The localization of the binding site(s) on human IgG1 for the Fc receptors on homologous monocytes and heterologous mouse macrophages.

Two different methods, a rosette assay and a direct binding assay, have been employed in an examination of the binding of human IgG1 to mouse macrophages. In both cases, inhibition of IgG binding was demonstrated by Fc (CH2 + CH3 domains) and pFc' (CH3 domains) fragments of human IgG. In a homologous system, the binding of 125I-human IgG to human peripheral-blood monocytes was inhibited by the Fc fragment whereas the pFc' fragment was inactive. Scatchard plot analysis of the binding data from both the heterologous and homologous systems allowed association constants and numbers of receptors per cell to be calculated. A more thorough examination of the possible location of IgG Fc-receptor binding sites was made using less orthodox proteolytic cleavage fragments of IgG. The site on human IgG1 responsible for binding to mouse macrophage Fc receptors was confirmed to be within the CH3 domains. Human IgG1 binding to homologous monocytes was shown, using a dimeric C gamma 2 domain fragment, to be via the CH2 domains, and was dependent on the integrity of the covalent interaction between the C gamma 2 domains at the hinge region.     

Mapping and comparison of the interaction sites on the Fc region of IgG responsible for triggering antibody dependent cellular cytotoxicity (ADCC) through different types of human Fc gamma receptor.

In the present study 3-iodo-4-hydroxy-5-nitrophenacetyl (NIP)-specific antibodies were compared for induction of antibody dependent lysis of NIP-derivatised red blood cells effected by pre-stimulated U937 or HL-60 cells and by K cells. The chimaeric antibodies have heavy chains corresponding to human IgG subclasses 1-4, and include site-directed mutants of IgG3 as well as the aglycosylated form of IgG3; a mouse IgG2b antibody and a site-directed mutant IgG2b were also examined. rIFN stimulated U937 or HL-60 cells express increased levels of Fc gamma R1 compared to unstimulated cells; PMA stimulated HL-60 and U937 cells express an increased level of Fc gamma R11 compared to unstimulated cells; K cells express Fc gamma R111. Using these effector cell populations and the target cells mentioned above, we have compared anti-NIP antibodies with different heavy chain constant domains for their ability to induce ADCC through human Fc gamma R1, Fc gamma R11 and Fc gamma R111. The results suggest that all three human Fc gamma receptors appear to recognise a binding site on IgG within the lower hinge (residues 234-237) and trigger ADCC via this site, but that each receptor sees this common site in a different way. The possibility that other amino acid residues also participate in the binding/triggering site(s) cannot be excluded.     

Functional mapping of the Fc gamma RII binding site on human IgG1 by synthetic peptides

Receptors specific for the Fc part of IgG (Fc gamma R) are expressed by several cell types and play diverse roles in immune responses. Impaired function of the activating and inhibitory Fc gamma R may result in autoimmunity. Thus, the modulation of IgG-Fc gamma R interaction can be a target for the development of treatments for some autoimmune and inflammatory diseases. This study addresses the localization and functional characterization of linear sequences in human IgG1 which bind to Fc gamma RII. Peptides with overlapping sequences derived from the CH2 domain of human IgG1 between P(234) and S(298) were synthesized and used in binding and functional experiments. Binding of the peptides to Fc gamma R was assayed in vitro and ex vivo, and peptides found to interact were functionally tested. The shortest effective peptide was T(256)-P(271), which bound to soluble recombinant Fc gamma RIIb with K(d)=6 x 10(6) M(-1). The biotinylated peptides R(255)-P(271) and T(256)-P(271) complexed by avidin exhibited functional activity; they induced Fc gamma RIIb-mediated inhibition of the BCR-triggered Ca(2+) response of human Burkitt lymphoma cells, and inflammatory cytokine production (TNF-alpha and IL-6) by the human monocyte cell line MonoMac. In conclusion, our results suggest that the selected peptides functionally represent the Fc gamma RII-binding part of IgG1.     

The human monocyte-like cell line THP-1 expresses Fc gamma RI and Fc gamma RII.

