Recombinant human IgG1-murine IgE chimeric Ig. Construction, expression, and binding to human Fc gamma receptors

We have constructed a set of chimeric Ig by exchanging corresponding H chain C domains between human (hu) IgG1 and murine (m) IgE. We used this set of Ig to dissect the interaction of individual Ig domains with human Fc gamma receptors. Only one of the chimeras, epsilon/C gamma 2,3 (an mIgE with C epsilon 3 and C epsilon 4 replaced by C gamma 2 and C gamma 3 from huIgG1), binds tightly to the human Fc gamma RI on U937 cells. We found that epsilon/C gamma 2,3 has only twofold lower affinity for Fc gamma RI as compared to huIgG1. The gamma/C epsilon 4 (huIgG1 with C epsilon 4 replacing C gamma 3) binds weakly to Fc gamma RI. The other chimeric Ig, epsilon/C gamma 3, epsilon/C gamma 2, and gamma/C epsilon 3, as well as mIgE do not bind detectably to Fc gamma RI. From these data we conclude that the C gamma 2 domain is crucial for binding and contains the majority of the binding site for Fc gamma RI on IgG1. The C gamma 3 domain makes a smaller contribution to the binding, and the C gamma 1 domain and the hinge region have very little effect on the Fc gamma RI-IgG1 interaction. The chimeric epsilon/C gamma 2,3 and huIgG1 both mediate the formation of rosettes between K562 cells and antigen-sensitized E with similar concentration dependences. These results suggest similar ability to bind to Fc gamma RII. The other chimeric Ig do not cause rosettes in this assay system. Hence, both C gamma 2 and C gamma 3 seem to be required for binding to Fc gamma RII, but the C gamma 1-hinge region has no detectable effect.     

The IgG Fc contains distinct Fc receptor (FcR) binding sites: the leukocyte receptors Fc gamma RI and Fc gamma RIIa bind to a region in the Fc distinct from that recognized by neonatal FcR and protein A

The CH2-CH3 interface of the IgG Fc domain contains the binding sites for a number of Fc receptors including Staphylococcal protein A and the neonatal Fc receptor (FcRn). It has recently been proposed that the CH2-CH3 interface also contains the principal binding site for an isoform of the low affinity IgG Fc receptor II (Fc gamma RIIb). The Fc gamma RI and Fc gamma RII binding sites have previously been mapped to the lower hinge and the adjacent surface of the CH2 domain although contributions of the CH2-CH3 interface to binding have been suggested. This study addresses the question whether the CH2-CH3 interface plays a role in the interaction of IgG with Fc gamma RI and Fc gamma RIIa. We demonstrate that recombinant soluble murine Fc gamma RI and human Fc gamma RIIa did not compete with protein A and FcRn for binding to IgG, and that the CH2-CH3 interface therefore appears not to be involved in Fc gamma RI and Fc gamma RIIa binding. The importance of the lower hinge was confirmed by introducing mutations in the proposed binding site (LL234,235AA) which abrogated binding of recombinant soluble Fc gamma RIIa to human IgG1. We conclude that the lower hinge and the adjacent region of the CH2 domain of IgG Fc is critical for the interaction between Fc gamma RIIa and human IgG, whereas contributions of the CH2-CH3 interface appear to be insignificant.     

Fc gamma 2b receptor-mediated prostaglandin synthesis by a murine macrophage cell line (P388D1)

The nature of signals transmitted by two types of Fc gamma receptors (one specific for IgG2b and the other for IgG2a) present on the surface of a murine macrophage cell line (P388D1) was investigated. Specific binding of IgG2b (presented as EA2b) to cell surface Fc gamma 2br triggered the release of 3H-arachidonic acid and 3H-prostaglandins (PG) from P388D1 cells that were prelabeled with 3H-arachidonate. The release of 3H-arachidonic acid, which increased in a dose-dependent manner, was enhanced by exogenous Ca++ (1.25 mM) and was completely blocked by ethylenediaminetetraacetate (EDTA) (4 mM) or a phospholipase A2 inhibitor, p-bromophenacylbromide (7 microgram/ml). A cyclooxygenase inhibitor, indomethacin (9 microgram/ml), reduced the 3H-arachidonic acid release and completely blocked the conversion of arachidonate into PG. Cytochalasin D (1 microgram/ml), which inhibited the phagocytosis of immune complexes by 90% of P388D1 cells, did not affect the Fc gamma 2bR-triggered release of arachidonic acid. Specific binding of IgG2a (presented as EA2a) to cell surface Fc gamma 2aR did not trigger the release of either 3H-arachidonic acid or 3H-PG from P388D1 cells. Our data demonstrate a signal for the activation of the arachidonic acid metabolic cascade is transmitted by Fc gamma 2bR, but not by Fc gamma 2aR, on the surface of P388D1 cells, probably through the initial activation of the phospholipase A2 activity associated with Fc gamma 2bR.     

