Human T cell activation induced by a monoclonal mouse IgG3 anti-CD3 antibody (RIV9) requires binding of the Fc part of the antibody to the monocytic 72-kDa high-affinity Fc receptor (FcRI)

The mitogenic activity of anti-CD3 mouse monoclonal antibodies (mAb) in cultures of human peripheral blood mononuclear cells (PBMC) depends on the ability of the mAb to interact with CD3 molecules on the T cells, and with Fc receptors (FcR) on monocytes. Two types of FcR with distinct specificity for murine (m) IgG subclasses are involved: a 72-kDa receptor (FcRI) binds mIgG2a and a 40-kDa receptor (FcRII) binds mIgG1. In this study we examined the mitogenic activity of mIgG3 anti-CD3 mAb RIV9. In cultures of human PBMC, the mAb induced T cell proliferation and interleukin 2 production. We found that subjects, unresponsive to mIgG2a anti-CD3 (e.g., OKT3), were also RIV9 nonresponders. In contrast, nonresponders to mIgG1 anti-CD3 (e.g., anti-Leu4) had a normal response to RIV9. Our results therefore suggested that anti-CD3 mAb of the mIgG2a and mIgG3 subclass bind to the same monocytic FcR. Human monomeric IgG, which has been shown to bind to FcRI only, blocked T cell proliferation induced by mIgG2a and mIgG3 anti-CD3, but had no effect on T cell proliferation induced by mIgG1 anti-CD3. In contrast, a mAb (IV.3) to FcRII, which blocks ligand binding of the receptor, blocked the mitogenic activity of mIgG1 anti-CD3 antibodies, but had no effect on T cell proliferation induced by mIgG3 anti-CD3 or by mIgG2a anti-CD3. Binding of RIV9 to FcR of responder monocytes could be demonstrated in immunofluorescence. Monocytes from the RIV9 nonresponder subjects however were unable to bind the Fc portion of this antibody. The binding of fluorescein (FITC)-conjugated mIgG3 or FITC-conjugated mIgG2a to responder monocytes could be inhibited by human monomeric IgG and by mIgG2a and mIgG3, but not by the mAb to FcRII. The results demonstrate that mIgG3 binds to FcRI on human monocytes and that this binding is needed for the mitogenic activity of mIgG3 anti-CD3.     

Human alveolar macrophage FcR-mediated cytotoxicity. Heteroantibody- versus conventional antibody-mediated target cell lysis

Human alveolar macrophage have three distinct receptors for IgG: FcRI, FcRII, and FcRIII. In order to compare the ability of these receptors to mediate target cell lysis, three different assay systems were examined. First, we studied lysis of chicken E (CE) opsonized with heteroantibodies, which are synthetic antibodies composed of Fab fragments with anti-FcR activity covalently linked to Fab fragments with anti-CE activity. We found alveolar macrophage readily lysed heteroantibody-opsonized CE via each of the three FcR classes (FcRI, 20 +/- 5%; FcRII, 27 +/- 7%; and FcRIII, 13 +/- 13%, p less than 0.05). Non-FcR-dependent lysis of anti-beta 2-microglobulin x anti-CE heteroantibody-opsonized CE was not detected. Second, lysis of hybridoma cell lines bearing anti-FcR antibodies on their cell surface was examined to assess killing of "tumor-like" target cells. Whereas peripheral blood monocytes and lymphocytes were able to lyse hybridoma cell lines bearing surface anti-FcR mAb, alveolar macrophages were not. Third, activity of alveolar macrophage FcR was examined in a conventional antibody-dependent cellular cytotoxicity assay by using O+ (R1,R2) human RBC opsonized with human anti-D and anti-CD serum as target cells. We found lysis of anti-D and anti-CD opsonized human RBC was mediated exclusively via FcRI. No activity of FcRII or FcRIII was detected in these latter assays even if performed under conditions that impair FcRI activity. Thus, all three FcR present on alveolar macrophage mediate lysis of heteroantibody-opsonized CE; in contrast, with the use of a conventional antibody-dependent cellular cytotoxicity assay, only FcRI activity was detected. We were unable to demonstrate lysis of anti-FcR-bearing hybridoma cell lines by alveolar macrophages.     

