The effect of cytokines on the expression and function of Fc receptors for IgG on human myeloid cells

We examined expression and cytotoxic triggering capability of the three Fc receptors for IgG (Fc gamma R) on human monocytes, PMNs and myeloid cell lines after in vitro culture with various cytokines. Fc gamma R expression was evaluated using specific anti-Fc gamma R monoclonal antibodies (mAb). The cytotoxic capability of each Fc gamma R was examined after the effector cells were treated with the recombinant cytokines IFN-gamma. TNF alpha, GM-CSF, G-CSF, M-CSF, IL-1, IL-2, IL-3, IL-4, or IL-6. Hybridoma cell lines (HC) bearing antibody directed to Fc gamma RI (HC 32), Fc gamma RII (HC IV.3) or Fc gamma RIII (HC 3G8) were used as targets, as were chicken erythrocytes (CE) sensitized with heteroantibodies composed of anti-Fc gamma R mAbs (32, IV.3, 3G8) linked to anti-CE antibody. Only IFN-gamma treatment significantly increased Fc gamma R expression and then only Fc gamma RI. IFN-gamma dramatically up-regulated Fc gamma RI expression on all cells tested. However, ADCC was enhanced by treatment with a number of cytokines other than IFN-gamma. GM-CSF, TNF, and IFN-gamma treatment enhanced killing of HC 32 and HC IV.3 by in vitro cultured monocytes. G-CSF treatment enabled PMNs to kill HC through Fc gamma RII, whereas PMN killing of HC through Fc gamma RIII could not be induced by any of the cytokines studied. Although only IFN-gamma treatment increased ADCC of CE by monocytes, GM-CSF treatment as well as IFN-gamma treatment augmented ADCC of CE by PMNs. In addition to IFN-gamma treatment, IL-6 treatment enabled U937 cells to lyse CE. Whereas IFN-gamma-treated U937 cells killed CE through both Fc gamma RI and Fc gamma RII, IL-6-treated U937 cells killed CE only through Fc gamma RI. In addition to IFN-gamma treatment, G-CSF treatment enabled HL-60 cells to lyse CE through both Fc gamma RI and Fc gamma RII. These results demonstrate that although IFN-gamma appears unique in regulating Fc gamma R expression on myeloid cells, cytokines other than IFN-gamma affect ADCC by these cells in a receptor-specific manner.     

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.     

A polymorphic Fc receptor for mouse IgG2b on human B cells and monocytes.

With respect to murine (m)IgG1 anti-CD3 monoclonal antibody (mAb), a polymorphic mitogenic response of peripheral blood mononuclear cells (PBMC) has been described which is caused by polymorphism of monocyte Fc gamma RII, and which defines high responders to mIgG1 (mIgG1-HR, approximately 70% of normal individuals) and low responders (mIgG1-LR). PBMC also exhibit a polymorphic mitogenic response to mIgG2b anti-CD3 mAb. In the present study 18 out of 550 individuals (3%) were mIgG2b-HR. Purified monocytes from mIgG2b-HR were able to support the mitogenic response to mIgG2b anti-CD3 mAb of purified T cells from mIgG2b-LR. Surprisingly, a significant mitogenic response to mIgG2b anti-CD3 mAb remained after vigorous depletion of monocytes from mIgG2b-HR PBMC. Apparently B cells are responsible for this accessory function since Epstein-Barr virus (EBV)-transformed B cells from mIgG2b-HR (but not from mIgG2b-LR) were able to support T-cell proliferation induced by mIgG2b anti-CD3 mAb. Only EBV B cells from mIgG2b-HR were able to form rosettes with human red blood cells (RBC) that had been sensitized with mIgG2b anti-glycophorin A mAb (EA-mIgG2b). These EBV B cells did not express Fc gamma RI or Fc gamma RIII, and could bind some but not all anti-Fc gamma RII mAb. The mitogenic response to mIgG2b anti-CD3 was not inhibited by any of the anti-Fc gamma RII mAb. From these studies we conclude that a polymorphic Fc receptor is expressed on human B cells and monocytes, which cross-reacts with mIgG2b. This receptor is different from Fc gamma RI and Fc gamma RIII, and apparently also from Fc gamma RII.     

