Further evidence for heterogeneity of Fc gamma-receptors on guinea pig splenic B and T lymphocytes: analysis using monoclonal antibodies to two distinct types of Fc gamma-receptor

In our previous paper, we reported that guinea pig splenic lymphocytes expressed two distinct Fc-receptors for homologous IgG (Fc gamma Rs), one monospecific for IgG2 (Fc gamma 2R) and the other bispecific for IgG1 and IgG2 (Fc gamma 1/gamma 2R), when analyzed by EA-rosette assay. These Fc gamma Rs on the cells were further studied by using two monoclonal antibodies toward the Fc gamma Rs on guinea pig peritoneal macrophages (anti-Fc gamma 1/gamma 2R and anti-Fc gamma 2R antibody). The anti-Fc gamma 1/gamma 2R antibody completely inhibited the rosette formation of splenic lymphocytes with IgG1-sensitized sheep erythrocytes [EA(IgG1)]. On the other hand, EA(IgG2)-rosette formation was inhibited partially by anti-Fc gamma 2R but not by anti-Fc gamma 1/gamma 2R antibody. Complete inhibition of the EA (IgG2)-rosette formation was achieved by simultaneous additions of both anti-Fc gamma 2R and anti-Fc gamma 1/gamma 2R antibodies. The binding of IgG2 antibody complexed with ovalbumin to the cells was partially inhibited by either anti-Fc gamma R antibody, and complete inhibition occurred in the presence of both the antibodies, indicating that two types of Fc gamma R, Fc gamma 1/gamma 2R, and Fc gamma 2R, are expressed on the cells. The determination of these Fc gamma Rs on B and T lymphocytes by two-color flow cytometry showed that about 52% of B lymphocytes expressed Fc gamma 1/gamma 2R alone and 32% of the cells expressed both the Fc gamma Rs. On the other hand, about 12% of T lymphocytes was found to express Fc gamma 2R alone and the cells expressing Fc gamma 1/gamma 2R were in the minority (3.8%). T lymphocytes expressing both the Fc gamma Rs were not detected. These results show that guinea pig B lymphocytes bear two types of Fc gamma Rs and are heterogeneous with regard to their Fc gamma Rs and that T lymphocytes express Fc gamma 2R mainly.     

Mouse IgA Fc receptor on CD3+ T cells. Molecular forms of IgA that bind to a 38-kDa Fc alpha R protein and development of an anti-Fc alpha R antisera

Previous studies have shown that splenic T cells from mice that bear IgA myelomas, as well as certain T cell lines, express receptors for the Fc of IgA, and are termed Fc alpha R. In this study, we have isolated and characterized two CD3+ T cell lines derived by fusion of murine Peyer's patch (PP) CD4+ T cells with the BW 5147 lymphoma cell line. These cell lines, designated PPT4-6 and PPT4-16, were shown to bind monomeric or dimeric IgA, whereas the fusion partner did not bind either form of IgA. However, polymeric IgA (m.w. 600,000) bound equally well to all three cell lines. Similar results were also obtained with two known Fc alpha R+ T cell lines, ThHA1 nos. 9 and 10. Immunoprecipitation studies with IgA on PPT4-16 and ThHA1 no. 9 have shown that IgA binds to a 38-kDa protein. A rabbit antiserum was prepared to a 38-kDa fraction of Fc alpha R+ T cell membranes, and heterophilic antibody was removed from the antiserum by adsorption with mouse thymocytes, BW 5147 and R1.1 lymphoma. The antiserum bound to both PPT4-16 and ThHA1 no. 9 as well as to other Fc alpha R+ T cells, but did not bind to thymocytes or to the T lymphomas R1.1 or BW 5147. The antiserum appeared specific for the Fc alpha R, because it failed to block binding of anti-CD3 (145 2C11) or other surface molecule-specific antibodies. Further, competitive inhibition studies with IgA and anti-Fc alpha R (38 kDa) showed that preincubation of Fc alpha R+ T cells with the anti-38-kDa protein completely eliminated IgA binding, whereas IgA partially blocked the binding of the anti-Fc alpha R antibodies to the cell membrane. Immunoisolation with the anti-Fc alpha R antibody of radioiodinated cell membrane proteins from Fc alpha R+ T cells, but not from Fc alpha R- cells, gave a distinct band at 38 kDa. To further test the specificity of this antiserum, we have isolated T cells from spleens of IgA-myeloma bearing mice, and tested the phenotype and IgA binding. A subset consisting of 15 to 20% of CD3+, CD8+ T cells was found that bound monomeric or dimeric IgA. Further, the anti-Fc alpha R antiserum also recognized this CD8+ T cell subset, and preincubation of the cells with antibody resulted in their failure to bind IgA. Our results indicate that the Fc alpha R on T cell lines derived from PP is a 38-kDa protein.(ABSTRACT TRUNCATED AT 400 WORDS)     