Selective modulation of two human monocyte Fc receptors for IgG by immobilized immune complexes

Two types of IgG FcR, FcRI and FcRII, are constitutively expressed by human monocytes. FcRI (identified by mAb 32.2) binds human (h) IgG, FcRII (identified by mAb IV.3) has a low affinity for hIgG but interacts strongly with murine (m) IgG1. These receptors can be assayed by using indicator E sensitized by hIgG (EA-hIgG) or mIgG1 (EA-mIgG1), respectively. We further characterized these two FcR by modulation studies by using substrate-immobilized immune complexes containing rabbit IgG, goat IgG, or one of the mouse Ig classes or subclasses. After incubating monocytes in microtiter wells containing such immune complexes, binding of the two types of indicator red cells on the apical surface of the monocytes was quantitated using a photometric assay employing the pseudoperoxidase activity of E. No effect on the binding of sensitized E was observed after incubation of monocytes with immune complexes containing mouse IgE, IgA, or IgM, or F(ab')2 fragments of rabbit IgG. High concentrations of immune complexes containing IgG of mouse, rabbit, or goat, however, were able to induce a decrease in binding of both types of sensitized E, suggestive of modulation of both FcRI and FcRII. At lower concentrations of immune complexes, more selective patterns of modulation emerged. Under these conditions, immune complexes containing mIgG1 or mIgG2b, or, surprisingly, goat IgG induced a selective decrease in the binding of EA-mIgG1 (FcRII modulation), while immune complexes containing mIgG2a or rabbit IgG mainly affected the binding of EA-hIgG (FcRI modulation). By using anti-FcR mAb IV.3, it was confirmed that FcRII was modulated from the apical surface of monocytes after incubation on immune complex coated substrates. Selectivity of FcR-modulation was demonstrated by showing that under these conditions binding of anti-C receptor mAb, and several other anti-monocyte mAb did not decrease.     

Effects of inhibitors of C1q biosynthesis on macrophage Fc receptor subclass-mediated antibody-dependent cellular cytotoxicity and phagocytosis

We examined the effects of the inhibitors of C1q or collagen biosynthesis, 2,2'-dipyridyl (DP), and 3,4-dehydro-DL-proline (DHP) on murine macrophage (M phi) FcR subclass-mediated antibody-dependent cellular cytotoxicity (ADCC) and phagocytosis of sheep erythrocyte targets. Oil-elicited peritoneal M phi from C3HeB/FeJ mice which were cultured for 24 hr with DP (0.08 or 0.10 mM) or DHP (0.8 or 1.0 mM) showed a significant decrease in FcR subclass-mediated ADCC for murine monoclonal IgG2a (FcRI) and IgG2b/IgG1 (FcRII) as well as for heterologous polyclonal IgG. These collagen inhibitors also blocked phagocytosis mediated by both IgG2a- and IgG2b-opsonized erythrocytes. DP was more potent than DHP in blocking FcR effector functions in a reversible fashion and neither inhibitor affected M phi C3b receptor function. Pretreatment of M phi with collagenase resulted in significant reduction in FcR-mediated ADCC and phagocytosis. The inhibition of M phi FcR subclass-mediated ADCC and phagocytosis by collagen C1q synthetic inhibitors or by collagenase treatment further confirms a functional relationship between cell-associated C1q and FcR-dependent functions.     

Biological activity in the human system of isotype variants of oligosaccharide-Y-specific murine monoclonal antibodies

Summary The capacity of isotype variants of BR55-2, an anti-tumor monoclonal antibody directed against Y oligosaccharide, to mediate antibody-dependent cellular cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC) in the human system was evaluated using freshly isolated peripheral blood mononuclear cells, lymphocytes, monocytes and complement. The ADCC activities of the BR55-2 IgG3 isotype and its switch variants (IgG1, IgG2b, and IgG2a) with human monocytes were high for all isotypes, whereas the activity of all isotypes was lower with freshly isolated lymphocytes, IgG1 being the least effective. The CDC on the other hand was strong with IgG3, IgG2b and IgG2a and negative with the IgG1 variant. The IgG3 and IgG2a isotypes were selected for further development. Their strong ADCC and CDC activity against mammary carcinoma, colon carcinoma and small-cell lung tumor cell lines was confirmed quantitatively using proteins highly purified from tissue-culture supernatants. Significant variations in ADCC and CDC competence was observed among human donors.This work was supported by grants CA 10 815, CA 25 874 and CA 21124 from the National Institutes of Health     