Regulation of the expression of Fc gamma receptor on circulating neutrophils and monocytes in Kawasaki disease.

To investigate the regulation of Fc gamma receptor (Fc gamma R) expression on circulating phagocytes in Kawasaki disease (KD), we analysed the expressions of Fc gamma RI, II and III on neutrophils and monocytes in 20 patients with KD, 10 with a bacterial infection (BI), 10 with a viral infection (VI), and 10 healthy controls (HC) using flow cytometric analysis. The KD patients had a significantly higher level of Fc gamma RI expression on neutrophils, but not on monocytes, than the BI, VI and HC patients. Fc gamma RII expression on neutrophils was significantly higher in KD, BI and VI than HC, but there was no significant difference in Fc gamma RII expression among KD, BI and VI. Fc gamma RIII expression on neutrophils in KD was significantly lower than in VI and HC, but was higher on monocytes. A kinetic analysis of Fc gamma R expression in KD demonstrated the expression of Fc gamma RI and II on neutrophils to decline, but no remarkable change was observed in the monocytes, from the subacute phase through the convalescent phase. In addition, Fc gamma RIII expression on neutrophils increased, while Fc gamma RIII expression on monocytes decreased during the time course of KD. Fc gamma R expression in the acute phase of KD is thus characterized by markedly increased expression of Fc gamma RI on neutrophils, followed by a subsequent decrease, and decreased expression of Fc gamma RIII on neutrophils and increased expression of Fc gamma RIII on monocytes followed by a reverse kinetics during the clinical course. These findings are thus considered to reflect the functional up-regulation of neutrophils and monocytes in KD.     

Expression of IgG Fc receptor antigens in placenta and on endothelial cells in humans. An immunohistochemical study.

Expression of leukocyte IgG Fc receptor (Fc gamma R) antigens by placenta, endothelial cells (EC) of normal tissues, and ECs of kidney and skin from subjects with immune complex diseases was studied immunohistochemically using anti-Fc gamma R monoclonal antibodies (MAb). Monoclonal antibodies against all three leukocyte Fc gamma R classes stained placental villous macrophages. Placental villous trophoblasts were stained intensely by anti-Fc gamma RIII MAb 3G8, while both anti-Fc gamma RI (MAb 32) and anti-Fc gamma RII MAbs IV3, KU79, CIKM5, 2E1, KB61, and 41H16) antibodies did not react with these cells. Anti-Fc gamma RII MAbs IV3, KU79, CIKM5, 2E1, KB61, and 41H16 immunostained placental villous capillary EC, in contrast to anti-Fc gamma RI MAb 32 and anti-Fc gamma RIII MAb 3G8, CLB-Granl, and B73.1, which did not bind. Anti-Fc gamma RI MAb 32, anti-Fc gamma RII MAb IV3 and CIKM5, and anti-Fc gamma RIII MAb 3G8 did not react with the ECs of tonsil, liver, kidney, spleen, intestine, lung, or uterus. Similarly no EC staining was seen with these four MAbs in 14 skin and 14 kidney biopsies from subjects with immune-complex diseases. Fc gamma R antigens are expressed constitutively only by placental villous ECs and are not induced on nonplacental ECs by immune-complex-mediated diseases.     

Change in expression of Fc gamma RIII (CD16) on neutrophils from human immunodeficiency virus-infected individuals

Fc gamma RIII on neutrophils is a phosphatidyl inositol glycan (PIG)-anchored protein that can be released from the cells by activation with chemotactic peptides. We have examined the expression of Fc gamma RIII (CD16), CD11b, and Fc gamma RII (CD32) on neutrophils from human immunodeficiency virus (HIV)-I-infected individuals by two-color FACS. In patients with AIDS and AIDS-related complex and in HIV-I positive intravenous drug abusers we observed a substantial population (25%) of neutrophils that were autofluorescent, and did not stain with the anti-Fc gamma RIII mAb 3G8. This population was largely absent (3%) in HIV-I negative control individuals. No changes in the expression of Fc gamma RII, CD11b, or another PIG-anchored protein, decay accelerating factor (CD55) on neutrophils, were found. The presence of the Fc gamma RIII negative neutrophil population may be related to altered functions leading to common bacterial infections in advanced AIDS.     