T15 group A streptococcal Fc receptor binds to the same location on IgG as staphylococcal protein A and IgG rheumatoid factors

Previous work has shown that IgG rheumatoid factors (RF) bind to the C gamma 2-C gamma 3 interface region of human IgG in the same area that binds staphylococcal protein A (SPA). Group A, C, and G strains of Streptococci possess Fc receptors that bind to IgG but not to fragments containing only the C gamma 2 or C gamma 3 domains. This work describes the binding site location on human IgG for the binding of the isolated Fc receptor from the T15 strain of a Group A streptococcus and its relationship to the site that binds SPA and the IgG RF. The isolated T15 Fc receptor (T15) with a molecular mass of 29.5 kD inhibited the binding of IgG RF to IgG. The binding of T15 itself to IgG was strongly inhibited by SPA (42.0 kD) and its monovalent fragment D (7 kD). Human IgG fragments consisting of the C gamma 3 domains did not inhibit the binding of T15 to IgG, whereas those with both domains were effective inhibitors. T15 did not bind to rabbit IgG fragments consisting of either the C gamma 2 or C gamma 3 domains, but did bind to those with both domains. An IgG3 myeloma protein was a poor inhibitor and has been shown to bind poorly to the IgG RF. Most IgG3 myeloma proteins did not bind to SPA. The substitution of Arg and Phe for His 435 and Tyr 436 is responsible for the poor binding of IgG3 to SPA and to the IgG RF. Chemical modification of His or Tyr on IgG reduced its ability to inhibit the binding of T15 to IgG. Reversal of the chemical modifications with hydroxylamine resulted in near complete restoration of inhibitory capacity. This information, collectively, coupled with the known positions in space of the His and Tyr residues in the C gamma 2-C gamma 3 interface region, verified that both His 435 and Tyr 436, and possibly His 310 and 433, are involved. These residues are also involved in binding SPA and the IgG RF. These data therefore indicate that the T15 Group A Streptococcal Fc receptor binds to the same location on the Fc of IgG as SPA and the IgG RF. The biologic relevance of these similarities between bacterial cell wall Fc receptors and IgG RF are not yet apparent, but suggest that RF could bear the internal image of these bacterial structures.     

Chimeric Fc receptors identify functional domains of the murine high affinity receptor for IgG.

Chimeric Fc gamma R have been generated between the mouse high affinity receptor for IgG (Fc gamma RI) and the low affinity receptor for IgG (Fc gamma RII) by exchanging the first two domains of the three-domain extracellular structure of Fc gamma RI with the homologous two-domain extracellular structure of Fc gamma RII. Studies of the affinity and specificity of binding of mouse Ig classes to these receptors defined functional regions of Fc gamma RI and showed some surprising results. After removal of the third extracellular domain of Fc gamma RI, the remaining two domains (domains 1 and 2) retained the capacity to bind Ig in the form of immune complexes, however, they bound monomeric IgG2a with a reduced affinity. Surprisingly, these two domains in the absence of the third domain bound not only IgG2a but also IgG1 and IgG2b, i.e., the third domain of Fc gamma RI suppresses the intrinsic capacity of the first two domains to act as a low affinity Fc gamma RII-like molecule. Linking the third extracellular domain of Fc gamma RI to the two extracellular domains of Fc gamma RII resulted in a receptor that retained the specificity and affinity of Fc gamma RII. Thus, the removal of domain 3 from Fc gamma RI resulted in the conversion of Fc gamma RI to an "Fc gamma RII-like" receptor. These findings indicate that domains 1 and 2 of Fc gamma RI form an Ig-binding motif, and although domain 3 is not essential for Fc binding by Fc gamma RI, it plays a crucial role in determining the specific high affinity interaction of Fc gamma RI with IgG2a.     