Direct demonstration of binding of anti-Leu 4 antibody to the 40 kDa Fc receptor on monocytes as a prerequisite for anti-Leu 4-induced T cell mitogenesis

It has previously been demonstrated that about 30% of healthy Caucasian subjects are "nonresponders" in assays of the mitogenic activity of monoclonal mouse IgG1 (mIgG1) anti-CD3 antibodies (e.g., anti-Leu 4 and UCHT-1), and that this unresponsiveness is due to lack of monocyte helper function. In an immunofluorescence assay with fluorescence-activated cell sorter analysis, we studied the binding of phycoerythrin-conjugated anti-Leu 4 to monocytes from responders and nonresponders. Interaction was observed with monocytes from responders only, and was blocked by a murine monoclonal antibody (IV.3) directed to an epitope on the 40-kDa low affinity Fc receptor (FcRII). This indicates that the interaction represents binding of the Fc part of phycoerythrin-conjugated anti-Leu 4 to FcRII on responder monocytes. Indirect immunofluorescence with antibody IV.3 demonstrated, however, that monocytes from both responders and nonresponders express similar levels of FcRII. Thus, nonresponder monocytes apparently express a variant FcRII which is unable to bind the Fc part of mIgG1 antibodies. The anti-FcRII antibody completely blocked anti-Leu 4-induced (but not OKT3 (mIgG2a)-induced) T cell proliferation in cultures of peripheral blood mononuclear cells from responders. The results provide direct evidence that monocytes from anti-Leu 4 responders, but not monocytes from anti-Leu 4 non-responders, are able to bind the Fc part of mIgG1 to FcRII, and that this interaction with FcRII is essential for the mitogenic activity of mIgG1 anti-CD3 antibodies.     

Cytolytic activity of murine anti-dog lymphoma monoclonal antibodies with canine effector cells and complement

Peripheral blood leukocytes (PBL), nonadherent lymphocytes, and adherent monocytes separated from freshly isolated blood of 15 dogs were analyzed for their ability to mediate antibody-dependent cell-mediated cytotoxicity (ADCC) in combination with murine anti-tumor monoclonal antibodies (MAbs). Canine monocytes isolated from most donors by adherence to gelatin-fibronectin-coated plastic surface presented high ADCC activity against the canine lymphoma 17-71 tumor cell line in combination with antilymphoma MAbs 231 (IgG2a) and 234-2a (IgG2a). Canine lymphocytes generally showed lower ADCC activity than total PBL or monocytes. Canine PBL effector cells showed high ADCC activity against the human colorectal carcinoma SW948 cell line using the Y-6-specific MAb isotype switch variants 55-2 IgG3, 55-2 IgG1, 55-2 IgG2b, and 55-2 IgG2a. Analysis of the role of murine MAb isotypes on ADCC activity against tumors by canine cells using anti-human tumor class-switch variant MAbs and a panel of anti-canine lymphoma MAbs of different IgG subclass revealed the highest ADCC activity with MAbs of the IgG2a and IgG3 subclasses. IgG2a antilymphoma MAbs were also able to lyse tumor cells in complement-dependent cytotoxicity (CDC) assay. These results suggest the potential value of MAbs of IgG3 and IgG2a subclasses in immunotherapy against canine lymphoma.     