THP-1 cells are a monocyte-like cell line derived from a patient with acute monocytic leukemia and unlike other leukemic cell lines has a normal diploid karyotype. We have characterized Fc gamma R expression on this cell line by flow cytometry, radiolabeled IgG1 and monoclonal antibody (mAb) binding assays, and biochemical analysis. Flow cytometric analysis of THP-1 cells with anti-Fc gamma RI, II, and III mAb, and a rabbit anti-Fc gamma RIII F(ab')2 demonstrated that only Fc gamma RI and Fc gamma RII are expressed by these cells. A panel of anti-Fc gamma RIII mAb (anti-CD16) failed to bind to THP-1 cells. Biochemical studies identified polypeptides of 64 to 78 kDa (Fc gamma RI) and of 42 to 53 kDa (Fc gamma RII). Fc gamma R expression was determined by binding of radioiodinated human IgG1 (to detect Fc gamma RI), mAb IV.3 (to detect Fc gamma RII), or rabbit IgG immune complexes. Thirty-five thousand high affinity binding sites (dissociation constant [KD] = 4.22 x 10(-9) M) for IgG1 were found on THP-1 cells. Interferon-gamma (IFN gamma) upregulated Fc gamma RI expression by THP-1 cells 2.8-fold, whereas Fc gamma RI on U937 cells was increased six- to eight-fold by this cytokine. Phorbol myristate acetate (PMA), tumor necrosis factor-alpha (TNF alpha), and vitamin D3 had no effect on IgG1 binding by THP-1 cells. Fifty thousand IgG molecules in immune complexes bound to THP-1 cells. IFN gamma treatment increased this binding by four-fold, PMA treatment resulted in a 50% increase in the number of IgG immune complexes bound, whereas vitamin D3 treated THP-1 cells bound half as many IgG immune complexes as control cells. Binding assays utilizing mAb IV.3 identified 50,000 sites per cell. Treatment of THP-1 cells with IFN gamma, TNF alpha, PMA, or vitamin D3 had no effect on Fc gamma RII expression. That Fc gamma RI plays a predominant role in immune complex binding was demonstrated by inhibition studies. Human IgG1 as well as mouse IgG2a mAb to Fc gamma RII inhibited immune complex binding by 76 to 84%, whereas mouse IgG1 mAb to Fc gamma RII had minimal effect on immune complex binding. Fc gamma R expression may not be linked to differentiation of THP-1 cells since only 1,25 vitamin D3 was able to induce the expression of CD14, a marker of mature monocytic phenotype.     

Lysine 322 in the human IgG3 C(H)2 domain is crucial for antibody dependent complement activation

The classical complement activation cascade of the immune system is initiated by multivalent binding of its first component, C1q, to the Fc region of immunoglobulins in immune complexes. The C1q binding site on mouse IgG2b has been shown to contain the amino acids Glu 318, Lys 320 and Lys 322 in the C(H)2 domain (Duncan, A.R., Winter, G.,1988. The binding site for C1q on IgG. Nature 322 738-740). Identical or closely related motifs are found on all IgGs in all species, and the binding site has therefore been thought to be universal. However, the results from another study indicate that the site is different in human IgG1 molecules (Morgan, A., Jones, N.D., Nesbitt, A.M., et al., 1995. The N-terminal end of the C(H)2 domain of chimeric human IgG1 anti-HLA-DR is necessary for C1q, Fc gamma RI and Fc gamma RIII binding. Immunology 86 319-324). To determine the site(s) responsible for complement activation in anti-NIP-mouse/human IgG3 antibodies, we have mutated amino acids Lys 276, Tyr 278, Asp 280, Glu 318, Lys 320 and Lys 322 in two beta-strands in the C(H)2 domains of human IgG3. In addition, we mutated the Glu 333, which resides in close proximity to the postulated C1q-binding site of mouse IgG2b, as well as Leu 235 in the lower hinge region. All mutants were tested in Antibody Dependent Complement Mediated Lysis (ADCML)(4) assays, where the antigen concentration on target cells was varied and human serum was complement source. Only the mutants that lacked the positively charged side chain of lysine in position 322 showed strong reduction in ADCML, particularly at low antigen density on target cells. Alanine scanning of positions 318 and 320 did not affect ADCML, contrary to what was observed for mouse IgG2b. Neither did a leucine to glutamic acid mutation in position 235 have the effect that has been reported for human IgG1. These results suggest that the complement binding site on human IgG3 molecules is different from that found on mouse IgG2b, and possibly on human IgG1 as well. Thus the contact site may not be conserved.     

