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.     

Synergistic antitumor effect of interferon and anti-idiotype monoclonal antibody in murine lymphoma

Both IFN-alpha and anti-idiotype monoclonal antibody therapy have significant antitumor activity in vivo in a murine B cell lymphoma model. Combination therapy with syngeneic anti-idiotype antibody of the IgG2a or IgG2b isotype (a single i.p. injection of 100 micrograms) and recombinant human hybrid interferon-alpha A/D (10(4) to 10(6) U three times weekly for 3 wk) synergistically increased median survival time in mice challenged with a lethal dose of tumor cells compared with the sum of the median survival times of the two individual treatments. IFN-alpha has direct antiproliferative activity against 38C13 in vitro and enhances in vitro macrophage anti-idiotype antibody-specific cytolysis for IgG2a, IgG2b, and IgG1 isotypes.     

Induction of apoptosis by monoclonal antibody anti-APO-1 class switch variants is dependent on cross-linking of APO-1 cell surface antigens.

Apoptosis, programmed cell death, was previously shown to be induced by the mAb anti-APO-1 (IgG3, kappa) by binding to the APO-1 cell surface Ag, a new member of the nerve growth factor/TNF receptor superfamily. To investigate the role of the Ig H chain Fc regions we compared induction of apoptosis by the original mAb IgG3 anti-APO-1 with anti-APO-1 F(ab')2 fragments and different anti-APO-1 isotypes (IgG1, IgG2b, IgG2a, and IgA) isolated by sequential sublining. We found that IgG3 was the most active isotype; IgG1, IgG2a, and IgA showed intermediate activity, and IgG2b and F(ab')2 were inactive. Cytotoxic activity of the inactive or less active antibody preparations was fully reconstituted by protein A, anti-mouse Ig, or anti-mouse Ig F(ab')2, respectively. Thus, APO-1-mediated induction of apoptosis was dependent on efficient cross-linking of APO-1 cell surface Ag, indirectly augmented by anti-APO-1 Fc-Fc self-aggregation. Because of their different in vitro activity we selected IgG3-, IgG2b-, and IgA anti-APO-1 to test their antitumor activity against solid human B lymphoblastoid tumors in SCID mice. The isotypes showed a different serum half-life (IgG3: 9.2-10.4 days, IgG2b: 1.9-2.6 days, and IgA: 14.1-29.2 h) and a different initial tumor localization 4 h after i.p. injection (IgG3 around the blood vessels, IgG2b homogeneously, and IgA heterogeneously distributed in the tumor). All antibody preparations induced tumor regression by induction of apoptosis, even IgG2b anti-APO-1 inactive in vitro without cross-linking. The activity of IgA anti-APO-1, which did not mediate complement-dependent cytotoxicity or antibody-dependent cellular cytotoxicity indicates that apoptosis may be used as the main if not the only mechanism of induction of tumor regression in vivo. As with in vitro, IgG3 anti-APO-1 was the most effective isotype also in vivo. This result suggests that cross-linking of APO-1 on the tumor cell surface may also be required for tumor regression by apoptosis in vivo. Taken together, our data show that selective targeting of apoptosis to tumors may be an efficient antitumor mechanism.     

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.     

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.     

Influence of antibody isotype on passive serotherapy of lymphoma

We assessed the in vivo anti-tumor effectiveness of monoclonal antibodies of different isotypes. Starting with a hybridoma cell secreting an IgG3 anti-Thy-1.1 antibody, we isolated three variant hybridoma cell lines secreting anti-Thy-1.1 antibody of the IgG1, IgG2a, and IgG2b isotypes. Each antibody displayed identical antigen binding properties, but differed in their ability to mediate in vitro lysis of Thy-1.1+ AKR/J SL2 lymphoma cells. In assays of complement dependent cytotoxicity, the relative activity of each antibody isotype was IgG2a = IgG2b greater than IgG3 greater than IgG1. In assays of antibody-dependent cell-mediated cytotoxicity when using non-immune spleen cells as effectors, the relative activities were IgG2a greater than or equal to IgG2b greater than IgG1 greater than IgG3. Infusion of equivalent amounts of each antibody (1.5 mg) in AKR/Cum (Thy-1.2+) mice inoculated subcutaneously with 3 X 10(5) AKR/J SL2 lymphoma cells resulted in significant inhibition of tumor growth only in mice treated with IgG2a antibody. However, the antibodies were cleared at different rates, with the IgG2a antibody having the slowest clearance. When antibody doses were adjusted to achieve equivalent serum levels 24 hr after infusion, all of the antibody isotypes exhibited at least some anti-tumor activity, although IgG2a antibody was again the most effective. These studies demonstrate that the difference in anti-tumor activity between antibodies of different isotypes may result from differences both in their serum clearance rate and their ability to interact with host effector mechanisms.     