Phagocytosis of serum-opsonized zymosan down-regulates the expression of CR3 and FcRI in the membrane of human monocytes

The effect of iC3b receptor (CR3)-mediated phagocytosis on the expression of CR (C3b receptor, CR3) and IgG FcR (FcRI, FcRII) has been investigated by using serum-opsonized zymosan as a multivalent ligand for CR3. Sixteen hours after a short (1-h) pretreatment of human monocyte monolayers with zymosan opsonized with human AB serum (250 micrograms/ml), CR3 expression (as assessed by flow cytometric analysis with mAb Mo1) was significantly reduced by 59 +/- 3% (mean +/- SEM, n = 15, p less than 0.001). Concomitant with CR3 down modulation, FcR binding activity (as assessed by binding of IgG-coated E) was also found to be decreased to 41 +/- 4% of control (n = 7, p less than 0.001). Reduced FcR function was paralleled by a decrease in the expression of FcRI (as assessed with mAb 32.2). This FcRI modulation was not caused by zymosan-bound IgG because zymosan opsonized with agammaglobulinemic serum equally down regulated CR3 and FcRI expression. Pretreatment with zymosan opsonized with human AB serum, however, did not change the expression of other IgG and C-binding sites such as FcRII (examined with mAb IV.3 and 2E1) and CR1 (assessed with mAb 57F) as well as of unrelated cell membrane structures (beta 2m, MHC class II). In contrast, co-modulation for FcR function and CR3 expression induced by polymeric IgG is accompanied by a decreased expression of FcRII. These data indicate that interaction of a specific receptor with its ligand not only changes the expression of the receptor triggered, but has also a modulating effect on other receptor systems on the same cell.     

Characterization of IgG FcR-mediated proliferation of human T cells induced by mouse and human anti-CD3 monoclonal antibodies. Identification of a functional polymorphism to human IgG2 anti-CD3.

T cell activation induced by mouse anti-CD3 mAb has shown to be dependent on the Ig isotype of these antibodies. A study of isotype dependency of human antibodies, however, seems more relevant to human effector systems, especially in view of the availability of humanized antibodies for clinical applications. We constructed a panel of mouse and mouse/human chimeric anti-CD3 mAb, which differ only in their CH region and hence have identical binding sites and affinity. By using these antibodies, we now studied their ability to induce T cell proliferation in human PBMC and analyzed the classes of IgG FcR involved in these responses. The human (h)IgG1, hIgG3, and hIgG4, as well as mouse (m)IgG2a and mIgG3 anti-CD3 mAb induced an Fc gamma RI (CD64)-dependent T cell proliferation in all donors. Activation with hIgG2 and mIgG1 anti-CD3 mAb was observed to be mediated via the low affinity Fc gamma RII (CD32). It was found that leukocytes in a normal donor population display a functional polymorphism with respect to hIgG2 anti-CD3 responsiveness. This polymorphism was found to be inversely related to the previously defined Fc gamma RII-polymorphism to mIgG1 anti-CD3 mAb. Monocytes expressing the Fc gamma RII mIgG1 low responder (LR) allele support hIgG2 anti-CD3 induced T cell proliferation efficiently, whereas cells homozygous for the Fc gamma RII mIgG1 high responder (HR) allele do not. This observation could be confirmed in T cell activation studies using hFc gamma RIIa-transfected mouse fibroblasts, expressing either the mIgG1 anti-CD3 HR or LR Fc gamma RII-encoding cDNA.     

Killing of human tumor cell lines by human monocytes and murine monoclonal antibodies

We evaluated the capacity of freshly isolated blood monocytes to mediate antibody-dependent cellular-mediated cytotoxicity (ADCC) in cooperation with murine anti-tumor monoclonal antibodies (MAbs). Blood monocytes isolated from most donors by adherence selection to fibronectin-coated plastic surfaces and subsequently depleted of natural killer/killer (NK/K) cells exhibited significant ADCC activity against tumor cell lines in combination with an IgG3 antitumor MAb (BR55-2). However, significant variation in ADCC competence was observed among donors. Culture parameters influencing monocyte ADCC activity were evaluated and optimized. The influence of MAb isotype on ADCC capacity of anti-tumor MAbs was also evaluated using anti-tumor class-switch variant hybridoma proteins and a panel of anti-tumor MAbs. MAbs of the IgG2a and IgG3 subclasses exhibited high ADCC potential, whereas MAbs of the IgG2b subclass exhibited no ADCC activity. One of two IgG1 MAbs tested exhibited high ADCC activity with monocyte effectors. The role of monocytes or macrophages in tumor remission of cancer patients undergoing MAb immunotherapy is not known. However, correlative studies of monocyte ADCC capacity and responsiveness of cancer patients to MAb immunotherapy may help to establish the role of these effectors in MAb-mediated tumor remissions.     