The N-terminal end of the CH2 domain of chimeric human IgG1 anti-HLA-DR is necessary for C1q, Fc gamma RI and Fc gamma RIII binding.

We have found that amino acid residues necessary for C1q and Fc gamma R binding of human IgG1 are located in the N-terminal region of the CH2 domain, residues 231-238, using a matched set of engineered antibodies based on the anti-HLA-DR antibody L243. Changing the leucine 235 in the CH2 region of IgG3 and IgG4 to glutamic acid was already known to abolish Fc gamma RI binding. We have confirmed this for IgG1 and also found a concomitant abolition of human complement lysis with retention of Fc gamma RIII-mediated function. Changing the glycine at 237 to alanine of IgG1 also abolished Fc gamma RI binding and reduced human complement lysis and Fc gamma RIII-mediated function. Exchanging the whole region 233-236 with the sequence found in human IgG2, abolished Fc gamma RI binding and human complement lysis and reduced Fc gamma RIII-mediated function of IgG1. In contrast, a change in the previously described C1q-binding motif, from lysine at 320 to alanine, had no effect on IgG1-mediated complement lysis.     

Production and characterization of monoclonal antibodies to Fc gamma 2a-binding protein isolated from the detergent lysate of a murine macrophagelike cell line, P388D1

Hybridoma cell lines were produced by fusion of SP2/0 murine myeloma cell line with the spleen cells of Wister rats which were immunized with IgG2a-binding protein isolated from the detergent lysate of a murine macrophagelike cell line, P388D1, by affinity chromatography on IgG-Sepharose 4B. A monoclonal clone (designated as 3A2) out of a total of 13 different antibody-secreting cell lines was found to secrete IgG1 class antibodies, which inhibited more than 70% of the binding of radio-iodinated myeloma IgG2a protein to P388D1 cells. The 3A2 Fab fragments bound specifically to P388D1 cells at 4 degrees C with a KD of 1.9 x 10(-8) M and Bmax of 2.9 x 10(5) per cell. This Fab fragment also specifically bound to Fc gamma 2a receptor (R)-positive T cell line (S49) with a KD of 4.4 x 10(-9) M and a Bmax of 1.0 x 10(4) but did not bind to Fc gamma 2a-negative S49 variant cell line, cyc-. The flow cytometric analysis with the use of fluorescein-isothiocyanate-tagged 3A2 F(ab')2 also showed that this antibody binds to Fc gamma 2aR-positive cells, P388D1 and S49, but not to Fc gamma 2aR-negative cells, cyc-. Monomeric and heat-aggregated IgG2a (13-fold molar excess) inhibited the binding of the radioiodinated 3A2 F(ab')2 to P388D1 cells by 70 and 49%, respectively, whereas the inhibition by monomeric and heat-aggregated IgG2b was 17 and 39%, respectively; 3A2 F(ab')2 (100-fold molar excess) inhibited the binding of IgG2a and IgG2b to P388D1 cells by 90 and 24%, respectively, whereas the inhibition of binding of these IgG to S49 cells was 79 and 49%, respectively. Western blotting analysis showed that 3A2 antibody recognizes a major protein (Mr = 100,000) and a minor component (Mr = 80,000) separated by SDS-PAGE of P388D1 or S49 cell lysates under nonreducing condition, whereas under reducing condition, this antibody recognized a major protein (Mr = 50,000) and two additional minor components (Mr = 40,000 and 35,000). Fc gamma 2aR may thus exist at the cell surface as a disulfide linked dimer of a subunit of Mr of 50,000, which could be partially degraded during the isolation to smaller fragments of 40,000 and 35,000 Mr peptides which are still held together by interchain disulfide bond.(ABSTRACT TRUNCATED AT 250 WORDS)     

Different behaviour of two distinct types of Fc gamma receptor on guinea-pig peritoneal macrophages during phagocytosis of soluble immune complexes: identification of an intracellular pool for one of the receptors.

