Structure and expression of Fc gamma receptors on mouse suppressor T cell hybridomas

Antigen-specific and idiotype-specific mouse suppressor T cell hybridomas were analyzed for the presence and specificity of Fc gamma receptors (Fc gamma R) by EA rosetting and by flow microfluorometry with the use of monoclonal antibodies. We found that four hybridomas expressed Fc gamma R specific for IgG1 and IgG2b, one of which became Fc gamma R- during prolonged culture. Four other hybridomas and the fusion parent, BW5147, consistently lacked Fc gamma R. The 125I-labeled Fc gamma R were isolated from surface radioiodinated hybridoma cells solubilized with 1% Nonidet P-40, were purified by using single or repetitive chromatography on mouse IgG-Sepharose columns, and were analyzed by SDS-PAGE. An 125I-labeled 56,000 to 61,000 Mr macromolecule was isolated from each of the Fc gamma R+ hybridomas, but from none of the Fc gamma R- hybridomas nor from BW5147 cells. This macromolecule rebound to insolubilized mouse IgG1, IgG2b, and human Fc fragments, but not to insolubilized mouse IgG2a, IgG3, or IgA or human F(ab')2 fragments, consistent with the specificity observed for Fc gamma R on intact hybridoma cells. The mouse suppressor T cell Fc gamma R differs in size and specificity from mouse B cell Fc gamma R. A 70,000 Mr protein expressed on all hybridomas and on BW5147 cells was radiolabeled and, despite preclearing with ovalbumin-Sepharose, bound to the mouse IgG-Sepharose columns, presumably due to mouse antibodies to gp-70. This macromolecule was completely and specifically removed by using goat antiserum to gp-70.     

Proteolysis induces increased binding affinity of the monocyte type II FcR for human IgG

Human monocytes express two types of IgG FcR, Fc gamma RI and Fc gamma RII. These can be assayed by using indicator E sensitized by human IgG (EA-human IgG) or mouse IgG1, (EA-mouse IgG1), respectively. On mouse macrophages, Fc gamma RI is sensitive to trypsin, whereas Fc gamma RII is trypsin resistant. We studied the effects of the proteolytic enzymes pronase and trypsin on human monocyte Fc gamma R. Neither enzyme caused a decrease in rosetting mediated by monocyte Fc gamma RI. Human Fc gamma RII is polymorphic, and monocytes interact either strongly or weakly with mouse IgG1. The interaction of low responder monocytes with mouse IgG1 was dramatically increased (to the level exhibited by high responder monocytes) by protease treatment. The effects of proteases on Fc gamma RII were investigated in more detail by using monocytes from which Fc gamma RI was selectively modulated by using immobilized immune complexes. Proteolysis of such modulated monocytes induced an increased interaction with EA-human IgG. Fc gamma RII appears to mediate this interaction. This conclusion is supported by the observation that after proteolysis, the Fc gamma RII-mediated binding of EA-mouse IgG1 becomes susceptible to inhibition by (monomeric) human IgG. To quantify the effect of proteolytic enzymes on Fc gamma RII, we performed binding studies with cell line K562, that expresses only Fc gamma RII. A significant increase in Ka of Fc gamma RII for dimeric human IgG complexes was observed when K562 cells were treated with protease. To elucidate the mechanism of this enhancement of Ka by proteolysis, we performed immunoprecipitation studies. Neither m.w., nor IEF pattern of Fc gamma RII were influenced by proteolysis. Moreover, the expression of Fc gamma RII was not affected by proteolysis as evidenced by immunofluorescence studies and Scatchard analysis, and neither were Fc gamma RI or Fc gamma RIII induced. We conclude that proteolysis increases the affinity of Fc gamma RII for human IgG, and speculate that such a proteolysis-induced change may also occur in vivo, e.g., at inflammatory sites.     

