompasses all 4 subclasses of human IgG. They also provide indirect evidence that the reaction site of CMV-induced Fc receptors is in the CH2 domain of the Fc fragment.     

Fc gamma-receptor-mediated changes in the plasma membrane potential induce prostaglandin release from human fibroblasts

Binding of aggregated human immunoglobulin G (IgG) on diploid human fibroblasts leads to a rapid depolarization of the cells within 1-2 min. We resolved this membrane potential change into its plasma membrane and mitochondrial membrane components by measuring the transmembrane distribution of the lipophilic tritium-labelled cation tetraphenylphosphonium, [3H]Ph4P+. The responsibility of the plasma membrane for the membrane potential change, induced by binding of IgGs, is demonstrated. The IgG-induced membrane depolarization leads to the induction of prostaglandin E2 synthesis. Aggregated immunoglobulins (IgG) are specifically bound via the Fc portion because only binding of Fc fragments, in contrast to (Fab')2 fragments, leads to a stimulation of prostaglandin E2 synthesis comparable to that mediated by IgGs. Depolarization of the plasma membrane by short incubation of the fibroblasts in high-K+ buffer (5 min) results in a stimulation of prostaglandin E2 synthesis comparable to that mediated by either aggregated human IgGs or Fc fragments. Our previous results on Fc gamma-receptor-mediated antigen-IgG-antibody complex internalization showed that a maximum uptake of these complexes could be detected 60-90 min after binding. Therefore, we conclude that not internalisation but binding of aggregated IgGs to the Fc gamma receptors on human fibroblasts is the stimulus for plasma membrane depolarization leading to an enhanced prostaglandin E2 release.     

The effect of human C-reactive protein on the cell-attachment activity of fibronectin and laminin

We have previously reported that purified human C-reactive protein (CRP) specifically binds to the cell-binding region of plasma fibronectin (Fn) in a Ca2+-dependent reaction that is saturable at a molar ratio of CRP/Fn of approximately 9. In this study, the binding of CRP to Fn was found to interfere with the cell-attachment promoting activity of Fn. The inhibition of cell attachment was dependent on the concentration of the CRP and involved the phosphorylcholine (PC) binding site of CRP since inhibition was prevented by allowing the CRP to react with either PC (or closely related monophosphate compounds) or a mAb specific for the PC-binding site of CRP. Binding of CRP to laminin was also Ca2+-dependent; however, this binding did not alter the cell-attachment promoting activity of laminin. CRP by itself does not mediate cell attachment. Since CRP is selectively deposited at sites of tissue damage along with plasma Fn and has the ability to bind to Fn and alter its cell-binding activity, CRP may modulate early events in tissue repair.     

Binding of fibronectin by the acute phase reactant C-reactive protein

Following tissue injury, the concentration of C-reactive protein (CRP) is known to increase in plasma rapidly, while that of fibronectin often decreases. We now report that CRP immobilized onto polystyrene surfaces binds soluble plasma fibronectin (Kd = 1.5 X 10(-8) M). The binding of fibronectin by CRP was relatively sensitive to ionic conditions, being maximal at physiological NaCl concentrations. A decrease of pH from neutral to 5-6 greatly enhanced the binding of fibronectin by CRP. Ca2+ ions at greater than 1 mM inhibited binding. No binding was observed between fibronectin and CRP in soluble phase. CRP was found also to bind fibrinogen, which competed with fibronectin for CRP-binding sites. This was shown to explain why fibronectin was effectively bound from serum but not from plasma by immobilized CRP. The amount of CRP immobilized was critical in binding fibronectin; a too dense molecular layer of CRP inhibited the binding, as did the postsaturation of free surfaces with albumin, which itself was not bound by CRP. Soluble fibronectin agglutinated CRP-coated latex particles. Most or all of the CRP-binding activity in the fibronectin molecule was localized to the 120-140-kilodalton fragment, which also contains cell-binding and heparin-binding domains of fibronectin. The results provide a link between acute phase response and tissue repair.     

The human IgA-Fc alpha receptor interaction and its blockade by streptococcal IgA-binding proteins

IgA plays a key role in immune defence of the mucosal surfaces. IgA can trigger elimination mechanisms against pathogens through the interaction of its Fc region with Fc alpha Rs (receptors specific for the Fc region of IgA) present on neutrophils, macrophages, monocytes and eosinophils. The human Fc alpha R (CD89) shares homology with receptors specific for the Fc region of IgG (Fc gamma Rs) and IgE (Fc epsilon RIs), but is a more distantly related member of the receptor family. CD89 interacts with residues lying at the interface of the two domains of IgA Fc, a site quite distinct from the homologous regions at the top of IgG and IgE Fc recognized by Fc gamma R and Fc epsilon RI respectively. Certain pathogenic bacteria express surface proteins that bind to human IgA Fc. Experiments with domain-swap antibodies and mutant IgAs indicate that binding of three such proteins (Sir22 and Arp4 of Streptococcus pyogenes and beta protein of group B streptococci) depend on sites in the Fc interdomain region of IgA, the binding region also used by CD89. Further, we have found that the streptococcal proteins can inhibit interaction of IgA with CD89, and have thereby identified a mechanism by which a bacterial IgA-binding protein may modulate IgA effector function.     

Characterization of the Fc receptor for IgG2 on guinea pig polymorphonuclear leukocytes by the use of a monoclonal antibody

Guinea pig polymorphonuclear leukocytes (PMNs) possess two distinct types of Fc gamma receptor (Fc gamma R): Fc gamma 1/gamma 2R for both IgG1 and IgG2, and Fc gamma 2R for IgG2 alone. The Fc gamma 2R was previously shown to differ antigenically from homologous macrophage (M phi) Fc gamma 2R by the use of a monoclonal antibody to M phi Fc gamma 2R (VIIAI IgG1), though the Fc gamma 1/gamma 2R cross-reacts with a monoclonal antibody to homologous M phi Fc gamma 1/gamma 2R (VIA2 IgG1). Recently, we obtained a monoclonal antibody (MP-2) secreted by a hybridoma prepared by fusion of the splenic cells of mice immunized with guinea pig PMNs with a myeloma cell line. This antibody completely inhibited both the Fc gamma 2R-mediated rosette formation of PMNs with IgG2 antibody-sensitized sheep erythrocytes and the Fc gamma 2R-mediated binding of ovalbumin (OA)-complexed IgG2 antibody to PMNs. When the antigen of MP-2 was isolated by affinity chromatography with the antibody-Sepharose, it gave a single band with a molecular weight of 120,000 on SDS-PAGE. The number of antigen molecules per PMN was estimated to be 9 X 10(4) by measuring the binding of 125I-MP-2 Fab. This value was essentially the same as that obtained by measuring the binding of OA-complexed IgG2 antibody to the PMNs treated with the Fab' of VIA2 IgG1. These results strongly suggest that MP-2 is a monoclonal antibody to PMN Fc gamma 2R.     

Human lymphocyte receptors for the Fc ends of IgG

Receptors for Fc IgG can be demonstrated by the binding of aggregated IgG or erythrocyte-IgG antibody complexes (EAG) onto subsets of B, T and "nul" lymphocytes. Among such cells are the effectors of antibody-dependent cell-mediated cytoxicity, and suppressor T cells. The binding of insoluble complexes induces a reversible modulation of the receptors associated with impaired proliferative T cell responses and transient inhibition of IgM receptors expression by adjacent T cells. Soluble receptors for Fc IgG bear a membrane binding site; they inhibit in vitro B cell differentiation induced by-T-dependent or T-independent polyclonal B cell activators.     

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.