Human K/natural killer cells targeted with hetero-cross-linked antibodies specifically lyse tumor cells in vitro and prevent tumor growth in vivo

We have induced fresh peripheral blood K/natural killer cells to lyse a variety of target cells by coating them with anti-Fc gamma receptor (anti-Fc gamma R) (CD16) antibody hetero-cross-linked with anti-target cell antibody. The cytotoxic cell mediating this activity is different, as judged by depletion studies, from the CD3+, CD8+ T cell which is targeted by anti-CD3 cross-linked to anti-target cell antibody. Targeted K cell activity from some donors is enhanced by exposure to interleukin 2 but not interferon-gamma; other donors exhibit high amounts of this activity without stimulation. Specificity of lysis mediated by targeted K cells is dictated by the specificity of the anti-target cell antibody within the heteroconjugate, and bystander cells are not lysed by targeted K cells. Hetero-cross-linked antibodies containing anti-histocompatibility leukocyte antigen class I instead of anti-Fc gamma R (CD16) do not promote lysis, suggesting that the bridging of the target cell to Fc gamma R on the K cell is required to activate the lytic process. Lysis mediated by targeted K cells is much less inhibitable by polymerized IgG than is classical antibody-dependent cellular cytotoxicity. Fresh human melanoma cells are lysed specifically by K cells coated with anti-Fc gamma R (CD16) cross-linked to the 96.5 anti-melanoma antibody. In vivo, targeted K cells prevent tumor growth at low effector to target ratios in Winn-type tumor neutralization assays. Targeted K cells may therefore provide a new immunotherapeutic approach for the destruction of detrimental cells, such as tumor and virally infected cells.     

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

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

Monoclonal antibody specific for T cell-derived human IgE binding factors

A B cell hybridoma secreting monoclonal antibody against human IgE binding factors was obtained by immunization of BALB/c mice with partially purified IgE binding factors, and fusion of their spleen cells with SP-2/0-AG14 cells. The monoclonal antibody bound all of the 60,000, 30,000, and 15,000 dalton IgE binding factors from two T cell hybridomas and those from activated T cells of a normal individual. The antibody bound both IgE-potentiating factors, which had affinity for lentil lectin, and IgE-suppressive factors, which had affinity for peanut agglutinin. However, the monoclonal anti-IgE-binding factor bound neither Fc epsilon R on RPMI 8866 cells nor IgE binding factors from the B lymphoblastoid cells. A monoclonal antibody against Fc epsilon R on B cells (H107) bound the 60,000 and 30,000 dalton IgE binding factors from both T cell hybridomas and RPMI 8866 cells but did not bind the 15,000 dalton IgE binding factors from either T cells or B cells. The results indicate that T cell-derived IgE binding factors have a unique antigenic determinant that is lacking in both Fc epsilon R on B cells and B cell-derived IgE binding factors. The anti-IgE binding factor and anti-Fc epsilon R monoclonal antibodies both failed to stain cell surface components of IgE binding factor-producing T cell hybridomas. However, both antibodies induced the T cell hybridoma to form IgE binding factors. The results suggest that the T cell hybridomas bear low numbers of Fc epsilon R that share antigenic determinants with IgE binding factors secreted from the cells.     

Inhibition of anti-IgM and growth factor-induced proliferation of guinea pig B cells by one of two distinct Fc gamma receptors on the cells

Guinea pig B cells were found to proliferate when co-stimulated with F(ab')2 of rabbit anti-guinea pig IgM and human 12-kDa B cell growth factor (BCGF), though the proliferation did not occur with the replacement of the F(ab')2 by its parent IgG antibody. In addition, the intact antibody inhibited the proliferation induced by F(ab')2 of anti-IgM and BCGF. Because both two distinct types of FcR for IgG on the B cells, one specific for IgG2 (Fc gamma 2R) and the other for both IgG2 and IgG1 (Fc gamma 1/gamma 2R), can bind rabbit IgG, we determined whether they participate in the inhibition of the B cell proliferation by intact anti-guinea pig IgM antibody. Blocking Fc gamma 1/gamma 2R by F(ab')2 of anti-Fc gamma 1/gamma 2R mAb significantly reversed the inhibitory effect of intact anti-IgM antibody. F(ab')2 of anti-Fc gamma 2R mAb, however, was not effective. Furthermore, guinea pig IgG1 and IgG2 anti-rabbit IgG antibodies suppressed similarly the B cell proliferation induced by F(ab')2 of rabbit anti-IgM and BCGF. These results show that between these two types of Fc gamma R on B cells, Fc gamma 1/gamma 2R alone is involved in the regulation of anti-IgM and BCGF-induced B cell proliferation, and inhibits the response when cross-linked to the surface IgM.     