Quantitative analysis of Fc gamma receptors on murine spleen cell populations by using dual parameter flow cytometry

The expression of Fc gamma R on subsets of mouse spleen cells was examined by dual parameter flow microfluorometry. B cells were detected by labeling them with antibodies against sIgM, sIgD, sIgG, or I-A; essentially all B cells expressed Fc gamma R. The number of Fc gamma R per cell on the sIgD+, sIgM+, and I-A+ cells averaged 2 X 10(4) receptors, and no correlation between the levels of expression of Fc gamma R and the B cell markers was evident. The sIgG+ B cells, however, expressed more Fc gamma R (8 X 10(4) receptors/cell) than sIgM+ and sIgD+ B cells. Fc gamma R on splenic macrophages were examined by double labeling spleen cells for Fc gamma R and Mac-1. The Mac-1+ cells (2 to 16% of the spleen cells) were 100% Fc gamma R+ and expressed threefold to fivefold higher numbers of Fc gamma R per cell than the sIgM+ or sIgD+ B cells. The Fc gamma R on T cells were studied on cells double labeled for Fc gamma R and Thy-1, Lyt-1, or Lyt-2. An average of 20% of the T cells expressed Fc gamma R and at least two subsets of Fc gamma R+ T cells were evident: Lyt-2- cells, most of which expressed intermediate (2 X 10(4) Fc gamma R/cell) levels of Fc gamma R, and Lyt-2+ cells, which expressed mainly high (8 X 10(4) Fc gamma R/cell) amounts of Fc gamma R. The levels of expression of Fc gamma R and sIgM increased dramatically in response to infection and were elevated in mice with genetic defects. We conclude that the level of Fc gamma R expression is a characteristic property of subsets of spleen cells from normal and infected mice.     

Effect of protease inhibitors on human monocyte IgG Fc receptor II. Evidence that serine esterase activity is essential for Fc gamma RII-mediated binding

We have shown previously that certain proteases can modulate the affinity of human Fc gamma RII for IgG. To study whether proteolytic events not only increase FcR affinity, but are essential for Fc gamma R functioning, we evaluated the effect of different protease inhibitors on binding mediated by two classes of human monocyte IgG FcR. These R, Fc gamma RI and Fc gamma RII, can be analyzed selectively in rosetting assays by employing E sensitized by either human IgG or mouse IgG1. Rosetting by both classes of R was inhibited profoundly by incubation of monocytes with different types of serine protease inhibitors such as diisopropylfluorophosphate, PMSF, or N alpha-tosyl-L-lysyl-chloromethylketone. The type II Fc gamma R was much more sensitive to inhibition than Fc gamma RI. We, therefore, studied these effects in more detail by using cell line K562, which expresses only Fc gamma RII. PMSF, diisopropylfluorophosphate, and N alpha-tosyl-L-lysyl-chloromethylketone were, again, inhibiting Fc gamma RII-mediated binding dose-dependently, whereas several inhibitors of metal, aspartic, or thiol proteases proved ineffective. Furthermore, Fc gamma RII-mediated rosetting on both cell types was profoundly inhibited by the addition of different small synthetic substrates of serine esterases. In an attempt to discriminate whether the proteolytic event is an intra- or extracellular process, macromolecular antiproteases such as soybean or ovomucoid trypsin inhibitor or alpha 1-antiprotease were tested. Fc gamma RII-mediated binding by K562 cells was not susceptible to macromolecular antiproteases, in contrast to monocytes. In the presence of drugs which interfere both with receptor recycling and intracellular traffic between endosomal compartments (e.g., primaquine or monensin), the effects of inhibitors were largely abrogated. This showed that endocytosis of inhibitors might be essential, indicating the proteolytic event to be intracellular. Our findings suggest that human monocyte Fc gamma RII-mediated functioning is dependent upon the action of one or more serine proteases.     