The monoclonal antibody 41H16 detects the Leu 4 responder form of human Fc gamma RII.

Human FcR for IgG can be divided into three classes (Fc gamma RI, II, and III) based on their structure and reactivity with mAb. Fc gamma RII can be further subdivided into two categories based on functional and biochemical assays. These two Fc gamma RII subtypes were initially recognized by the failure of T cells from 40% of individuals to proliferate in response to mAb Leu 4 (mouse IgG1, anti-CD3), a response that requires the binding of the Fc region of the Leu 4 mAb to Fc gamma RII on monocyte accessory cells. Inas-much as mouse IgG1, does not bind efficiently to the nonresponder form of Fc gamma RII, mAb Leu 4 is unable to induce proliferation in these individuals. IEF data on Fc gamma RII from Leu 4 responder and nonresponder individuals suggested that the structural gene for Fc gamma RII consisted of two allelic forms R (responder) and N (nonresponder) producing the phenotypes RR, RN, and NN. Thus, exclusive expression of the nonresponder allele in monocytes of "nonresponder" individuals, appeared to be responsible for the lack of proliferation observed. In cooperation with the IVth International Conference on Human Leukocyte Differentiation Antigens, we analyzed CDw32 mAb to determine if they could distinguish the responder and nonresponder forms of Fc gamma RII. We report that mAb 41H16 binds preferentially to the responder allotypic form of Fc gamma RII expressed on human monocytes. When quantitative flow cytometry is used to measure the binding of both mAb 41H16 (responder Fc gamma RII) and mAb IV.3 (all myeloid cell Fc gamma RII), we are able to subdivide the responder population into homozygous and heterozygous responders. In addition, mAb 41H16 blocks the binding of mAb IV.3 to monocytes and inhibits proliferation when added to cells before addition of mAb Leu 4. We also show that polymorphonuclear leukocytes and platelets have the same allotypic differences in the binding of 41H16 as do monocytes. However, a subset of lymphocytes (previously shown to be B cells) expresses the 41H16 epitope with no evidence for donor to donor variability.     

Structural polymorphism of the human platelet Fc gamma receptor

A variable T lymphocyte proliferative response to murine IgG1 anti-T3 monoclonal antibodies, in which most North American Caucasians respond whereas a minority do not, is well established. This is most likely the result of a genetic polymorphism manifested by 1) the inability of the monocyte 40-kDa IgG FcR of some individuals to bind murine IgG1, and 2) a distinctive trimorphic pattern on IEF of the monocyte 40-kDa FcR, one form being seen in all individuals who do not respond and another form (or a combination of both forms) being seen in those who do respond. We have evaluated the IEF patterns of the platelet 40-kDa FcR and find that in every individual tested the pattern for platelet FcR correlates with that seen for the monocyte 40-kDa FcR pattern. Furthermore, the platelets of those individuals whose "nonresponder" monocyte 40-kDa FcR did not mediate a murine IgG1 anti-T3 response did not respond with an aggregation reaction to murine IgG1 immune complexes (opsonized E). In contrast, platelets from donors possessing "responder" monocytes displayed positive "aggregation" responses to E coated with murine IgG1 antibody. However, the platelet FcR structural polymorphism described earlier did not correlate with the donor-specific variability in capacity of platelets to respond functionally to aggregated human IgG described in an earlier paper. Rather, the variation in capacity of platelets from individual donors to respond functionally to aggregated human IgG was related to the quantitative expression of platelet FcR. These data indicate that the molecular mechanisms responsible for the platelet 40-kDa FcR structural polymorphism are quite different from the mechanisms governing the variation in quantitative expression of the receptor.     