Stimulation of the intracellular killing of Staphylococcus aureus by human monocytes mediated by Fcγ receptors I and II

Previous studies have shown that intracellular killing of bacteria by monocytes is stimulated by interaction between IgG and Fey receptors (FcγR) in the membrane of these cells. In the present study anti-FcγR monoclonal antibodies (mAb) were used to investigate the relative contributions of the various classes of FcγR to the intracellular killing of Staphylococcus aureus by human monocytes and the biochemical pathways involved. Anti-FcγRI or anti-FcγRII mAb, but not anti-FcγRIII mAb, efficiently stimulated the intracellular killing of bacteria by monocytes. Cross-linking FcγRI or FcγRII, but not FcγRIII, on monocytes with mouse anti-FcγR mAb followed by bridging with F(ab′)₂ fragments of goat anti-mouse IgG enhanced this process. Since the NADPH oxidase inhibitor diphenyleneiodonium blocked the FcγR-mediated intracellular killing of S. aureus, oxygen-dependent bactericidal mechanisms are most probably involved. Cross-linking FcγRI or FcγRII but not binding of the mAb to the FcγR on monocytes activated phospholipase C, as demonstrated by the increase in the intracellular concentration of inositol- (1,4,5)-triphosphate. The enhanced intracellular killing stimulated by cross-linking FcγR on monocytes was completely blocked by U-73122, an inhibitor of phospholipase C-dependent processes. Protein kinase C activity, but not the rise in the cytosolic free Ca⁺⁺ concentration or pertussis toxin-sensitive G proteins, is essential for the FcγR-mediated intracellular killing of bacteria by monocytes. Together, these results demonstrate that cross-linking FcγRI or FcγRII is equally effective in stimulating the intracellular killing of bacteria by monocytes and that this stimulation is a phospholipase C-dependent process.     

Activity of Two Types of Fc Receptors, FcγRI and FcγRII, in Human Monocyte Cytotoxicity to Sensitized Erythrocytes

We investigated the cytotoxicity of human monocytes mediated by two types of receptors for the Fc portion of IgG, Fc gamma RI and Fc gamma RII. Erythrocytes sensitized with human IgG (EA-human IgG) were used to assay Fc gamma RI function, and erythrocytes sensitized with mouse IgG1 (EA-mouse IgG1) were used to assay Fc gamma RII. Both types of Fc gamma R were observed to mediate antibody-dependent cell-mediated cytotoxicity (ADCC), which was further characterized by using different monoclonal anti-Fc gamma R antibodies (MoAb) and monomeric IgG. Lysis of EA-human IgG was inhibited by both monomeric human IgG and mouse IgG2a in a dose-dependent way, and also by anti-Fc gamma RI MoAb 10.1. Cytolysis of EA-mouse IgG1 was inhibited by monomeric mouse IgG1 and by two anti-Fc gamma RII MoAb, IV.3 and CIKM5. Antibodies of the mouse IgG2b isotype affected neither type of ADCC. The effectiveness of cytotoxicity mediated by either of the Fc gamma R was studied by means of targets sensitized with a calibrated number of IgG molecules. At least 20 times more IgG molecules per target cell were necessary to obtain half-maximal cytotoxicity mediated by Fc gamma RII than for Fc gamma RI-mediated cytolysis. Furthermore, the previously described polymorphism of Fc gamma RII was also reflected in Fc gamma RII-dependent cytotoxicity. These studies demonstrate that Fc gamma RII can mediate ADCC, although a higher degree of target cell sensitization is required than for Fc gamma RI-mediated ADCC.     

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.     

Receptor specific probes for the study of Fc gamma receptor specific function.