The low affinity 40,000 Fc gamma receptor and the transferrin receptor can be alternative or simultaneous target structures on cells sensitive for natural killing

The role of the low avidity 40,000 dalton receptor for IgG (Fc gamma R) present on K562 and U937 cells in sensitivity to natural killing (NK) was studied by using a murine monoclonal antibody (mAb) specific for the 40,000 dalton Fc gamma R (alpha Fc gamma R mAb). Pretreatment of K562 target cells with intact alpha Fc gamma R mAb or its Fab fragment or anti-transferrin receptor (alpha TFR) mAb partially blocked in a dose-dependent manner, NK activity to K562 cells. However, combined pretreatment with alpha Fc gamma R and alpha TFR mAb completely blocked NK activity against K562 targets. As compared with K562 cells, lower levels of NK were elicited against Molt-4, U937, HL-60, and Daudi targets. Although NK activity to Molt-4 targets was not affected by alpha Fc gamma R mAb, it was fully prevented by pretreatment with alpha TFR mAb. In contrast, NK to U937 cells was not influenced by alpha TFR mAb, but it was strongly inhibited by alpha Fc gamma R mAb. The resistance of 3H-TdR-prelabeled adherent HEp-2 cells to natural cell-mediated cytotoxicity was not affected by either mAb. Lectin-dependent cell-mediated cytotoxicity (LDCC) against HEp-2 cells due to the presence of concanavalin A, and was completely abrogated by pretreatment of the targets with alpha TFR mAb, but was unaffected by alpha Fc gamma R mAb. By use of the flow cytometer, a significant correlation was detected between the relative expression of 40,000 dalton Fc gamma R and the susceptibility to NK, whereas the expression of TFR was discordant from NK sensitivity. As determined in the single cell cytotoxicity assay alpha Fc gamma R mAb reduced the frequency of target binding effector cells without affecting the number of dead bound targets. This pattern of inhibition was found against both K562 and U937 targets. Alternatively, alpha TFR mAb inhibited both binding and killing of K562 and Molt-4 targets. Because pretreatment of HEp-2 cells with alpha TFR mAb did not influence conjugate formation, the blocking of LDCC to HEp-2 cells by alpha TFR mAb can be related to post-binding events. These data show that although both the 40,000 dalton Fc gamma R and the TFR can be target structures for NK cell recognition, the TFR may also play an important role in the post-binding events.     

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.     

Synthetic Fc peptide-mediated regulation of the immune response. II. Analysis of secreted immunoglobulin classes, accessory cell contribution, and lymphocyte proliferation in p23-stimulated spleen cell cultures

The synthetic peptide p23 representing residues 335 to 357 in the CH3 domain of human IgG1 was able to increase levels of secreted Ig in murine spleen cell cultures. This in vitro response was optimal in the presence of between 10(-4) and 10(-3) micron p23/ml and the levels of secreted Ig reached a maximum on day 4 or day 5 of culture. Supernatants from p23-treated cell cultures generally contained more IgM than IgG and undetectable levels of IgA. Induction of Ig secretion by p23 was macrophage-independent but T cell-dependent and, with respect to the latter case, removal of T cells from spleen cells reduced the levels of both IgM and IgG. Although maintaining the B cell differentiation-inducing quality of its progenitor molecule, the Fc gamma fragment, p23 appeared to have lost the ability to induce B cell proliferation. Evidence is presented that a sequence functionally similar to p23 is extant in mouse IgG by showing that murine Fc gamma fragments were also able to induce increases in Ig-secreting cells in murine spleen cell cultures.     

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

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

Fc gamma RI and Fc gamma RII on monocytes and granulocytes are cytotoxic trigger molecules for tumor cells