Ig isotype switching in B lymphocytes. Isolation and characterization of clonal variants of the murine Ly-1+ B cell lymphoma, CH12, expressing isotypes other than IgM

We have selected and cloned variant cells from the murine B cell lymphoma, CH12, that produce a variety of other Ig isotypes in addition to or in place of the original IgM and IgD. Variants were selected by flow cytometry and automated cloning and isotype production was analyzed by membrane immunofluorescence and ELISA of culture fluids. Variants have been isolated that produce the single isotypes IgA, IgG2b, and IgG3, as well as variants that produce more than one isotype simultaneously, i.e., IgM, IgD, and IgA; IgG2b and IgA; IgG3 and IgA. All isotypes have been seen as cell surface proteins and all except IgD have been found in culture supernatants. All isotypes display the same idiotype and Ag-binding specificity for phosphatidyl choline as the original IgM and all are translated from the same VDJH and VJ kappa gene assemblies. Production of more than one isotype by a variant clone is due to simultaneous production of all the isotypes by each cell within the clone. The finding that the variants producing more than one isotype are all tetraploid suggests the interesting possibility that each isotype is derived from an independently switching chromosome. All isotype variants can be stimulated by LPS to secrete the appropriate Ig isotype at an increased rate similar to the IgM expressing parent. The variants differ in stability; some have remained stable for more than 9 months in culture, whereas other have undergone further isotype switching. The facts that some isotypes have not been seen, that multistep switching has occurred, and that many variants produce IgA in addition to another isotype are discussed in relation to current notions of isotype switching mechanisms.     

Analysis of a common inheritable idiotype in IgA-deficient sera using monoclonal antibodies

In these studies we describe the production of three mAb raised to an idiotype on an IgG anticasein antibody isolated from the serum of one IgA-deficient blood donor. These are IgM kappa and block the binding of casein Ag to anticasein antibody. Sera of unrelated IgA-deficient donors were tested for the presence of the idiotype; 15 of 56 IgA-deficient sera (25%) contain the anticasein idiotype, whereas 1 of 45 normal sera was positive. Anticasein antibodies as a whole were predominantly of the IgG1 and IgG3 subclass; idiotype-positive anticaseins are predominantly of the IgG1 subclass. For IgA-deficient donors, the relative amount of idiotype-positive anticasein antibody was correlated with the level of anticasein present in the serum. Studies were done to investigate the potential inheritance of the idiotype in families; in three of four families the idiotype was inherited in an apparent autosomal dominant pattern. Our data show that a common cross-reactive idiotype can be detected in the sera of IgA-deficient individuals and their family members. This suggests that V region markers may be conserved in this humoral immunodeficiency disease.     

Homologous chromosome recombination generating immunoglobulin allotype and isotype switch variants.

We investigated whether spontaneous isotype switching in monoclonal antibody-producing hybridomas always occurs with genes on the same chromosome. Spleen cells of (BAB/ 25 X AKR/J) F1 mice, immunized with dansyl-keyhole limpet hemocyanin (DNS-KLH), were hybridized with NS-1 to generate hybridomas producing monoclonal anti-DNS antibodies of either the b or d haplotype of the BAB/25 or AKR/J parent, respectively. We selected isotype switch variants of such hybridomas using the fluorescence-activated cell sorter (FACS). Although in most cases the allotypic haplotype expressed by the parent and switch-variant hybridomas are the same, in one family of variants we noted a switch in haplotype along with the switch in isotype. This was noted in the selection of IgG2a switch variants from an IgG1 switch variant originally derived from an IgG3-producing parent. Biochemical and molecular studies confirm that the allotype switch variant expresses the same heavy-chain variable region gene complex as its parent hybridomas. As such, the allotype switch represents an example of spontaneous mitotic recombination between immunoglobulin heavy-chain genes, generating a single actively transcribed gene from loci previously positioned on different chromosomes.     

Use of anti-idiotypic antibodies to explore genetic mechanisms of production of anti-DNA antibodies

Systemic lupus erythematosus (SLE) is characterized by the production of autoantibodies with a broad range of antigenic specificities, including specificity for double-stranded DNA. Analysis of the idiotypic profile of anti-DNA antibodies both in humans and mice has demonstrated presence of cross-reactive idiotypes, suggesting that they arise from a restricted number of germline genes. Our laboratory has previously reported the generation of 3I, a monoclonal anti-idiotypic antibody which recognizes a cross-reactive idiotype on anti-DNA antibodies in a majority of unrelated humans with SLE. We have recently studied the expression of 3I in sera of three human kindreds with familial SLE. We found 6 of 8 SLE patients and 15 of 19 unaffected family members had elevated 3I reactivity. Eleven of these family members had no anti-DNA activity despite elevated 3I reactivity, suggesting that expression of this idiotype in certain individuals is part of the normal immune response. In another set of experiments using an in vitro culture system we examined somatic mutants of the S107 mouse myeloma cell line. This line makes an antibody which bears the T15 idiotype, a common idiotype on antibodies to the bacterial antigen phosphoryl choline (PC). U4, a mutant, makes an immunoglobulin which varies by one amino acid from the parent protein, retains the T15 idiotype, but loses reactivity with PC and acquires reactivity with DNA. We have found that some anti-DNA antibodies in mice with spontaneous lupus and in mice immunologically induced to make anti-DNA antibodies bear the T15 idiotype and may represent somatic mutants arising in vivo.     