Human leukocytes express three distinct families of receptors for the Fc region of IgG (Fc gamma R). We have prepared erythrocytes (E) coated with monoclonal anti-Fc gamma R antibodies for the study of receptor specific phagocytosis using biotin and streptavidin. In this technique, both the E and the monoclonal antibody (mAb) are biotinylated and coupling of the mAb to the E occurs through the use of streptavidin. The same biotin/streptavidin principle was used to prepare E coated with human IgG. Using this technique, receptor specific probes or probes coated with natural ligand (IgG) can be prepared rapidly with the use of small amounts of mAb or IgG. Finally, we have used these receptor specific probes to demonstrate that all three families of Fc gamma R (Fc gamma RI, Fc gamma RII and Fc gamma RIII) expressed on human monocytes and human macrophages are phagocytic receptors.     

The glycosylphosphatidylinositol-linked Fc gamma receptor III represents the dominant receptor structure for immune complex activation of neutrophils.

Polymorphonuclear neutrophils (PMN) express constitutively two low-affinity Fc gamma receptors, Fc gamma RII and Fc gamma RIII. Fc gamma RII is a transmembrane molecule, and Fc gamma RIII is linked via a glycosylphosphatidylinositol (GPI) anchor to the membrane. The role of each of these receptors in activation of PMN is still unclear. We used specific cross-linking of Fc gamma RII via Fab fragments of IV.3 (anti-Fc gamma RII, CDw32) and of Fc gamma RIII using F(ab')2 fragments of 3G8 (anti-Fc gamma RIII, CD16) to activate PMN. Stimulation of Fc gamma RIII was significantly more effective in inducing a respiratory burst than cross-linking of Fc gamma RII. A synergistic effect was observed after simultaneous activation of Fc gamma RIII. We could demonstrate that both Fc gamma R mobilize calcium as intracellular signal in spite of their different membrane linkage. The kinetic of calcium mobilization after Fc gamma R stimulation is delayed in comparison to formyl-methionyl-leucyl-phenylalanine activation. In addition Fc gamma R-induced increase of cytoplasmic calcium is pertussis toxin insensitive. When monoclonal IgG1 kappa complexes were used for stimulation calcium mobilization and hydrogen peroxide (H2O2) production could also be demonstrated. Inhibition studies of this activation using monoclonal antibodies suggested that this immune complex activation was predominantly mediated via Fc gamma RIII. Only in Fc gamma RIII-deficient PMN from paroxysmal nocturnal hemoglobinuria patients could a decreased H2O2 production be demonstrated to be Fc gamma RII dependent. In normal PMN the GPI-anchored Fc gamma RIII structure is the predominant receptor.     

A monoclonal antibody specific for immunoglobulin A receptor triggers polymorphonuclear neutrophil superoxide release.

An immunoglobulin M (IgM) monoclonal antibody, My43, specific for IgA Fc receptor (Fc alpha R) on human monocytes, bound to human polymorphonuclear neutrophils (PMNs) and inhibited their ability to bind IgA but not IgG. It was observed that the PMN oxidative burst was induced by both polymeric IgA and aggregated IgG, whereas IgM was without effect. The IgG-mediated oxidative burst was inhibited by anti-Fc gamma RII Fab and anti-Fc gamma RIII F(ab')2 but not by My43. Conversely, the IgA-mediated oxidative burst was inhibited by My43 but not by anti-Fc gamma RII or anti-Fc gamma RIII. When anti-Fc receptor monoclonal antibodies (mAbs) were used directly as ligands, it was observed that both anti-Fc gamma RII Fab and anti-Fc gamma RII F(ab')2 promoted the oxidative burst when cross-linked. Moreover, My43, when cross-linked with F(ab')2 antimouse IgM, also triggered the oxidative burst, whereas an IgM anti-CD15 mAb, PM81, did not stimulate function. This demonstrates that IgA receptors on PMNs are function-triggering molecules and that an anti-IgA receptor mAb may be substituted as a ligand.     

Murine epidermal gamma/delta T cells express Fc gamma receptor II encoded by the Fc gamma R alpha gene.