Fc gamma R-mediated killing by eosinophils

In this report we present data on the ability of the different Fc gamma R present on eosinophils to mediate killing of erythroid and tumor targets, and on a comparison of eosinophil and neutrophil Fc gamma R-mediated killing. Erythroid target killing was assessed using chicken erythrocytes (CE) and heteroantibodies composed of Fab fragments of anti-CE antibodies covalently coupled to Fab fragments of anti-Fc gamma R antibodies. Such anti-CE x anti-Fc gamma R reagents permit linkage of CE target cells with the FcR molecules on the eosinophil or neutrophil effector cells. Tumor target killing was assessed using hybridoma cell lines (HC) bearing anti-Fc gamma R antibodies on their cell surface. Freshly isolated eosinophils and neutrophils constitutively express similar amounts of the low affinity Fc gamma R, Fc gamma RII on their cell surface, but neither cell type expresses the high affinity Fc gamma R, Fc gamma RI. In contrast, eosinophils have only about 5% as much of the low affinity Fc gamma R found on human granulocytes and large granular lymphocytes (Fc gamma RIII) as neutrophils. Untreated, freshly prepared eosinophils or neutrophils did not lyse any of the anti-Fc gamma R bearing HC nor did they lyse CE in the presence of anti-Fc gamma R containing heteroantibodies. Upon treatment with granulocyte monocyte-CSF (GM-CSF), both cell types lysed HC-bearing antibody to Fc gamma RII (HC IV.3A) and CE in the presence of anti-CE x anti-Fc gamma RII heteroantibodies. However, neither cell type lysed HC-bearing antibody to Fc gamma RI or Fc gamma RIII, or CE in the presence of anti-CE x anti-Fc gamma RI HA. Treatment with GM-CSF did not significantly alter the number of Fc gamma R on either cell type. Treatment of neutrophils with IFN-gamma for 18 h induced the expression of Fc gamma RI on these cells and their ability to lyse anti-Fc gamma RI- or Fc gamma RII-bearing HC and CE through Fc gamma RI, Fc gamma RII, and Fc gamma RIII. In contrast, 6-h treatment of eosinophils or neutrophils with IFN-gamma induced neither Fc gamma RI expression on either cell type nor killing of HC or CE through Fc gamma R. In summary, incubation with GM-CSF, induced eosinophils and neutrophils to kill anti-Fc gamma RII-bearing HC and to lyse CE through Fc gamma RII. This augmented killing was not associated with enhanced expression of Fc gamma RII.(ABSTRACT TRUNCATED AT 400 WORDS)     

Antigen-antibody complexes bound to B-lymphocyte Fc gamma receptors regulate B-lymphocyte differentiation

We studied the effect of soluble antigen-antibody complexes on the responses of polyclonally activated murine B lymphocytes. For this, normal B lymphocytes were stimulated with rabbit F(ab')2 anti-mu and lymphokines. IgG complexes, particularly in antigen excess, inhibited the plaque-forming cell response (55-70%), while proliferation was unaffected. Maximal inhibition was obtained with small amounts (0.2-1.0 microgram/ml) of complexes. Neither antigen or antibody alone was inhibitory. Inhibition was mediated via binding of the IgG complexes to Fc gamma receptors of B lymphocytes: (1) neither T lymphocytes or adherent accessory cells were required; (2) IgM complexes did not inhibit; and (3) inhibition was not seen when monoclonal anti-Fc gamma receptor antibodies prevented binding of the IgG complexes to these receptors. Kinetic experiments showed that B lymphocytes are susceptible to this inhibitory signal for only a short time after stimulation. We conclude that IgG complexes bound to the Fc gamma receptors of B lymphocytes regulate B-lymphocyte differentiation.     