Guinea-pig peritoneal macrophages express two distinct types of Fc receptor for IgG (Fc gamma R): one specific for IgG2 (Fc gamma 2R) and the other for both IgG1 and IgG2 (Fc gamma 1/gamma 2R). When we employed flow cytometry for an assay, we found that the amount of ovalbumin (OA) complex of homologous IgG2 antibody bound on the surface of macrophages rapidly decreased during the phagocytosis in the presence of an excessive amount of the complex. This reduced binding capacity of the cells was gradually restored by incubating the cells in the complex-free medium, which showed that the Fc gamma Rs are consumed during the phagocytosis and again expressed on the cell surface. Flow cytometry with monoclonal anti-Fc gamma 2R Fab' and anti-Fc gamma 1/gamma 2R Fab' revealed that only the Fc gamma R type bound to the immune complex was selectively internalized, whereas another Fc gamma R type unbound persisted on the cell surface during the reaction. In addition, the amount of Fc gamma 1/gamma 2R on the cell surface was found to increase to a greater extent than did that of Fc gamma 2R, when phagocytosis was terminated by the removal of the immune complex. This result suggests that Fc gamma 1/gamma 2R is recruited from some intracellular store. In fact, we were able to demonstrate the existence of the membrane-associated intracellular Fc gamma 1/gamma 2R pool that increases the binding capacity of anti-Fc gamma 1/gamma 2R F(ab')2 by treatment of macrophages with saponin, and by fractionation of homogenized macrophages by sucrose density gradient centrifugation. The different behaviour of these two Fc gamma R type, thus shown, may cause the relatively sustained phagocytosing activity mediated by Fc gamma 1/gamma 2R compared with that caused by Fc gamma 2R; the former continued at least up to 6 hr, while the latter ceased within 2 hr.     

Regulation of macrophage Fc receptor expression and phagocytosis by histidine-rich glycoprotein.

Regulation of macrophage Fc receptor (Fc gamma R)-mediated phagocytic function by histidine-rich glycoprotein (HRG) was investigated. Pretreatment of oil-elicited inflammatory mouse peritoneal macrophages with HRG for 1-3 hr increased their Fc gamma R-mediated binding and phagocytosis of IgG-opsonized sheep erythrocyte conjugates (EA). A significant reduction of Fc gamma R-dependent EA binding and phagocytosis occurred after pretreatment of macrophages with HRG for more than 8 hr. These results indicate that HRG is capable of modulating Fc gamma R expression in a biphasic fashion, which directly affects the overall efficiency of phagocytosis. HRG differentially regulated the functions of Fc gamma R subclasses. For example, HRG reduced the efficiency of Fc gamma RII (Fc gamma 2b/gamma 1R)-dependent phagocytosis of erythrocytes conjugated with monoclonal IgG2b or IgG1 by macrophages pretreated with HRG for 24 hr. However, when similar studies were performed using erythrocytes coated with monoclonal IgG2a, HRG was less effective in inhibiting Fc gamma RI (Fc gamma 2aR)-dependent phagocytosis. As an HRG-binding glycosaminoglycan, heparin failed to block the regulatory function of HRG on macrophages. Similarly, interferon-gamma (IFN-gamma) was not capable of blocking the functional activity of HRG. These studies suggest that HRG regulates macrophage function via a novel pathway different from that of heparin or IFN-gamma.     

Genomic organisation and sequence of the extracellular domain exons of the bovine Fc gamma RI receptor, and evidence for restricted binding of ruminant IgG to U937 cells.

Southern blotting of bovine genomic DNA and hybridization with a human Fc gamma RI cDNA probe, p135, has identified a single copy of the bovine Fc gamma RI gene. A bovine genomic lymphocyte library in lambda EMBL3 was screened with probe p135. A positive lambda clone, 15.5.4, containing the three extracellular domain exons of Fc gamma RI, has been cloned, mapped and sequenced. Each extracellular domain is encoded within a single exon. All three domains are assigned to the C-2 set of the Ig superfamily with 58% identity between amino acid residues of bovine, human and mouse Fc gamma RI. Pairs of cysteine residues are conserved in each domain as potential sites for intra-chain disulphide bonding. Human monocytoid U937 cells were used as a model to test binding homology within the Fc gamma RI family. The binding of IgG isotypes to IFN-gamma stimulated U937 cells was determined by FACScan flow cytometry. U937 cell Fc gamma RI receptor does not bind bovine or ovine IgG isotypes. On the basis of these studies and by comparison of the Fc determinant region sequences of IgG, the introduction of species specificity in Fc gamma RI/IgG interaction by evolutionary drift is proposed.     