As part of an effort to define the cytotoxic trigger molecules on human myeloid cells, the ability of the different Fc receptors for IgG (Fc gamma R) to mediate killing of tumor cell lines by monocytes and granulocytes was examined. This was accomplished by studying cytolysis of hybridoma cell (HC) targets bearing surface antibody directed toward the different Fc gamma R. The HC line, HC IV.3A, which bears Ig directed to the low affinity Fc gamma R (Fc gamma RII) on monocytes and neutrophils was lysed by human monocytes. The extent of lysis of HC IV.3A was approximately equal to that of anti-Fc gamma RI (the high affinity Fc gamma R on human monocytes) bearing HC lines (HC 32.2A and HC 62A) and was not augmented by treatment of the monocytes with interferon-gamma (IFN-gamma). In contrast, neutrophils lysed HC IV.3A and HC 32.2A only after activation with IFN-gamma. Since Fc gamma RI is not detectable on untreated neutrophils and is induced by IFN-gamma on these cells, lysis of HC 32.2A by IFN-gamma-activated neutrophils correlated with receptor induction. On the other hand, Fc gamma RII was present at equal levels on untreated and IFN-gamma-treated neutrophils, but only IFN-gamma-treated neutrophils mediated cytotoxicity via Fc gamma RII. In this case, enhanced killing appeared to be due to events other than an increase in Fc gamma RII number. Neither untreated nor IFN-gamma-treated neutrophils mediated the lysis of the anti-Fc gamma RIII bearing HC 3G8A. Thus, binding to the tumor target via this Fc receptor does not lead to lysis and may initiate signals distinct from those triggered through Fc gamma RI or Fc gamma RII. Surprisingly, HC bearing high amounts of mouse IgG1 antibody of irrelevant specificity were also lysed by monocytes. This lysis was blocked by soluble IV.3 antibody and thus appeared to be due to binding of the Fc portion of the surface Ig to Fc gamma RII on monocytes. Furthermore, monocytes from donors with a form of Fc gamma RII incapable of binding aggregated mouse IgG1 did not lyse these HC, but displayed normal lysis of HC IV.3, demonstrating that this structurally different Fc gamma RII remained a functional trigger molecule. Overall, these studies have demonstrated the specificity of Fc receptors in triggering monocyte- and granulocyte-mediated antibody-dependent tumor cell killing and have begun to dissect functional similarities and differences among the three defined Fc gamma R on human myeloid cells.     

IgE-binding factors from mouse T lymphocytes. I. Formation of IgE-binding factors by stimulation with homologous IgE and interferon

Incubation of normal mouse spleen cells with homologous IgE resulted in the formation of soluble factors that inhibited rosette formation of mouse Fc epsilon R+ cells with IgE-coated ox erythrocytes. The soluble factors could be absorbed with mouse or rat IgE coupled to Sepharose and recovered from the beads by acid elution. However, the factors had no affinity for either human IgE or mouse IgG. The IgE-binding factors were derived from T cells. Production of the factors required Lyt1+ T cells and Fc gamma R+ cells, which suggests that the factors are derived from Fc gamma R+ Lyt 1+ T cells. The molecular size of IgE-binding factors was approximately 15,000 daltons. When IgE-binding factors were formed by BALB/c spleen cells, nearly one-half of the factors had affinity for lentil lectin, and the remaining half of the factors failed to bind to the lectin. The proportion of the two species of IgE-binding factors differed depending on mouse strains. The majority of the factors formed by B6D2F1 spleen cells had affinity for lentil lectin, but those formed by SJL spleen cells failed to bind to the lectin. The IgE-binding factors were also induced by incubation of normal spleen cells with polyinosinic-polycytidylic acid (pI:pC). The nucleotide stimulated splenic adherent cells to form "inducers" of IgE-binding factors, which in turn induced normal lymphocytes to form IgE-binding factors. The inducers of IgE-binding factors were inactivated (or neutralized) by antibodies specific for mouse Type I interferon. It was also found that purified mouse beta interferon could induce the formation of IgE-binding factors. IgE-binding factors induced by pI:pC consisted of two different molecules: one had a m.w. of 15,000 daltons, and another had a m.w. of between 40,000 and 60,000 daltons.     

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.     

Murine recombinant Fc gamma RIII, but not Fc gamma RII, trigger serotonin release in rat basophilic leukemia cells.