Modulation of Fc gamma receptors on the human macrophage cell line U-937

Macrophage receptors for the Fc portion of IgG play an important role in host defense, inflammation, and the pathophysiology of autoimmune disorders. We studied one important function of Fc gamma receptors--the ability to bind IgG ligand. Direct binding experiments analyzed by nonlinear regression were consistent with monomeric and trimeric IgG binding to a single class of receptors. Indirect binding experiments were also consistent with this interpretation and revealed that both IgG ligands completely inhibited the binding of the other. In addition, we used an anti-Fc gamma RII monoclonal antibody known to compete for the Fc gamma RII ligand binding site and known to inhibit IgG trimer binding to other cells. At concentrations of antibody which saturated all Fc gamma RII sites, no inhibition of IgG trimer binding to U-937 was observed. This was evident despite the observation that the numbers of Fc gamma RI and Fc gamma RII, determined by equilibrium binding of monomeric IgG and anti-Fc gamma RII antibody, respectively, were similar on U-937. Monoclonal antibodies were used to compare the expression and modulation of Fc gamma receptor proteins with their ability to bind monomeric and trimeric IgG ligands. Dexamethasone and gamma-interferon regulated U-937 Fc gamma RI protein expression and IgG ligand binding to a similar degree. In contrast, the expression of Fc gamma RII was not altered by dexamethasone. Interferon-gamma primarily stimulated Fc gamma RI, as determined both by reactivity with monoclonal antibody (227 +/- 26%) and by monomeric IgG ligand binding (350 +/- 151%). In addition, dexamethasone inhibited by 33% the gamma-interferon effect on Fc gamma RI protein and by 56% the effect on Fc gamma RI binding of monomeric IgG. Preincubation of U-937 with anti-Fc gamma RII antibody did not alter the effect of dexamethasone or gamma-interferon on IgG trimer binding. These data indicate that on U-937 cells Fc gamma RII does not function in the recognition of small molecular weight immune complexes and that Fc gamma RI is the Fc gamma receptor responsible for the binding of both monomeric and trimeric human IgG. Furthermore, Fc gamma RI is the major Fc gamma receptor on U-937 that is modulated by both gamma-interferon and glucocorticoids.     

The mechanism of intercellular aggregation. I. The kinetics of the Fc gamma receptor-mediated aggregation of P388D1 cells with antibody-coated lymphocytes at 4 degrees C

The formation of specific, heterophilic conjugates between cells from the P388D1 mouse macrophage line and antibody-coated mouse spleen cells was followed in cell suspensions at 4 degrees C by dual parameter flow cytometry. Intercellular aggregation in this system is mediated by the binding of the Fc portions of IgG antibodies on the spleen cells with Fc receptors (Fc gamma R) on P388D1. We show that the rate of aggregation reaches a plateau with increasing cell concentrations, suggesting that the initial collision between cells is not the rate limiting step of conjugate formation. The rates of aggregation are strongly dependent upon the cell surface densities of both Fc gamma R and antibody. In conjugates, however, only small fractions of available receptors or antibodies are utilized in bond formation. The rate-limiting step of aggregation, therefore, involves the formation of ligand-receptor bonds, and may be the diffusion of antibodies and receptors toward one another in small areas of intercellular contact. Inhibitor studies implicate microfilaments, but not microtubules, divalent cations, or energy-dependent processes as being important in aggregation. Finally, conjugates are stable when diluted into medium alone, but dissociate in media containing protein A, soluble immune complexes, or anti-Fc gamma R antibodies. This suggests that conjugates are stabilized by multiple intercellular ligand-receptor bonds, which constantly break and reform at the cell:cell interface, and that protein A, immune complexes, and anti-Fc gamma R disaggregate the conjugates by preventing the reformation of broken bonds.     

Molecular heterogeneity of Fc alpha receptors detected by receptor-specific monoclonal antibodies.

Fc alpha receptors (Fc alpha R) were isolated from a human monocytic cell line and used to raise four mAb with receptor specificity. The antibodies were used to identify the types of white blood cells that express Fc alpha R and the molecular heterogeneity of the receptor molecules. Nonpolymorphic epitopes, outside of the Fc alpha-binding site, were recognized only on blood cells of granulocyte and monocyte/macrophage lineages. The molecules identified, both by the antibodies and by the IgA ligand, were glycoproteins ranging in relative molecular mass from 55 to 75 kDa. However, one antibody detected a subpopulation of Fc alpha R molecules characterized by relatively restricted size heterogeneity. A complex glycosylation pattern was revealed by the resolution of discrete 32- and 36-kDa molecular species after removal of N-linked oligosaccharides and by evidence for O-linked carbohydrate moieties on at least a portion of the Fc alpha R molecules. In biosynthetic studies, all four anti-Fc alpha R antibodies and the IgA ligand bound a single 32-kDa core protein present in tunicamycin-treated cells, and the exceptional antibody again recognized molecules with relatively restricted glycosylation in the nontreated cells. These antibodies and native IgA ligands thus provide complementary reagents for definition of the complex structure and function of Fc alpha R in systemic IgA antibody responses.     