Functional interactions of aglycosylated monoclonal anti-D with Fc gamma RI+ and Fc gamma RIII+ cells.

Four human monoclonal antibodies (mAb) to the Rh antigen D were produced in aglycosylated forms by culture of B-cell lines in medium containing tunicamycin (Tm-mAb). Erythrocytes sensitized with these or control mAb were compared in U937 rosette and monocyte chemiluminescence assays to determine Fc gamma receptor I (Fc gamma RI)-mediated functional activity, and in lymphocyte rosette and lymphocyte antibody-dependent cell-mediated cytotoxicity (ADCC) assays to study Fc gamma RIII-mediated binding and lysis. Fc gamma RI-mediated interactions with Tm-mAb were greatly reduced compared with control mAb. All Tm-mAb failed to promote ADCC, although lymphocyte rosette formation was unaltered. The anti-D titre of Tm-mAb and their interaction with mAb JL512 (recognizing an epitope in the CH2 domain) were unchanged. These data suggest that glycosylation of IgG is required for CH2 domain interactions with both Fc gamma RI and Fc gamma RIII, but not for CH3 domain interactions with Fc gamma RIII.     

Monocyte-bound monoclonal antibodies inhibit the Fc gamma RI-mediated phagocytosis of sensitized red cells: the efficiency and mechanism of inhibition are determined by the nature of the antigen.

Monocyte-binding monoclonal antibodies (mAbs) inhibited the Fc gamma receptor I (Fc gamma RI)-mediated phagocytosis of red cells sensitized with human monoclonal immunoglobulin G (IgG) anti-D (E-IgG) via three distinct mechanisms depending on their specificity. First, all monocyte-binding mAbs tested inhibited the adherence (and hence the phagocytosis) of E-IgG. They also inhibited the binding of fluorescein isothiocyanate (FITC) conjugated IgG anti-D. This inhibition of ligand binding was more efficiently promoted by murine (m) IgG2a than mIgG1 mAbs and presumably involved receptor blockade via the formation of antigen (Ag)-mAb-Fc gamma RI complexes on the monocyte membrane. Monocytes passively sensitized with human monoclonal anti-D (M-IgG) were used in experiments to distinguish between inhibition of ligand binding and inhibition of phagocytosis. In this way, it was shown that mAbs to transmembrane molecules (CD11b/CD18, CD44, and HLA) inhibited the phagocytosis of red cells adherent to M-IgG. Under the same conditions, mAbs to glycosylphosphatidylinositol (GPI) linked molecules (CD14, CD55 and CD59) did not inhibit phagocytosis. These data suggested a second mechanism of inhibition of Fc gamma RI-mediated phagocytosis that involved the cross-linking of a proportion of Fc gamma RI (i.e. those not ligated with IgG anti-D) to molecules which are relatively constrained in the cell membrane. A third mechanism of inhibition was revealed by the use of F(ab')2 fragments of mAb to CD11b which inhibited Fc gamma RI-mediated interactions with E-IgG in a manner that did not involve IgG (Fc) crosslinking or blockade of Fc gamma RI. In this respect, Fc gamma RI-mediated phagocytosis was more susceptible to inhibition than receptor-mediated adherence.     

FcγR-Dependent Regulation of the Biosynthesis of Complement C3 by Murine Macrophages: the Modulatory Effect of IL-6

The effect of murine IgG isotypes on the gene expression and secretion of the third component of complement (C3) has been studied using the monocytoid cell line P388D1 and oil-elicited mouse peritoneal macrophages. It is demonstrated that the binding of IgG2a and IgG2b but not IgG1 and IgG3 augments the biosynthesis of C3 both in the presence and in the absence of the phorbol ester, phorbol myristate acetate in the case of both cell types. The multifunctional cytokine interleukin-6 (IL-6) alone reveals no effect on the gene expression of C3, but increases the effectiveness of mouse IgG2a and IgG2b. Confirming the role of Fc gamma RII, a strong up-regulation of C3 gene expression and C3 secretion was found when macrophages were cultured with the F(ab')2 fragment of the Fc gamma RII-specific monoclonal antibody 2.4G2.     