Murine Fc gamma RII and Fc gamma RIII have highly homologous extracellular domains, but unrelated transmembrane and intracytoplasmic (IC) domains. Murine Fc gamma RIIb1 and b2 are two isoforms of single-chain receptors which differ only by 47 aa in their IC domain. Murine Fc gamma RIII are composed of an IgG-binding alpha-chain, the intracellular portion of which is unrelated to that of Fc gamma RII, and of a homodimeric gamma-chain which also associates with Fc epsilon RI. Murine mast cells express Fc gamma RII, Fc gamma RIII, and Fc epsilon RI. They can be induced to degranulate by murine IgG immune complexes or by F(ab')2 fragments of the rat anti-murine Fc gamma RII/III mAb 2.4G2, complexed to mouse anti-rat (MAR) F(ab')2. In order to determine which murine Fc gamma R can activate mast cells, cDNA encoding murine Fc gamma RIIb1, Fc gamma RIIb2 or Fc gamma RIII alpha were stably transfected into RBL-2H3 cells. Murine Fc gamma RIII but not Fc gamma RIIb1 or Fc gamma RIIb2 induced serotonin release when aggregated by (2.4G2-MAR) F(ab')2 complexes. The respective roles of the IC domains of murine Fc gamma RIII subunits in signal transduction were investigated by stably transfecting cDNA encoding IC-deleted or chimeric murine Fc gamma R into RBL-2H3 cells. The substitution of the IC domain of murine Fc gamma RII for that of murine Fc gamma RIII gamma, but not that of murine Fc gamma RIII alpha, conferred the ability to trigger serotonin release. The deletion of IC sequences of the alpha subunit did not alter the ability of murine Fc gamma RIII to trigger serotonin release. It follows that 1) murine Fc gamma RIII, but not Fc gamma RII, can induce RBL cells to release serotonin, 2) the aggregation of the IC domain of the murine Fc gamma RIII gamma subunit is sufficient, but 3) the IC domain of the murine Fc gamma RIII alpha subunit is neither sufficient nor necessary for triggering serotonin release.     

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.     

Transmembrane signaling in P815 mastocytoma cells by transfected IgE receptors

In order to delineate structural-functional relationships of the mast cell receptor for IgE (Fc epsilon RI) by molecular-genetic analysis, a transfectable cell must be identified which resembles mast cells except for being deficient in receptors. We have found that the well known murine mastocytoma P815 is suitable. These cells express no Fc epsilon RI, lack mRNA for the alpha and beta subunits of the receptor, but contain some mRNA for gamma chains. After transfection with the cDNA for each of the subunits, stable clones could be isolated which expressed several hundred thousand normal Fc epsilon RI and synthesized large amounts of mRNA for alpha, beta, and gamma, the last at 3-fold higher levels than in the untransfected cells. Aggregation of the transfected receptors led to opening of presumptive calcium channels and to activation of phospholipase C, phospholipase A2, and protein kinase C. The kinetics and other characteristics of the signals were similar to those observed after stimulation of the rat tumor mast cells from which the receptor genetic material had been derived but were smaller in magnitude. These weaker signals most likely result from an overall reduced reactivity exhibited by the P815 cells since stimulation by other ligands led to weaker or even no responses. The cells failed to degranulate after either receptor aggregation or reaction with ionophores with or without phorbol ester. Both the transfected and untransfected P815 cells express Fc receptors for IgG (Fc gamma RII) which, interestingly, independently triggered similar responses despite their apparently simpler subunit structure.     

Functional comparison of Fc epsilon RI, Fc gamma RII, and Fc gamma RIII in mast cells.