Fc gamma 2b receptor-mediated phagocytosis by a murine macrophage-like cell line (P388D1) and peritoneal resident macrophages. Up-regulation by the inhibitors of phospholipase A2 and cyclooxygenase

The mechanisms of Fc gamma R-mediated phagocytosis of immune complexes were investigated by the use of a murine macrophage-like cell line (P388D1) and murine peritoneal resident macrophages. About 40 to 80% of P388D1 cells phagocytosed SRBC coated with IgG2a subclass anti-SRBC mAb (EA2a) within 60 min, whereas only 10 to 20% of the cells phagocytosed EA2b during the same period. The treatment of P388D1 cells with inhibitors of phospholipase A2 (p-bromophenacylbromide, EGTA, or dexamethasone) or of cyclooxygenase (indomethacin or aspirin) significantly promoted the Fc gamma 2bR-mediated phagocytosis of EA2b, but did not affect the Fc gamma 2aR-mediated phagocytosis of EA2a. These results suggest that the activation of phospholipase A2 activity associated with Fc gamma 2bR may lead to the inhibition of phagocytosis of EA2b. This inhibition appeared to be due to the blockade of the interaction of Fc gamma 2bR with various cytoskeletal components, because the association of Fc gamma 2bR and these cytoskeletal components, which could be eliminated by cytochalasin D, was found to be increased by the inhibition of phospholipase A2 activity.     

Mutations within a human IgG2 antibody form distinct and homogeneous disulfide isomers but do not affect Fc gamma receptor or C1q binding

Human IgG2 antibodies may exist in at least three distinct structural isomers due to disulfide shuffling within the upper hinge region. Antibody interactions with Fc gamma receptors and the complement component C1q contribute to immune effector functions. These interactions could be impacted by the accessibility and structure of the hinge region. To examine the role structural isomers may have on effector functions, a series of cysteine to serine mutations were made on a human IgG2 backbone. We observed structural homogeneity with these mutants and mapped the locations of their disulfide bonds. Importantly, there was no observed difference in binding to any of the Fc gamma receptors or C1q between the mutants and the wild‐type IgG2. However, differences were seen in the apparent binding affinity of these antibodies that were dependent on the selection of the secondary detection antibody used.     

T cell unresponsiveness to the mitogenic activity of OKT3 antibody results from a deficiency of monocyte Fc gamma receptors for murine IgG2a and inability to cross-link the T3-Ti complex

We recently identified defective monocyte accessory function as the cause of T cell unresponsiveness to the mitogenic activity of OKT3 antibody in cultures of peripheral blood mononuclear cells (PBMC) from five healthy subjects, members of one family. We now report that the underlying abnormality in nonresponders is at the level of monocyte Fc gamma receptors for murine IgG2a. T cell unresponsiveness was not restricted to the signal provided by OKT3 but occurred also for two other anti-T3 antibodies of the IgG2a subclass, in contrast to a normal proliferative response to IgG1 anti-T3 antibodies in one of the OKT3 nonresponders. By using cytofluorography, we found that monocytes from responders but not from nonresponders bound OKT3-FITC to their membrane. The binding could be blocked by mouse IgG2a and by human IgG, but not by mouse IgG1 nor by serum albumin. The data suggest that, through specific Fc gamma receptors for murine IgG2a, monocytes bind the Fc portion of OKT3 during T cell activation. The function of this Fc gamma receptor binding was further studied by culturing PBMC from nonresponders on plates coated with affinity-purified goat anti-mouse IgG antibodies as a substitute for monocyte Fc gamma receptors. The addition of OKT3 to nonresponder PBMC, cultured on such plates, resulted in T cell activation, as evidenced by thymidine incorporation, IL 2 production, and expression of IL 2 receptors. Soluble anti-mouse IgG was not able to substitute for monocyte Fc gamma receptors. The results demonstrate the existence of polymorphism in monocyte Fc gamma receptors for murine IgG2a. They also substantiate that an essential helper function of monocytes in T cell activation by anti-T3 is to provide a matrix for multimeric binding of the Fc portion of the anti-T3 antibodies in order to cross-link T3 molecules.     

Human Fc gamma RI and Fc gamma RII interact with distinct but overlapping sites on human IgG.