Short-term bulk cultures and some long-term clones and lines of murine T cell receptor (TcR) gamma/delta-bearing epidermal T cells (dEC) were found to express an Fc gamma receptor II (Fc gamma RII), as revealed by reactivity with the monoclonal antibody 2.4G2. Northern blot analysis showed that the Fc gamma RII expressed on dEC is encoded solely by the Fc gamma R alpha gene. While all the various cultured dEC cell populations analyzed exhibit lectin-dependent cellular cytotoxicity, only those which expressed Fc gamma R alpha were also capable of mediating antibody-dependent cellular cytotoxicity (ADCC). These results in combination with the previous demonstration of Fc gamma R alpha on mouse natural killer cells support an essential role for Fc gamma R alpha in ADCC and extend an analogy with surface CD16 (Fc gamma RIII) expression and ADCC in human natural killer cells and peripheral TcR gamma/delta T cells.     

Sideways Killing: The Cytolysis of Fc Receptor-Bearing Cells through Bridging to Cytolytic T Lymphocytes by Antibodies Specific for the T-Cell Receptor-T3 Complex

Cytolytic T lymphocytes (CTL) cause cytolysis of foreign or virus-infected syngeneic cells when recognition of the target plus major histocompatibility complex (MHC) occurs via the T-cell receptor (TCR). The recognition event leads to intimate contact between the two cells and activation of the cytolytic effector. Activation and target cell lysis can also occur in the presence of antibodies to the TCR. This is accomplished by bridging the effector cell TCR to the target cell FcR by an anti-TCR monoclonal antibody (MoAb). Recent findings have placed the role of the FcR in this event in a questionable light. We confirm the importance of Fc gamma R by demonstrating that: (a) melanoma cells are killed by CTL clones in the presence of anti-TCR-CD3 antibodies only when the melanoma cells express the Fc gamma R on their surface; (b) native Ig, heat-aggregated Ig, or an Fc fragment from an antibody expressing the same isotype as the anti-TCR antibody can block the killing of high avidity Fc gamma RI-bearing cells mediated by anti-TCR antibody (F23.1); and (c) anti-Fc gamma R MoAb (2.4G2) and a truncated soluble Fc gamma RII molecule inhibit the killing of low-avidity Fc gamma RII-bearing cells mediated by anti-CD3 MoAb (145-2C11). Thus, we show that both high-avidity Fc gamma RI and low-avidity Fc gamma RII can mediate sideways killing depending upon the isotype of the anti-TCR antibody and the type of FcR present on the target cell surface.     

Monoclonal antibodies to human neutrophil Fc gamma RIII (CD16) identify polypeptide epitopes.

Human neutrophils constitutively express two low-affinity Fc gamma R, Fc gamma RII (CD32) and Fc gamma RIII (CD16). Eleven monoclonal antibodies (mAb) to CD16 were used to identify antigenic differences among Fc gamma RIII-bearing cells, to define functional epitopes of Fc gamma RIII on neutrophils, and to characterize biochemically the epitopes identified by some of these mAb. Flow cytometry demonstrated that 9 of the 11 mAb reacted with neutrophils, 10 of the 11 reacted with natural killer cells, and 9 of 11 reacted with monocytes and monocyte-derived macrophages. These mAb reacted with CD16 positive cells with varying fluorescence intensities. The ability of anti-CD16 mAb to block the binding of 125I-labeled immune complexes to neutrophils was examined. Four monoclonal antibodies strongly inhibited (87-96%) the binding to neutrophils of 125I-labeled immune complexes. Competitive binding assays were performed to determine whether any other anti-CD16 mAb identify the epitope identified by mAb 3G8. Two other mAb, CLBFCGRAN 1 and CLBGRAN 11, blocked binding of 125I-3G8 IgG to neutrophils. Six of the anti-CD16 mAb efficiently immunoprecipitated polypeptides of broad mobility ranging from 45 to 84 kDa from 125I-labeled neutrophils. When Fc gamma RIII, a complex sialoglycoprotein consisting of almost 50% oligosaccharides, was immunoprecipitated from neutrophils with 3G8 Fab Sepharose and subsequently digested with N-glycanase, 5 of the 6 mAb were capable of immunoprecipitating a deglycosylated polypeptide migrating at 29 kDa. These results demonstrate that these 5 mAb identify polypeptide epitopes of Fc gamma RIII, whereas 1 mAb, YFC120.5, may react with a glycosyl moiety or a determinant whose conformation is dependent on the presence of oligosaccharides.     