The cellular responses initiated by cross-linking rodent Fc gamma RII-b1, Fc gamma RII-b2, Fc gamma RIII, and Fc epsilon RI in mast cells were compared. Individual murine Fc gamma R isoforms were transfected into rat basophilic leukemia cells and after cross-linking the FcR, changes in the phosphorylation of protein tyrosines, in the level of intracellular Ca2+, in the hydrolysis of phosphoinositides, and in the release of arachidonic acid metabolites and hexosaminidase were monitored. Cross-linking of Fc gamma RIII initiated all of these early and late biochemical functions, and although they were quantitatively somewhat smaller, the responses were qualitatively indistinguishable from those stimulated by the endogenous Fc epsilon RI. However, despite ample expression, neither Fc gamma RII-b1 nor Fc gamma RII-b2 stimulated these functions when cross-linked. The functional differences between Fc gamma RII and Fc gamma RIII were studied further by assessing the responses to cross-linking of the endogenous Fc gamma R (Fc gamma RII-b1, Fc gamma RII-b2, and Fc gamma RIII) on P815 mouse mastocytoma cells that had been transfected with normal or functionally defective Fc epsilon RI. Two types of mutant subunits had previously been observed to impair the activity of Fc epsilon RI: gamma-chains missing the cytoplasmic domain, and beta-chains missing the COOH-terminal cytoplasmic domain. In both types of transfectants the functional inhibition of the endogenous Fc gamma R paralleled that of the transfected Fc epsilon RI. These results are consistent with the gamma subunit being associated with the functions of Fc gamma RIII as well as of Fc epsilon RI. The functional results also complement the recently reported evidence that Fc gamma RIII can interact with Fc epsilon RI beta-subunits (J. Exp. Med. 175:447, 1992).     

Unique monoclonal antibodies define expression of Fc gamma RI on macrophages and mast cell lines and demonstrate heterogeneity among subcutaneous and other dendritic cells

The mouse Fc gamma RI is one of the most fundamentally important FcRs. It participates in different stages of immunity, being a low affinity receptor for T-independent IgG3 and yet a high affinity receptor for IgG2a, the product of a Th1 immune response. However, analysis of this receptor has been difficult due largely to the failure to generate specific Abs to this FcR. We have made use of the polymorphic differences between BALB/c and NOD/Lt mice to generate mAb specific for the Fc gamma RI of BALB/c and the majority of in-bred mouse strains. Three different mAb were obtained that detected Fc gamma RI encoded by the more common Fcgr1(a) and Fcgr1(b) alleles, and although they identified different epitopes, none inhibited the binding of IgG to Fc gamma RI. When bound to Fc gamma RI, these mAb induced calcium mobilization upon cross-linking. Several novel observations were made of the cellular distribution of Fc gamma RI. Resting and IFN-gamma-induced macrophages expressed Fc gamma RI as well as mast cell lines. Both bone marrow-derived and freshly isolated dendritic cells from spleen and lymph nodes expressed Fc gamma RI. A class of DC, uniquely found in s.c. lymph nodes, expressed the highest level of Fc gamma RI and also high levels of MHC class II, DEC205, CD40, and CD86, with a low level of CD8 alpha, corresponding to the phenotype for Langerhans-derived DC, which are highly active in Ag processing. Thus, in addition to any role in effector functions, Fc gamma RI on APC may act as a link between innate and adaptive immunities by binding and mediating the uptake of T-independent immune complexes for presentation, thereby assisting in the development of T-dependent immune responses.     

Fc receptors on cultured myeloma and hybridoma cells

The specificity of the Fc gamma receptors on the X63.Ag8.653 nonproducing myeloma cell line has been examined for binding to IgG1-, IgG2a-, and IgG2b-containing antigen-antibody complexes. Complexes containing each of these subclasses bind, and the binding of each is inhibited by the others. Trypsin treatment did not inhibit the binding of any of these subclasses. Furthermore, the monoclonal anti-Fc receptor antibody 2.4G2 inhibits the binding of all three subclasses. These results, together with those of other investigators, suggest that there is a single FcR for IgG1, IgG2a, and IgG2b on mouse B cells which differs in its specificity from the macrophage Fc gamma R. This is confirmed by the fact that a mutant IgG2b myeloma protein which binds to the macrophage Fc gamma 1/gamma 2b receptor does not bind to the Fc gamma R on X63.Ag8.653.     

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

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