Cross-linking of B lymphocyte Fc gamma receptors and membrane immunoglobulin inhibits anti-immunoglobulin-induced blastogenesis

The Fc portion of rabbit anti-mouse immunoglobulin (Ig) antibodies interferes with anti-Ig-induced B lymphocyte activation as measured by DNA synthesis on day 3 of culture or maturation to Ig-secreting cells in the presence of soluble helper factors on day 4 or 5. To investigate this Fc-dependent effect at an earlier stage in B cell activation, rabbit IgG anti-mouse mu-chain- or delta-chain-specific antibodies were compared with their F(ab')2 fragments for the ability to induce mouse B cells to undergo blast transformation, as defined by an increase in cell volume during the first 24 hr of culture. Both F(ab')2 anti-Ig reagents induce blast transformation, although F(ab')2 anti-mu antibodies induce a greater size change than F(ab')2 anti-delta antibodies. Whole anti-mu or anti-delta antibodies do not induce blast transformation; however, in the presence of a monoclonal anti-mouse Fc gamma receptor antibody that blocks IgG binding to Fc gamma receptors (Fc gamma R), whole anti-mu or anti-delta antibodies induce blast transformation as well as their F(ab')2 fragments. Because the anti-Fc gamma R antibody alone has no effect on blast transformation, it appears that the simultaneous binding of membrane IgM (or IgD) and Fc gamma R by whole anti-Ig antibodies prevents this early event in membrane Ig-induced B cell activation.     

Antibody conjugates mimic specific B cell presentation of antigen: relationship between T and B cell specificity

We developed antibody conjugates by covalently coupling antibodies against mouse mu-chain and monoclonal antibodies against nominal antigen, myoglobin, as a tool for antigen presentation and as a model of specific presentation of antigen by antigen-specific B cells and T-B interaction. In the presence of the antibody conjugates, myoglobin-specific Iad-restricted cloned T cells proliferated at 1000-fold lower concentration of myoglobin than the stimulatory concentration without the conjugates. This enhanced presentation was observed only when Iad spleen cells were 1000 R-irradiated but not 3300 R-irradiated, consistent with B cell presentation. The simple mixture of each component of the conjugates had no enhancement effects. The conjugates per se had no mitogenic effects on either splenic B cells or the cloned T cells at concentrations employed for antigen presentation. The conjugates reduced the number of antigen-presenting cells required for the maximal response but did not change the kinetics of response. The enhanced presentation by the conjugates required a genetically restricted interaction with B cells. Antigen specificity of the enhanced presentation was confirmed by using various T cell clones or lines with different antigen specificities and different conjugates constructed with monoclonal antibodies of known epitope specificity. The enhanced presentation was significantly inhibited by competition with exogenous mouse IgM or anti-mouse mu-chain but was not significantly inhibited by monoclonal antibodies against Fc receptor. Thus, conjugate-coated B cells serve as models for myoglobin-specific B cells in that they can take up specific antigens at extremely low concentration and can present the antigen to specific T cells. This model system can be applied to any antigen and any species without the need to develop antigen-specific B cell clones, which is not yet possible for most antigens and species of experimental animals. This system allowed us to investigate the relationship between T cell epitope and B cell epitope when these cells interact with each other in an antigen-specific and Ia-restricted manner. Experiments using antibody conjugates of different monoclonal antibodies against myoglobin and various myoglobin-specific cloned T cells of known antigen specificity revealed that there are some particular combinations in which much more limited enhancement of antigen presentation is observed.(ABSTRACT TRUNCATED AT 400 WORDS)     

Murine IgA binding factors produced by Fc alpha R(+) T cells: role of Fc gamma R(+) cells for the induction of Fc alpha R and formation of IgA-binding factor in Con A-activated cells