Cytotoxicity mediated by human Fc receptors for IgG

The Fc receptors for IgG(Fc gamma R) play a major role in the removal of antibody-coated infectious agents and may be important molecules for triggering cytotoxicity of tumor cells; they may also serve as an entry for infection of Fc gamma R-bearing cells by viral (including HIV and Dengue), and perhaps other infectious agents. Although central to immune defense, an understanding of the role of these Fc gamma R in cytotoxicity has been complicated in part by the presence of several biochemically distinct types of receptor that have different distributions, specificities, affinities and modes of activation for killing. The development of monoclonal antibodies specific for Fc gamma R on human leukocytes has established the existence of three distinct Fc gamma R and furthermore has helped clarify the function of each of these receptors. In this review, Michael Fanger and colleagues discuss the use of Fc gamma R-specific mAb and the hybridoma cell lines that produce them in examining the ability of each of these unique receptors to mediate killing of tumor and red cell targets. In particular, the use of self-directed hybridoma cells as a model of tumor-cell killing and of bi-specific antibodies to link target cells to effector cells through the different Fc gamma R is discussed. The results of these studies suggest that the ability of a given Fc gamma R to trigger killing is sometimes dependent on the type of Fc gamma R, but is also markedly influenced by the type of target cell and by the nature and state of activation of the effector cell.     

Section 1C: Assessment of the functional activity and IgG Fc receptor utilisation of 64 IgG Rh monoclonal antibodies. Coordinator's report.

Sixty-four IgG Rh monoclonal antibodies (Mabs) submitted to the Fourth International Workshop on Monoclonal Antibodies Against Human Red Blood Cells and Related Antigens were characterised and tested in quantitative functional assays at five laboratories. The biological assays measured the ability of anti-D to mediate phagocytosis or extracellular lysis of RBC by IgG Fc receptor (Fc gamma R)-bearing effector cells. Interactions of RBC pre-sensitised with anti-D (EA-IgG) with monocytes in chemiluminescence (CL) assays were found proportional to the amount of IgG anti-D on the RBC. Using antibodies to inhibit Fc gamma RI, Fc gamma RII or Fc gamma RIII, the only receptor utilised in the monocyte CL and ADCC assays for interactions with EA-IgG1 was found to be Fc gamma RI. In these assays, enhanced interactions were promoted by EA-IgG3 and additional Fc gamma receptors may have contributed. IgG2 anti-D was not reactive in these assays and EA-IgG4 promoted weak reactions through Fc gamma RI. A macrophage ADCC assay showed that haemolysis of EA-IgG3 was greater than that of EA-IgG1, mediated mainly through Fc gamma RIII. In ADCC assays using lymphocytes (NK cells) as effector cells and papainised RBC target cells, only a minority of IgG1 anti-D Mabs were shown to be able to mediate haemolysis in the presence of monomeric IgG (AB serum or IVIg). These interactions were mediated solely through Fc gamma RIII. Haemolysis via Fc gamma RIII may depend on the presence of certain sugars on the oligosaccharide moiety of IgG. Most Mabs (IgG1, IgG2, IgG3 and IgG4) elicited intermediate, low or no haemolysis in these assays. Blocking studies indicated that low activity IgG1 and IgG4 anti-D utilised only Fc gamma RI. Other IgG1 and IgG3 Mabs appeared to promote haemolysis through Fc gamma RI and Fc gamma RIII while IgG2 was inhibited by Mabs to both Fc gamma RII and Fc gamma RIII, suggesting a variety of Fc gamma R are utilised for anti-D of low haemolytic activity. Excellent agreement between the results of the lymphocyte ADCC assays and antibody quantitation was observed between the participating laboratories.     

Fc gamma and CD11/CD18 receptor expression on normal density and low density human eosinophils.