Role of neutrophil Fc gamma RIIa (CD32) and Fc gamma RIIIb (CD16) polymorphic forms in phagocytosis of human IgG1- and IgG3-opsonized bacteria and erythrocytes.

The four subclasses of IgG have different biological activities associated with their Fc regions. Fc gamma receptors on leucocytes (Fc gamma R) mediate binding and phagocytosis of opsonized particles. Two structurally and functionally distinct allelic polymorphisms of the Fc gamma R have been defined: the H/R131 forms of Fc gamma RIIa (CD32), and the neutrophil antigen 1 (NA1)/NA2 forms of Fc gamma RIIIb (CD16). In this study the activities of allotypes of CD16 are analysed with antibacterial IgG subclass antibodies and with IgG1 and IgG3 anti-Rhesus D, and the activities of CD32 with IgG1 and IgG3 anti-Rhesus D. With respect to the allotypes of CD16, polymorphonuclear leucocytes (PMN) homozygous for Fc gamma RIIb-NA2 exhibited a lower (21-25%) IgG1-mediated phagocytosis of Staphylococcus aureus strain Wood (STAW), Haemophilus influenzae type b (Hib), and Neisseria meningitidis group B (NMen) than IIIb-NA1 PMN. The difference was apparent only when the micro-organisms were opsonized in the absence of complement, and was furthermore enhanced (34-52%) upon blockade of Fc gamma RIIa. In addition, monoclonal IgG3 anti-D-mediated rosette formation and phagocytosis was consistently found to be lower (16%) with Fc gamma RIIIb-NA2 than with IIIb-NA1 PMN. For the allotypes of CD32 we now show that IgG3 anti-D sensitized erythrocytes formed more (50%) rosettes and were phagocytosed at a higher rate with PMN carrying Fc gamma RIIa-H131 than with PMN carrying IIa-R131. Heterozygous Fc gamma RIIa-H/R131 PMN exhibited intermediate phagocytic activity in this respect. This study illustrates a critical role of Fc gamma R allotypes in functional interactions with biologically relevant IgG subclass antibodies.     

Highly reduced binding to high and low affinity mouse Fc gamma receptors by L234A/L235A and N297A Fc mutations engineered into mouse IgG2a

The effects of the Fc silencing mutations such as leucine (L) to alanine (A) substitution at the position 234 and 235 (LALA) and the alanine (A) to asparagine (N) substitution at position 297 (N297A) are well investigated for human IgG. However, the effects of the same two silencing Fc mutations in a mouse IgG backbone are not yet well investigated in respect to binding to mouse Fc gamma receptors (FcγRs), complement and subsequent effector functions. By using a mouse IgG2a tool antibody directed against mouse OX40L, we demonstrate a strongly reduced binding of the two Fc mutants to high and low affinity recombinant and cell expressed mouse FcγRs, when compared to the mouse IgG2a with the wild type (wt) backbone. Reduced FcγR binding by the two investigated Fc mutants could further be confirmed on primary mouse macrophages expressing their native FcγRs. In addition, we reveal that the LALA and N297A mutations in the mIgG2a also slightly reduced binding to C1q of human origin. Thus, here we provide experimental evidence that the two investigated Fc mutations in the mouse IgG backbone lead to similar “silencing” properties as previously demonstrated for the human IgG and thus represent a useful method to alter effector functions in tool antibodies to be used in mouse models.     

The type of interaction with Fc gamma R in human monocytes determines the efficiency of the generation of oxidative burst.