The relationship between the production of a T cell factor having affinity for IgA (IgA-binding factor(s); IgA BF) and the expression of Fc receptors specific for IgA (Fc alpha R) was studied by using murine spleen cells activated with concanavalin A (Con A blasts). Fc alpha R was detected by the cytophilic binding of anti-TNP murine IgA myeloma protein (MOPC 315 IgA) to Con A blasts as determined by an indirect rosette method with trinitrophenylated sheep red blood cells (TNP-SRBC). After 18 hr preculture with IgA, Fc alpha R was expressed on 15 to 20% of Con A blasts, which released IgA BF suppressing the in vitro IgA synthesis of the spleen cells stimulated with pokeweed mitogen (PWM). Without preculture with IgA, there was neither induction of Fc alpha R nor the production of IgA BF from Con A blasts. Fc alpha R was not induced on Con A blasts by IgA if Fc gamma R(+) cells were depleted from the blasts by rosetting with SRBC sensitized with rabbit IgG antibody (EA gamma). Even after preculture with IgA, the suppressive IgA BF was undetectable in the culture supernatant of Con A blasts depleted of the Fc gamma R(+) cell population. By using a double rosette method with EA gamma and trinitrophenylated quail red blood cells, Fc alpha R proved to be co-expressed on Fc gamma R(+) precursor T cells in the Con A blasts. The results suggested that both Fc gamma R and Fc alpha R could be co-expressed on Con A blasts, as is the case with T2D4 Fc gamma R(+), Fc alpha R(+) T hybridoma cells, which are known to produce IgG-binding factor(s) (IgG BF) and IgA BF. The relationship between Fc gamma R and Fc alpha R on a single cell was studied by using monoclonal anti-Fc gamma R antibody (2. 4G2 ). The reactivity of 2. 4G2 antibody with T cell Fc gamma R was proved by the inhibition of EA gamma rosette formation by Con A blasts or T2D4 cells. The addition of 2. 4G2 monoclonal antibody, however, did not affect the induction of Fc alpha R on Con A blasts by IgA. Furthermore, the binding of IgA to Fc alpha R already expressed on L5178Y T lymphoma cell line cells was not inhibited by the monoclonal antibody. The results confirmed that Fc alpha R are distinct from Fc gamma R co-expressed on the same Con A blasts, and that the expression of Fc alpha R on Fc gamma R(+) T cells and their production of suppressive IgA BF may be induced by the binding of IgA to Fc alpha R.     

Functions of the various IgG Fc receptors in mediating killing of Toxoplasma gondii.

The three types of IgG FcR (Fc gamma RI, Fc gamma RII, Fc gamma RIII) on human leukocytes play an important role in elimination of antibody-coated infectious agents. To further understand the role of the different Fc gamma R in mediating this killing, we examined the ability of human myeloid and lymphoid cells to kill the protozoan Toxoplasma gondii in the presence of antitoxoplasma IgG or bispecific antibodies. Although human myeloid cells (monocytes, macrophages, neutrophils, and eosinophils) all lysed unsensitized T. gondii, killing by these cells was significantly enhanced by opsonization with antitoxoplasma rabbit IgG. Human lymphocytes, however, did not lyse T. gondii unless the parasites were coated with antibody. The role of antibody and Fc gamma R in mediating ADCC of T. gondii was then examined using bispecific antibodies made by chemically cross-linking Fab fragments of antitoxoplasma antibodies to Fab fragments of antibodies specific for human leukocyte surface Ag, including Fc gamma R. Thus, simultaneous binding of these bispecifics to parasites and effector cells allowed an evaluation of killing when T. gondii were targeted to each Ag independently. Bispecifics which targeted T. gondii to Fc gamma RI, II or III enhanced lysis by monocytes. However, similar results were obtained with bispecifics targeting T. gondii to non-Fc gamma R Ag (CD11b or beta 2-microglobulin) on monocytes. Likewise, polymorphonuclear leukocytes mediated significantly more lysis in the presence of bispecifics linking T. gondii to Fc gamma RII, Fc gamma RIII, or the two non-Fc gamma R Ag CD11b and beta 2-microglobulin. Thus, although human myeloid cells did not require antibody-Fc gamma R triggering to kill T. gondii, antibody appeared to enhance lysis by capturing and directing the parasites to the effector cell surface. Human lymphocytes, in contrast, mediated significant lysis of T. gondii only in the presence of bispecifics targeting T. gondii to Fc gamma RIII, indicating a requirement for specific triggering of Fc gamma RIII for killing by large granular lymphocytes. Consequently, using bispecifics to compare targeting to specific Ag, both non-Fc gamma R and Fc gamma R, allowed determination of the role of antibody-Fc gamma R interactions in T. gondii killing. In addition, these studies demonstrate the potential of bispecifics in determining the role of specific Ag in killing of or infection by pathogens.     