We have studied the expression of Fc gamma receptors and leucocyte integrins (CD11/CD18 family) on human eosinophils using specific monoclonal antibodies (mAb) and flow cytometric analysis. Peripheral blood eosinophils of normal density and low density were compared with neutrophils and monocytes. Several properties of the human eosinophil were established. These were (i) that the eosinophil expressed Fc gamma RII (CDw32) only (unlike monocytes which bear Fc gamma RI and Fc gamma RII and neutrophils which bear Fc gamma RII and Fc gamma RIII); (ii) that the absence of Fc gamma RIII (CD16) on eosinophils served as a basis for distinguishing eosinophil and neutrophil populations by immunofluorescence; (iii) that the leucocyte adhesion glycoproteins, LFA-1 alpha (CD11a), CR3-alpha (CD11b), p150, 95-alpha (CD11c) and the common beta-chain (CD18), were expressed on the eosinophil as well as the neutrophil; (iv) that CD18 expression was significantly reduced on low-density eosinophils from the hypereosinophilic syndrome. Thus, our findings emphasize the unique phenotype of the human eosinophil in terms of Fc gamma receptor expression, the similarity of the eosinophil and neutrophil with regard to the leucocyte integrins and that eosinophils of low density do not differ greatly from those of normal density in terms of receptor expression.     

Functional capacity of Fcγ receptor III (CD16) on human neutrophils

Receptors for the Fc region of immunoglobulin G (IgG) are a structurally diverse group of molecules. Within the three Fc gamma R families (Fc gamma RI, Fc gamma RII and Fc gamma RIII), the presence of distinct genes and alternative splicing variants leads to a variety of receptor isoforms that are most strikingly different in the transmembrane and intracellular regions. An obvious example of structural variation in the transmembrane and cytoplasmic domains is observed in the Fc gamma RIII family. Fc gamma RIIIB, which is nearly identical to Fc gamma RIIIA in the extracellular domains, lacks both transmembrane and cytoplasmic protein domains and is anchored to the cell through a glycosyl phosphatidylinositol anchor. Analysis of Fc gamma RIII function presents a considerable challenge in understanding the role of different Fc gamma R receptors in polymorphonuclear neutrophil (PMN) function. While one hypothesis for the role of Fc gamma RIII in Fc gamma R-dependent PMN effector functions is that Fc gamma RIII serves as a binding molecule which focuses the IgG ligand for more efficient recognition and intracellular signaling by Fc gamma RII, recent observations from a number of laboratories suggest that Fc gamma RIII on PMN can transduce signals across the membrane independent of ligand-dependent engagement of Fc gamma RII. We will review these data and present recent data which suggest that the role of Fc gamma RIII extends beyond direct initiation of functions to a more complex role of synergistic receptor interactions. These findings will be reviewed in the context of the experimental approaches that have been used to examine the roles of Fc gamma RII and Fc gamma RIII on PMN function.     

Insoluble immune complex-stimulated neutrophil leukotriene B4 production is dependent on Fc gamma RII and Fc gamma RIII and independent of pertussis toxin-sensitive signal transduction pathways.

Leukotriene B4 (LTB4) release initiated by interaction of immune complexes (ICs) with Fc gamma RII and Fc gamma RIII receptors on human neutrophils was studied using well-defined complexes. Immune complexes consisting of polyclonal rabbit antibody to human albumin were prepared at equivalence (insoluble complex) and at five times antigen excess (soluble complex). Incubation of human neutrophils with soluble and insoluble ICs led to the synthesis of LTB4 from endogenous arachidonic acid (AA). LTB4 release induced by ICs was markedly inhibited by monoclonal antibodies against either Fc gamma RII or Fc gamma RIII receptor. Treatment of neutrophils with pertussis toxin significantly inhibited the release of LTB4 induced by soluble ICs. However pertussis toxin treatment minimally inhibited the LTB4 release induced by insoluble ICs. Crosslinking of either Fc gamma RII and Fc gamma RIII receptors on neutrophil surfaces induced LTB4 release. This is the first experimental observation showing that both Fc gamma RII and Fc gamma RIII directly induce neutrophil LTB4 metabolism in the absence of exogenous AA. These studies also suggest the involvement of novel pertussis toxin insensitive signal transduction pathways in insoluble ICs stimulation of neutrophils.