Cellular receptors for IgG (Fc gamma R) mediate important protective functions. By using site-specific mutants of a chimeric antibody (mouse V H domain and L chain; human IgG3 C H domains), we have demonstrated that human Fc gamma RI interacts with a site in the lower hinge of human IgG (residues 234 to 237) and that this interaction dictates Fc gamma RI-mediated superoxide generation. Mutations at position 235 resulted in the most profound reductions in Fc gamma RI recognition. We have also mapped an interaction site for Fc gamma RII to the same region; however, mutations at position 234 and 237 resulted in the greatest reductions in Fc gamma RII recognition. The two receptors appear to recognize overlapping but nonidentical sites on the lower hinge of IgG. Deviations from the optimal motif 234-Leu-Leu-Gly-Gly-237 may then explain the human IgG subclass specificity profile for human Fc gamma RI and Fc gamma RII.     

Protein kinase activity associated with Fc gamma 2a receptor of a murine macrophage like cell line, P388D1

The properties of protein kinase activity associated with Fc receptor specific for IgG2a (Fc gamma 2aR) of a murine macrophage like cell line, P388D1, were investigated. IgG2a-binding protein isolated from the detergent lysate of P388D1 cells by affinity chromatography on IgG-Sepharose was found to contain four distinct proteins of Mr 50,000, 43,000, 37,000, and 17,000, which could be autophosphorylated upon incubation with [gamma-32P]ATP. The autophosphorylation of Fc gamma 2a receptor complex ceased when exogenous phosphate acceptors (casein or histone) were added in the reaction mixture. Casein was found to be a much better phosphate acceptor than histone in this system, as casein incorporated about 32-fold more 32P than histone did. Phosphorylation of casein catalyzed by Fc gamma 2a receptor complex was dependent on casein concentration (maximum phosphate incorporation being at 0.5 mg/mL), increased with time or temperature, was dependent on the concentration of ATP and Mg2+, and was maximum at pH near 8. Casein phosphorylation was significantly inhibited by a high concentration of Mn2+ (greater than 25 mM) or KCl (greater than 100 mM) or by a small amount of heparin (greater than 10 units/mL) and was enhanced about 2-fold by protamine. Casein kinase activity associated with Fc gamma 2a receptor used ATP as substrate with an apparent Km of 2 microM as well as GTP with an apparent Km of 10 microM. Prior heating (60 degrees C for 15 min) or treatment with protease (trypsin or Pronase) of Fc gamma 2a receptor complex almost totally abolished casein kinase activity.(ABSTRACT TRUNCATED AT 250 WORDS)     

Isolation of an Fcgamma-binding protein from the cell membrane of a macrophage-like cell line (P388D1) after detergent solubilization

Lactoperoxidase-catalyzed iodination, NP-40 lysis, and subsequent affinity chromatography on IgG-Sepharose were used in an attempt to define some of the molecular properties of the Fc receptor of P388D1, a macrophage-like mouse tumor line. Radioiodinated material retained on columns of Sepharose coupled either to monomeric mouse IgG2a or monomeric human IgG1 appeared on SDS polyacrylamide gel electrophoresis to contain principally three labeled components, a major band of about 57,000 m.w. and two minor bands of 28,000 and 24,000 m.w. The mobilities of these components changed little on reduction, which suggested that they represented single polypeptide chains, An identical pattern was obtained with Sepharose-linked Fc fragments of human IgG1, but neither Fab fragments of IgG1 nor IgM appeared to bind these components. Since the specificity of binding to the immobilized proteins is the same as that observed in vivo, it is postulated that these proteins represent either all or some portion of the P388D1 Fc receptor.     

Crystal structure of Fcγ receptor I and its implication in high affinity γ-immunoglobulin binding

Fcγ receptors (FcγRs) play critical roles in humoral and cellular immune responses through interactions with the Fc region of immunoglobulin G (IgG). Among them, FcγRI is the only high affinity receptor for IgG and thus is a potential target for immunotherapy. Here we report the first crystal structure of an FcγRI with all three extracellular Ig-like domains (designated as D1, D2, and D3). The structure shows that, first, FcγRI has an acute D1-D2 hinge angle similar to that of FcεRI but much smaller than those observed in the low affinity Fcγ receptors. Second, the D3 domain of FcγRI is positioned away from the putative IgG binding site on the receptor and is thus unlikely to make direct contacts with Fc. Third, the replacement of FcγRIII FG-loop ((171)LVGSKNV(177)) with that of FcγRI ((171)MGKHRY(176)) resulted in a 15-fold increase in IgG(1) binding affinity, whereas a valine insertion in the FcγRI FG-loop ((171)MVGKHRY(177)) abolished the affinity enhancement. Thus, the FcγRI FG-loop with its conserved one-residue deletion is critical to the high affinity IgG binding. The structural results support FcγRI binding to IgG in a similar mode as its low affinity counterparts. Taken together, our study suggests a molecular mechanism for the high affinity IgG recognition by FcγRI and provides a structural basis for understanding its physiological function and its therapeutic implication in treating autoimmune diseases.     