Evaluation of the antibody-dependent cytotoxic capabilities of individual human monocytes. Role of Fc gamma RI and Fc gamma RII and the effects of cytokines at the single cell level.

In this report we present evidence that not all human peripheral blood monocytes mediate antibody-dependent cellular cytotoxicity (ADCC), and that this function may be determined on an individual cell by both the type and level of expression of FcR, and by the state of cellular activation and/or differentiation. Although the diverse range of effector and regulatory functions performed by human monocytes suggests the possibility of distinct subsets, it is not clear whether observed functional heterogeneity reflects the presence of true monocyte subpopulations, or whether this diversity represents a continuum of maturational states present in the peripheral circulation. In an attempt to address this question, we investigated the ability of human monocytes to carry out ADCC at the single cell level, with emphasis on the role of the three FcR for IgG (Fc gamma RI, Fc gamma RII, and Fc gamma RIII) in mediating cytotoxicity. Using a modified plaque assay, 58.3% +/- 4.9 of freshly isolated monocytes mediated ADCC, as evidenced by the formation of lytic plaques in monolayers of ox erythrocyte (oxE) target cells. Significant increases in the number of plaque-forming cells were observed after positive selection by flow microfluorimetry for those monocytes expressing high levels of Fc gamma RI and Rc gamma RII, but not Fc gamma RIII. Bispecific antibodies composed of Fab fragments of anti-oxE antibody covalently coupled to Fab fragments of anti-Fc gamma R antibodies were used to independently evaluate the ability of Fc gamma RI, Fc gamma RII, and Fc gamma RIII to mediate single cell cytotoxicity. Significant increases in the number of plaque-forming cells were observed in the presence of anti-Fc gamma RI x anti-oxE and anti-Fc gamma RII x anti-oxE bispecific antibodies, confirming the efficiency of Fc gamma RI and Fc gamma RII as cytotoxic trigger molecules on human monocytes. Incubation of monocytes with purified rIFN-gamma and granulocyte macrophage-CSF, but not IL-2, IL-3, IL-4, IL-6, or TNF-alpha, also resulted in significant increases in the number of monocytes mediating cytotoxicity, suggesting that cytotoxic ability at the single cell level may be influenced by factors which effect monocyte activation and differentiation, respectively. Overall, these studies demonstrate that freshly isolated human monocytes are heterogeneous in their ability to mediate ADCC, and suggest that this functional diversity arises not from discrete subpopulations of cells, but from a continuum of maturational/activational states present within the peripheral circulation.     

A cell surface glycoprotein of rat basophilic leukemia cells close to the high affinity IgE receptor (Fc epsilon RI). Similarity to human melanoma differentiation antigen ME491.

A monoclonal antibody (mAb), AD1, was isolated that recognized a cell surface protein on rat basophilic leukemia cells (RBL-2H3). At high concentration, this antibody inhibited IgE-mediated but not calcium ionophore-induced histamine release (49% inhibition at 100 micrograms/ml). The mAb AD1 did not inhibit the binding of IgE or of several antibodies directed to the high affinity IgE receptor (Fc epsilon RI). Likewise, IgE did not inhibit mAb AD1 binding. However, several anti-Fc epsilon RI antibodies did inhibit mAb AD1 binding as intact molecules but not as Fab fragments. Therefore, the sites on the cell surface to which mAb AD1 binds are close to Fc epsilon RI. The mAb AD1 immunoprecipitated a broad, 50-60-kDa band from 125I-surface-labeled RBL-2H3 cells that upon peptide N-glycosidase F treatment was transformed into a sharp 27-kDa band. A similar 27-kDa protein was immunoprecipitated from surface-radiolabeled cells after culture with tunicamycin. Thus, the protein recognized by mAb AD1 is highly glycosylated with predominantly N-linked oligosaccharides. The N-terminal sequence of 43 amino acids was found to be different from any subunit of Fc epsilon RI but nearly identical to that of the human melanoma-associated antigen ME491. Therefore, mAb AD1 binds to a surface glycoprotein on RBL-2H3 cells sterically close to the Fc epsilon RI but distinct from the recognized subunits of the receptor.     