Analysis of the monocyte Fc receptors and antibody-mediated cellular interactions required for the induction of T cell proliferation by anti-T3 antibodies

The induction of human T cell proliferation by antibodies that cross-link T3 antigens is dependent on functional interactions of anti-T3 antibodies with monocyte Fc receptors. In this report, we used a panel of anti-T3 antibodies of differing heavy chain isotype and a variety of other monoclonal antibodies to analyze several features of the antibody-mediated interactions between T cells and monocytes that are required for mitogenesis. Whereas three IgG2a anti-T3 antibodies were mitogenic for cells from all individuals, IgM and IgG2b anti-T3 antibodies did not induce T cell proliferation in any donor and could block the proliferative responses induced by other mitogenic anti-T3 antibodies. Dose-response analyses with four IgG1 anti-T3 antibodies demonstrated donor heterogeneity as reported by other investigators. However, in contrast to these previous reports, high concentrations of IgG1 anti-T3 antibodies were found to be mitogenic for all donors, indicating that this heterogeneity is based on relative rather than absolute defects in low responder monocytes. Cell mixing experiments in which monocytes from two different low responder donors were co-cultured with T cells and IgG1 anti-T3 antibodies did not identify any complementary defects, suggesting that the low responder phenotype results from a relatively restricted polymorphism. To assess the nature of the signals required for inducing T cell proliferation, nonmitogenic anti-T3 antibodies were co-cultured with other pan-T cell antibodies having the IgG2a isotype. The combination of signals from T3 antigen cross-linkage and those independently generated by other IgG2a antibodies bound to monocyte Fc receptors did not induce T cell proliferation. Hence, it appears that the T3 antigen or closely associated structures must be clustered at the monocyte membrane for mitogenesis. Finally, in competitive inhibition experiments, the isotype specificity of monocyte Fc receptors involved in the induction of T cell proliferation was examined. Two distinct Fc receptor sites, one that binds murine IgG2a and IgG3 antibodies and a second that binds murine IgG1 antibodies, were identified. Murine IgM or IgG2b did not appear to bind either of these receptor sites. Taken together, these data indicate that human monocytes have two distinct Fc receptor sites, which must specifically and directly interact with T cell-bound anti-T3 antibodies for mitogenesis.     

Comparative studies on FcR (FcRII, FcRIII, and FcR alpha) functions of murine B cells

Distribution of FcR II, FcRIII, and FcR alpha on murine splenic B cells was examined by using FITC-labeled heat-aggregated IgG of each subclass and IgA. Almost 60 to 80% of B cells expressed both FcRII and FcRIII. However, FcR alpha was expressed on only a small proportion (6%) of B cells that co-expressed FcRII. By inhibition assays with the use of cold IgG of each subclass and IgA in addition to anti-FcRII mAb (2.4G2), it was found that IgG1, IgG2a, and IgG2b utilized the same receptor (FcRII), whereas IgG3 and IgA bound only to their unique receptors, FcRIII and FcR alpha, respectively. Immune complexes IC prepared by IgG1, IgG2a, IgG2b, and IgA anti-TNP mAb with TNP-coupled SRBC inhibited the polyclonal Ig secretion and proliferative responses of B cells stimulated with either IL-4 or LPS. The inhibition of B cell activation was associated with the blockade of the membrane depolarization. Moreover, IC prepared by these antibodies caused production of suppressive B cell factor (SBF) as is the case with rabbit IgG antibody to SRBC, and SBF thus prepared regulated antibody responses in an isotype-nonspecific manner. In contrast, no inhibition for these responses or production of SBF was attained by the IC of IgG3 antibody. We concluded that FcRII and FcR alpha mediates a suppressive signal for B cells by acting on the initial step of activation, whereas FcRIII lacks this activity.     

Polymorphonuclear neutrophils enhance anti-CD3-induced T cell activation: the role of polymorphonuclear FC-receptors.