Receptors for the Fc fragment of IgG (Fc gamma R) have a well-documented role in the generation of oxidative burst. It is tempting to speculate that the type of interaction with Fc gamma R could be a mechanism of regulation of this process. Here we report on a comparative study of the induction of oxidative burst in human monocytes activated by means of different types of interaction with Fc gamma R. We studied non-primed monocytes obtained by centrifugal elutriation from healthy donors. These cells were submitted to Fc gamma R interactions following two distinct models: one, using particulate material (IgG-SRBC leading to phagocytosis or rosetting), and another using soluble reagents followed by cross-linking of the receptors (monoclonal antibodies against Fc gamma RI and Fc gamma RII and natural ligands, namely several isotypes of murine and human IgG). Phagocytosis and oxidative burst were studied simultaneously in the monocytes, following the methodology described recently. Human non-primed monocytes were able to generate a very obvious oxidative burst response after activation of Fc gamma R by particulate material. The same response was observed when Fc gamma RII was blocked by monoclonal antibodies. Ingestion was not necessary for activation of the oxidative burst, since the model of rosetting induced a level of burst generation similar to the one obtained in the phagocytic process. Cross-linking of Fc gamma RI by soluble reagents induced production of reactive oxidative intermediates (ROI) only when the ligand-binding site of the receptor was involved. These data lead to the conclusion that Fc gamma R interaction with soluble or particulate material induces oxidative burst in non-primed human monocytes only when the binding site of natural ligands is involved. The type of interaction also determines the efficiency of the generation of ROI. This fact could represent a regulatory mechanism.     

Characterization and structural analysis of Fc gamma receptors of human monocytes, a monoblast cell line (U937) and a myeloblast cell line (HL-60) by a monoclonal antibody

A monoclonal antibody, FR51, raised against the IgG Fc receptor (Fc gamma R) of the human monoblast cell line U937 was used to analyze the distribution of this antigen on various human cells. This antibody inhibited the binding of human IgG to the Fc gamma R on U937 cells, HL-60 cells and human peripheral blood monocytes. In contrast, the Fc gamma R on human granulocytes (neutrophil cells) and on an Epstein-Barr virus-transformed human lymphoblastoid cell line (Raji) were not recognized, indicated by the failure of blocking the binding of human IgG ligand to the Fc gamma R on these cells. By affinity chromatography of detergent-containing cell free lysates of surface-iodinated U937 cells, HL-60 cells and monocytes, a protein of 70-kDa was isolated. This protein was identified as the Fc gamma R by rebinding the isolated protein to immobilized human IgG. Removal of the carbohydrate moiety with endo-beta-N-acetylglucosaminidase F demonstrated that the receptors consist of a 40-kDa polypeptide. Analysis of the polypeptide patterns obtained by proteolytic digestion of either mature (70-kDa) or deglycosylated (40-kDa) receptors isolated from monocytes, U937 cells and HL-60 cells strongly suggests that the Fc gamma R are identical. The monoclonal antibody FR51 specifically reacts with Fc gamma R on human monocytes, a myeloblast and a monoblast cell line but not with the receptors on a B cell line and neutrophil cells.     

Limited role of charge matching in the interaction of human immunoglobulin A with the immunoglobulin A Fc receptor (Fc alpha RI) CD89

Human immunoglobulin A (IgA) mediates protective effector mechanisms through interaction with specific cellular Fc receptors (Fc alpha RI). Two IgA Fc interdomain loops (Leu257-Leu258 in the CH2 domain and Pro440-Phe443 in the CH3 domain) have previously been identified as critical for binding to Fc alpha RI. On the receptor, the interaction site for IgA has been localized to the EC1 domain. The essential Fc alpha RI residues involved are Tyr35, Tyr81 and Arg82, with contributions also from Arg52 and to a lesser extent from His85 and Tyr86. The basic nature of the side chains of some of the receptor residues implicated in ligand binding suggested that charge matching might play some role in the interaction. To address this possibility, we have generated five IgA1 mutants with point substitutions in acidic residues lying close to the putative interaction site and assessed their abilities to bind Fc alpha RI on human neutrophils. Mutants E254A, E254L and E437A displayed affinities for Fc alpha RI comparable to that of wild-type IgA1, while mutants D255A and D255V had only slightly reduced affinities for the receptor. Therefore, electrostatic interactions appear unlikely to play a significant role in the IgA-Fc alpha RI interaction. Moreover, the lack of effect of mutations in residues adjacent to those previously implicated in binding, reaffirms the importance of the interdomain loops in Fc alpha RI binding.     