Neutrophil chemotaxis and superoxide production are induced by cross-linking FcgammaRII receptors

Neutrophils express two types of receptor for the Fc region of IgG, FcgammaRII and FcgammaRIIIB. Via these receptors, neutrophils bind IgG complexes that contain more than one IgG molecule. This binding activates functional processes, such as the respiratory burst and chemotaxis. Neutrophils were treated with biotinylated anti-Fc receptor monoclonal antibodies and chemotaxis toward streptavidin, a cross-linking agent, was determined. Cross-linking FcgammaRII and not FcgammaRIIIB induced neutrophil chemotaxis. Superoxide production in response to immobilized anti-Fc receptor antibodies was also examined. Anti-FcgammaRII Fab bound to ELISA plates induced superoxide production, while anti-FcgammaRIIIB Fab did not. Pretreatment of neutrophils with anti-FcgammaRII Fab reduced superoxide generated by immobilized anti-FcgammaRII antibody. The data demonstrate that FcgammaRII and not FcgammaRIIIB are responsible for neutrophil chemotaxis and superoxide production upon Fc receptor activation.     

Monoclonal antibodies against T cell differentiation antigens initiate stimulation of monocyte/macrophage oxidative metabolism

Within the first minute after incubation with the mouse anti-human T cell orthoclone monoclonal antibodies OKT3, OKT4, and OKT8, and in the absence of complement, human monocytes generate a burst of highly reactive oxygen metabolites as detected by a luminol-dependent photometric chemiluminescence (CL) assay. The kinetics of the CL responses to these antibodies are identical to that induced by OKM1, the monoclonal antibody to human monocytes and granulocytes. With regard to CL response intensities, OKM1 induces the maximal response and those of OKT3, OKT4, and OKT8 closely reflect the proportion of T cell subsets recognized by these antibodies in peripheral blood. This reaction is also observed when monoclonal antibodies against mouse Lyt surface determinants (Lyt-1 and Lyt-2) and Thy-1 antigen are tested against murine spleen cells. This murine model was further used to investigate the specificity and the mechanism of this reaction. It was demonstrated that the CL response is Lyt antigen specific, occurs upon addition of monoclonal IgG but not IgM antibodies, requires the concomitant presence of CL-producing cells (CLPC) (promonocytes, monocytes, macrophages, and/or granulocytes) and of fully differentiated T cells, and lastly, is mediated via a T cell opsonization process. Selective blockade of bone marrow cell Fc receptors (FcR II) with monoclonal anti-mouse FcR II antibody inhibits the CL response to IgG2b anti-T cell antibody-coated thymocytes and thus strongly suggests that the stimulation of CLPC oxidative metabolism in this model results from the binding of opsonized T cells to plasma membrane Fc receptors. These observations lend additional support to increasing evidence that the initiation of effector functions by monoclonal anti-T cell antibodies may be strictly dependent upon the presence of monocytes and/or macrophages.     

Blockade of Fc receptor-mediated binding to U-937 cells by murine monoclonal antibodies directed against a variety of surface antigens

The effect of murine IgG hybridoma antibodies directed against leukocyte antigens on the Fc receptor function of human cells was studied. For this purpose, the specific binding of 125I-labeled monomeric human IgG1 to a macrophage-like cell-line (U-937) was quantitated before and after incubation in the presence of murine monoclonal hybridoma antibodies. Four monoclonal hybridoma antibodies (A1G3, 23D6, 4F2, and 3A 10), each of which binds to different antigens on the surface of U-937 cells, rapidly and potently inhibited the specific binding of labeled IgG1 to these cells. Inasmuch as inhibition was mediated only by IgG antibodies with an intact Fc fragment and antibody activity against surface antigens found on U-937, inhibition appears to have resulted from the formation of a three-component complex composed of antibody bound by its Fab portion to antigen and by its Fc fragment to a Fc receptor. Equilibrium binding studies performed on treated cells confirmed that reduced Fc receptor-mediated binding was due to a reduction in the number of available receptors. Binding studies employing double isotope labeling methods demonstrated that about 0.5 to 1.0 Fc receptor was blocked for each molecule of intact antibody bound to a U-937 cell. Using several techniques, it was shown that most of the monoclonal antibody bound to cells and the Fc receptors blocked by antibody remained on the cell surface despite incubation at 37 degrees C for 3 hr. Thus, the loss of receptor function observed in these experiments was almost exclusively due to reversible receptor blockade rather than receptor internalization or degradation. The antibodies identified in these studies also markedly inhibited Fc receptors on one other human cell line (HL-60) as well as those on normal human peripheral blood monocytes.