We investigated the effect of polymorphonuclear neutrophils (PMN) on anti-CD3 mAb (OKT3 and anti-Leu4)-mediated T cell activation. In the absence of monocytes, purified E-rosette-positive cells (further referred to as "T cells") require either solid-phase bound anti-CD3 or the combination of both a high concentration of soluble anti-CD3 and exogenous recombinant interleukin 2 (rIL-2) to proliferate. PMN cannot sustain T cell proliferation with soluble anti-CD3, but they markedly boost proliferation in the presence of soluble anti-CD3 and rIL-2. When PMN were added to T cell cultures stimulated with anti-CD3, this resulted in IL-2 receptor (IL-2R) expression and CD3 modulation. The mechanism of enhancement of anti-CD3-induced IL-2-responsiveness by PMN was further analyzed. A cellular T cell-PMN interaction was found to play a critical role and this was mediated through PMN Fc receptors (FcR). PMN bear two types of low-affinity FcR (FcRII and FcRIII). FcRII is known to bind mIgG1 (e.g., anti-Leu4) and FcRIII binds mIgG2a (e.g., OKT3). FcR involvement was demonstrated by two observations. Anti-FcRII mAb IV.3 inhibited the PMN signal for T cell activation with anti-Leu4. PMN bearing the second variant of FcRII which is unable to bind mIgG1 failed to promote anti-Leu4/IL-2-mediated T cell proliferation. Thus, PMN potentiate T cell responsiveness to IL-2 in the presence of anti-CD3 mAb and this potentiation by PMN requires interaction of anti-CD3 with PMN-FcR.     

Down-regulation of surface FcRI and decrease in antibody-dependent cellular cytotoxicity of cultured monocytes. Reversal by monensin or cytochalasin-D

To investigate the mechanisms involved in regulation of antibody-dependent cellular cytotoxicity (ADCC) mediated by human monocytes, 51Cr-labeled sheep red blood cells (RBC) were used as target cells in vitro. Monocytes incubated overnight at 37 degrees C before addition of SRBC and antibody exhibited a significant decrease in ADCC activity compared with freshly isolated cells. This pattern was observed with monocytes from all donors tested, regardless of the media used for culture. Supernatants from monocyte cultures did not inhibit the cytotoxic ability of fresh monocytes and cycloheximide, a protein synthesis inhibitor, could not reverse ADCC suppression in cultured monocytes, indicating that the alteration in ADCC is probably not due to inhibitory molecules secreted or synthesized during incubation. A correlation between the decrease in the number of surface FcRI and loss in ADCC ability of cultured monocytes was found. One mechanism for the reduced FcRI expression of 1-day-old monocytes may be rapid internalization that exceeds the rate of reexpression, because cytochalasin-D or monensin, each of which inhibits receptor internalization, maintained FcR expression as well as ADCC ability of cultured monocytes. These data illustrate mechanisms whereby alteration in the number of receptors may underlie loss of receptor-mediated functions, or be involved in augmentation of their biologic activity. The findings that important monocyte functions change under conditions of storage or culture have relevance to in vitro testing of various immune functions of monocytes performed clinically to monitor or guide therapy.     

Comparison of GK1.5 and chimeric rat/mouse GK1.5 anti-CD4 antibodies for prolongation of skin allograft survival and suppression of alloantibody production in mice.

GK1.5 is a rat mAb that recognizes the mouse CD4 Ag. It has been shown to deplete CD4+ cells in vivo and to be immunosuppressive. To evaluate the effect of the C region of this antibody in achieving cell depletion, chimeric antibodies, each having the rat GK1.5 V regions and one of the four mouse IgG C region isotypes, were compared with the native rat antibody. The chimeric antibodies and the native antibody were tested for their ability to mediate in vitro C-dependent cytotoxicity, in vivo cell depletion, and prolongation of allogeneic skin graft survival and suppression of alloantibody production. In vitro C-dependent cytotoxicity assays revealed that rat IgG2b and the chimeric antibodies containing mouse IgG2a, mouse IgG2b, and mouse IgG3 were effective in lysing CD4+ lymphocytes whereas mouse IgG1 was ineffective. In vivo studies of CD4+ cell depletion showed that mouse IgG2a, rat IgG2b, and mouse IgG2b were effective isotypes, mouse IgG1 was less effective, and mouse IgG3 did not deplete CD4+ cells. A correlation was found between the ability of an isotype to deplete CD4+ cells in vivo and its ability to prolong the survival of skin allografts and to suppress alloantibody production. The nondepleting mouse IgG3 was ineffective in these assays. Overall the most effective mouse isotype was IgG2a which was as effective as rat IgG2b. These results indicate 1) that syngeneic isotypes of mAb can cause cell depletion and consequently the prolongation of allograft rejection and suppression of alloantibody production; 2) that not all isotypes are equally effective; and 3) that the ability of a given isotype to deplete cells in vivo does not correlate with its ability to mediate C-dependent lysis in vitro. Our results are consistent with the hypothesis that in vivo depletion of cells is mediated by opsonization and binding through the FcR.     