Aglycosylation of human IgG1 and IgG3 monoclonal antibodies can eliminate recognition by human cells expressing Fc gamma RI and/or Fc gamma RII receptors.

Aglycosylated human IgG1 and IgG3 monoclonal anti-D (Rh) and human IgG1 and IgG3 chimaeric anti-5-iodo-4-hydroxy-3-nitrophenacetyl (anti-NIP) monoclonal antibodies produced in the presence of tunicamycin have been compared with the native glycosylated proteins with respect to recognition by human Fc gamma RI and/or Fc gamma RII receptors on U937, Daudi or K562 cells. Human red cells sensitized with glycosylated IgG3 form rosettes via Fc gamma RI with 60% of U937 cells. Inhibition of rosette formation required greater than 35-fold concentrated more aglycosylated than glycosylated human monoclonal anti-D (Rh) antibody. Unlabelled polyclonal human IgG and glycosylated monoclonal IgG1 and anti-D (Rh) antibody inhibited the binding of 125I-labelled monomeric human IgG binding by U937 Fc gamma RI at concentrations greater than 50-fold lower than the aglycosylated monoclonal IgG1 anti-D (Rh) (K50 approximately 3 x 10(-9) M and approximately 6 x 10(-7) M respectively). Similar results were obtained using glycosylated and aglycosylated monoclonal human IgG1 or IgG3 chimaeric anti-NIP antibody-sensitized red cells rosetting with Fc gamma RI-/Fc gamma RII+ Daudi and K562 cells. Rosette formation could be inhibited by the glycosylated form (at greater than 10(-6) M) but not by the aglycosylated form. Haemagglutination analysis using a panel of murine monoclonal antibodies specific for epitopes located on C gamma 2, C gamma 3 or C gamma 2/C gamma 3 interface regions did not demonstrate differences in Fc conformation between the glycosylated or aglycosylated human monoclonal antibodies. These data suggest that the Fc gamma RI and Fc gamma RII sites on human IgG are highly conformation-dependent and that the carbohydrate moiety serves to stabilize the Fc structure rather than interacting directly with Fc receptors.     

Fc gamma receptor-mediated suppression of gamma-interferon-induced Ia antigen expression on a murine macrophage-like cell line (P338D1)

A variant (HS-1) of a murine macrophage cell line (P388D1) was obtained by cell cluster technique based on the Ia antigen expression induced by lymphokines. Receptors for both IgG2a and IgG2b but no detectable I-Ad are expressed on the surface of the majority of HS-1 cells. Exposure of HS-1 cell to concanavalin A supernatant or recombinant IFN-gamma resulted in the induction of I-Ad antigens on greater than 90% of the cells within 48 hr. The effects of lymphokines were transient and dependent on the synthesis of messenger RNA because the removal of lymphokines or the presence of actinomycin D both blocked Ia expression. The prior or simultaneous binding of monoclonal IgG2a or IgG2b antibodies complexed with sheep erythrocytes to respective cell surface Fc gamma R suppressed the Ia antigen inducing activity of lymphokines. Neither antibody nor antigen alone could suppress the effect of lymphokines. Inhibitors of phospholipase A2 or cyclooxygenase, which have been shown previously to suppress Fc gamma 2bR, but not Fc gamma 2aR, triggered activation of the adenylate cyclase system and reversed Fc gamma 2bR- but not Fc gamma 2aR-mediated suppression of IFN-gamma-induced Ia antigen expression.     

Induction of IL-1 secretion from human monocytes by Fc region subfragments of human IgG1

Peripheral blood-derived human monocytes and the murine P388D1-monocytes-like cell line are induced to secrete IL-1 when stimulated with Fc region but not F(ab) region subfragments obtained from the cleavage of human IgG1 with papain or pepsin. The portion of the Fc region of IgG1 responsible for stimulation of IL-1 secretion appears to be located within the C gamma 3 domain of the molecule. This hypothesis is supported by the observation that the biologically active pepsin-derived pFc' subfragment is located within the C gamma 3 domain and the long-term papain digests containing predominately Fc' are also active. In contrast, short term papain digests containing mostly intact Fc fragments were found to be unable to induce IL-1 secretion.     