Mapping of murine IgE epitopes involved in IgE-Fc epsilon receptor interactions

The generation of anti-IgE monoclonal antibodies has permitted the identification of various serological epitopes on the IgE molecule. The relationship of the sites on IgE recognized by such antibodies to the Fc epsilon receptor (Fc epsilon R) interaction site has been determined using cross-inhibition studies. However, interpretation of this type of experiment is limited by problems of steric hindrance. Thus, to accomplish precise mapping on the IgE molecule of the Fc epsilon R interaction site and the binding sites of various anti-IgE mAb, we employed site-directed mutagenesis of the IgE heavy chain gene. To this end we have constructed and expressed a recombinant murine constant epsilon heavy chain (C epsilon) gene bearing a (4-hydroxy-3-nitrophenyl)acetic acid (NP)-binding VH region. Several site-specific mutants in the C epsilon 3 and C epsilon 4 domains of this recombinant C epsilon gene were prepared and expressed by transfection into the light chain-producing J558L myeloma cell line. The resulting IgE antibodies were tested for binding to mast cells and to various anti-IgE mAb. The mutants produced include a proline to histidine point mutant at amino acid residue 404 in the C epsilon 3 domain, a mutant with a truncated C epsilon 4 domain, a mutant with a 45 amino acid deletion in the carboxy end of C epsilon 3, and a chimeric human C epsilon in which the human C epsilon 3 was replaced by the homologous mouse C epsilon 3 domain. These mutants have permitted the localization, to the C epsilon 3 domain, of the epitopes recognized by the 84.1C and 95.3 anti-IgE mAb. The 84.1C mAb recognizes a site on IgE which is identical or very close to the Fc epsilon R binding site, and 95.3 recognizes a site on IgE which is related, but not identical to the Fc epsilon R binding site. The antigenic determinant recognized by the 51.3 mAb, which is inefficient at blocking the IgE-Fc epsilon R interaction, has been mapped to the C epsilon 4 domain. When tested for binding to the Fc epsilon R on RBL-2H3 cells, the point mutant bound to the Fc epsilon R with twofold reduced affinity, while the C epsilon 3 deletion mutant and the mutant truncated in C epsilon 4 lost all receptor binding activity.(ABSTRACT TRUNCATED AT 400 WORDS)     

Relative abilities of two Fc gamma receptors on guinea-pig macrophages to operate in the phagocytosis of soluble immune complexes

Guinea-pig peritoneal macrophages possess two distinct types of Fc gamma receptor (Fc gamma R); one is specific for IgG2 alone (Fc gamma 2R) and the other is specific for both IgG1 and IgG2 (Fc gamma 1/gamma 2R). To study the relative abilities of these Fc gamma Rs to operate in the phagocytosis of soluble immune complexes, the binding, intracellular uptake and subsequent digestion of homologous IgG1 and IgG2 antibodies, complexed with ovalbumin (OA-IgG1 and OA-IgG2), were measured by incubating these complexes with the macrophages, which had been pretreated with the Fab' of monoclonal anti-Fc gamma 2R or anti-Fc gamma 1/gamma 2R antibody. The amount of OA-IgG1 or OA-IgG2 bound to Fc gamma 1/gamma 2R was found to be larger than that of OA-IgG2 to Fc gamma 2R, reflecting that the number of Fc gamma 1/gamma 2R molecules per macrophage is about two times larger than that of Fc gamma 2R molecules. The rates of intracellular uptake and subsequent digestion of Fc gamma 1/gamma 2R bound OA-IgG1 or Fc gamma 1/gamma 2R bound OA-IgG2 were virtually equal to those of Fc gamma 2R bound OA-IgG2, respectively. However, when an excessive amount of OA-IgG2 was incubated with anti-Fc gamma 1/gamma 2R Fab' or anti-Fc gamma 2R Fab' treated macrophages, the phagocytosis mediated by Fc gamma 2R ceased within 4 hr, whereas that mediated by Fc gamma 1/gamma 2R continued up to 6 hr. Thus, the Fc gamma 1/gamma 2R activity seems to be more rapidly restored than the Fc gamma 2R activity in the phagocytosing process.