Analysis of effector cells in human antibody-dependent cellular cytotoxicity with murine monoclonal antibodies

We examined purified human large granular lymphocytes, peripheral monocytes, and T cells for their ability to mediate antibody-dependent cellular cytotoxicity (ADCC) with murine monoclonal antibodies. We also evaluated the effects of pretreatment of cells with interleukin 2 and interferon to augment ADCC activity. MB3.6, a murine monoclonal antibody directed against the GD3 ganglioside, induced high levels of ADCC. This ADCC was mediated predominantly, if not completely, by human killer cells (large granular lymphocytes) whereas other effector cell populations demonstrated no significant cytotoxic activity in 6- or 18-hr assays. The IgG2a an anti-melanoma antibody 9.2.27 generated low or no ADCC with most normal donors or melanoma patients. IL 2 was a very potent booster of ADCC activity. Interferon alpha also was effective, whereas interferon gamma did not augment but rather inhibited reactivity. We tested a large panel of antibodies of various isotype against colon carcinoma cells and found that gamma-3 isotype antibodies more frequently generated ADCC and produced higher levels of cytotoxic activity than did IgG1 or IgG2 antibodies. It appears that a variety of parameters can affect ADCC reactions, including the type of effector cell and its level of activation, the isotype of the antibody, and properties of the target cell line such as its susceptibility to lysis.     

Unusual expression of IgG Fc receptors on peripheral granulocytes from patients with leukocyte adhesion deficiency (CD11/CD18 deficiency)

Leukocyte adhesion deficiency (LAD) is a hereditary disease characterized by defective expression of leukocyte adhesion glycoproteins; lymphocyte function-associated Ag-1 (CD11a/CD18), CR3 (CD11b/CD18) and p150,95 (CD11c/CD18). Granulocytes, monocytes, and lymphocytes of patients with LAD show profoundly defective in vivo and in vitro adherence-dependent immune functions. We investigated the expression of FcR for IgG on polymorphonuclear cells (PMN) and monocytes from patients with LAD, and their luminol- and lucigenin-enhanced chemiluminescence production in response to SRBC sensitized with murine (m) IgG2a and IgG2b. Unstimulated patient PMN showed an enhanced chemiluminescence in response to mIgG2a-SRBC and an increased phagocytosis of mIgG2a-SRBC. The up-regulated functions were inhibited by monomeric human IgG in a dose-dependent manner, which was attributed to an increase in expression of FcRI on patient PMN, as shown by flow cytometry using monoclonal antibody, 32.2, specific for human FcRI. In contrast, neither the expression of FcR on the monocytes of LAD patients nor their FcR-mediated functions were different from those of controls.     

Importance of immunoglobulin isotype in therapy of experimental autoimmune encephalomyelitis with monoclonal anti-CD4 antibody

Experimental allergic encephalomyelitis (EAE) is an autoimmune disease mediated by CD4+ T cells. Prior studies have established that monoclonal anti-CD4 antibodies can reverse EAE. To determine whether immunoglobulin isotype plays a role in the therapy of EAE with anti-CD4 antibody, an isotype switch variant family of the mouse IgG1 anti-rat CD4 antibody W3/25 was isolated with the fluorescence-activated cell sorter. The IgG1, IgG2b, and IgG2a W3/25 isotype variants all had identical binding capacities for rat CD4+ T cells. Although all three W3/25 isotypes showed some beneficial effects in the amelioration of EAE, the IgG1 and IgG2a W3/25 antibodies were superior to the IgG2b W3/25 in the treatment of EAE. Multiparameter fluorescence-activated cell sorter analysis of T cell subpopulations from treated rats showed that none of the antibodies of the W3/25 isotype switch variant family substantially depleted CD4+ target cells in vivo. These experiments demonstrate that immunoglobulin isotype is important in the monoclonal antibody therapy of autoimmune disease. They indicate that therapy of EAE may be successful without a major depletion of CD4+ lymphocytes. Immunotherapy may be optimized by selecting an appropriate isotype of a monoclonal antibody.