Antigenic specificities of human monoclonal and polyclonal IgM rheumatoid factors. The C gamma 2-C gamma 3 interface region contains the major determinants

The binding site specificity of 12 monoclonal and 11 polyclonal IgM rheumatoid factors (RF) isolated from human plasma or serum has been studied. All IgM RF bound best to sites on IgG and intact Fc. The monoclonal IgM RF did not bind at all to fragments lacking the C gamma 2 or C gamma 3 domains. In contrast, low level binding to the pFc' fragment, composed of the C gamma 3 domain, was seen with seven IgM RF, mainly from patients with rheumatoid arthritis (RA). IgG1 binding appeared to be a requisite specificity of all human IgM RF. IgM RF binding to IgG3 subclass was common among the monoclonal IgM RF. Most RA polyclonal IgM RF but only 2 of the monoclonal IgM RF possessed the IgG1, 2 and 4 binding pattern. Monoclonal IgM RF which bound best to histidine-modified IgG also bound well to IgG3. The 7-kDa fragment D of staphylococcal protein A inhibited the IgG binding of most monoclonal and to a lesser degree polyclonal IgM RF. Thus, the results indicate that the C gamma 2-C gamma 3 interface region of IgG contains the predominant determinants for monoclonal and polyclonal IgM RF. For some monoclonal IgM RF the binding site, even though at the interface of the C gamma 2 and C gamma 3 domains, is not the staphylococcal protein A site. Furthermore, polyclonal IgM RF possess specificities not encountered among the monoclonal IgM RF. These specificities may have special     

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.     

Signal transduction mechanisms through Fc gamma receptors on the mouse macrophage surface.

Mouse macrophages and macrophage cell lines such as P388D1 or J774 carry at least two distinct Fc gamma receptors (Fc gamma R): one specific for the Fc portion of IgG2a (Fc gamma aR, also classified as Fc gamma RI) and another for IgG2b (Fc gamma 2bR, also classified as Fc gamma RII beta). These Fc gamma Rs should transmit, upon binding of an appropriate ligand, a specific signal that leads to the regulation of macrophage functions, as the interaction of immune complex with cell surface receptor has been shown to lead to suppression of the humoral immune response or B cell differentiation, to the destruction of target cells by antibody-dependent cell-mediated cytotoxicity, to activation of arachidonic acid metabolic cascade, to the phagocytosis of opsonized particles, or to the generation of superoxide anion. In this review, we first describe evidence that Fc gamma 2aR and Fc gamma 2bR are associated with casein kinase II and phospholipase A2 activity, respectively. We will then discuss a potential role for these enzymatic activities in signal transduction pathways that leads to the activation of the arachidonic acid metabolic cascade and adenylate cyclase, to the regulation of phagocytosis, and to the suppression of interferon-gamma action to induce Ia antigens.     

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 human low affinity Fcgamma receptors IIa, IIb, and III bind IgG with fast kinetics and distinct thermodynamic properties.

Fcgamma receptors (FcgammaRs) are expressed on all immunologically active cells. They bind the Fc portion of IgG, thereby triggering a range of immunological functions. We have used surface plasmon resonance to analyze the kinetic and thermodynamic properties of the interactions between the ectodomains of human low affinity FcgammaRs (FcgammaRIIa, FcgammaRIIb, and FcgammaRIIIb-NA2) and IgG1 or the Fc fragment of IgG1. All three receptors bind Fc or IgG with similarly low affinities (K(D) approximately 0.6-2.5 microm) and fast kinetics, suggesting that FcgammaR-mediated recognition of aggregated IgG and IgG-coated particles or cells is mechanistically similar to cell-cell recognition. Interestingly, the Fc receptors exhibit distinct thermodynamic properties. Whereas the binding of the FcgammaRIIa and FcgammaRIIb to Fc is driven by favorable entropic and enthalpic changes, the binding of FcgammaRIII is characterized by highly unfavorable entropic changes. Although the structural bases for these differences remain to be determined, they suggest that the molecular events coupled to the binding differ among the low affinity FcgammaRs.