In vivo allogeneic effects: shift in the isotype profile of primary TI-2 responses in mice undergoing graft-vs-host reaction

We showed previously that primary responses to T-dependent (TD) and T-independent type 2 (TI-2) antigens were differentially affected by allogeneic effects induced in vivo during a graft-vs-host reaction (GVH). TD responses were greater than or equal to 80% suppressed, whereas the TI-2 responses were greatly enhanced, particularly the IgG component, which normally is very low. We have analyzed the IgG subclass distribution in primary responses of normal and GVH F1 mice in order to determine whether the strong T cell signals that occur during GVH reactions also induce shifts in the isotype profile. The effect of GVH on responses to TI-2 antigens was of particular interest because they are usually dominated by IgM and IgG3 classes in normal mice. We found a threefold to 10-fold increase in the PFC numbers of all four IgG subclasses in the response to TI-2 antigens, with an apparent shift from the usual IgG3 dominance to IgG1 in GVH mice. This IgG1 dominance was not found in serum antibodies where IgG3, IgG1, and IgG2b were equally expressed, although total IgG was increased greater than 20-fold. No isotype shift was found in either the TNP-KLH response, which was greater than or equal to 75% suppressed (IgG1 dominance was retained), or in the TI-1 response to TNP-Ba. The latter response was reduced (25 to 50%) in GVH mice and continued to be dominated by IgG2b/2a and IgG3. Unlike the unique isotype patterns found in primary responses, TNP-KLH primed mice challenged with TD, TI-1, or TI-2 antigens gave memory responses with identical isotype profiles that were dominated by IgG1 PFC. The role of T cells in B cell differentiation and isotype expression is discussed.     

The NZB X SWR model of lupus nephritis. I. Cross-reactive idiotypes of monoclonal anti-DNA antibodies in relation to antigenic specificity, charge, and allotype. Identification of interconnected idiotype families inherited from the normal SWR and the autoimmune NZB parents

The incidence of lupus nephritis is low in autoimmune NZB mice, but when they are crossed with normal SWR mice, almost 100% of the female F1 hybrids (SNF1) develop lethal glomerulonephritis. In a previous study we showed that anti-DNA auto-antibodies produced by the SNF1 mice were qualitatively different from those made by the NZB parents with respect to their isotype, charge, and antigenic specificity patterns. Here we studied idiotypic cross-reactions among the 65 monoclonal anti-DNA antibodies that were derived from four NZB and seven SNF1 mice. A library of 15 anti-idiotypic antibodies were prepared by immunizing rabbits with 15 monoclonal anti-DNA antibodies selected from the panel of 65. We identified 10 cross-reactive idiotype (CRI) families among this large collection of autoantibodies. Five of these CRI families were restricted to cationic anti-DNA antibodies that were exclusively of SNF1 origin, and the strongly cross-reacting members were predominantly IgG2b auto-antibodies with the allotype of the normal SWR parent. The cationic anti-DNA CRI families could be grouped into an interrelated cluster called the Id564 cluster. The other five anti-DNA CRI families were not restricted to any particular parental allotype or charge, although two of these CRI were shared exclusively by SNF1-derived autoantibodies and four of these CRI families could also be grouped into an idiotypically interrelated cluster called the Id512 cluster. In the case of seven out of the 10 CRI families, the idiotypic determinants detected were close to the antigen-binding site of the anti-DNA antibodies. The results indicate that the idiotypic repertoire of anti-DNA autoantibodies produced by the SNF1 mice is different from the NZB parents, and potentially pathogenic (cationic) antibodies produced by the SNF1 mice that are encoded by genes from the normal SWR parent can be identified as distinct CRI families. In the accompanying paper we demonstrate the role of these anti-DNA CRI families in the development of lupus nephritis.     

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.     

Immunohistochemistry in human placental tissue--pitfalls of antigen detection.

Because incongruous controversial staining results are a common phenomenon in the placenta, methodical investigations are important to prevent researchers from obtaining misleading results. While investigating dendritic cells (DC) at the human fetomaternal interface, we observed staining of endothelial cells (EC) in chorionic villi for CD83. Given the high specificity of this antigen for DC, this did not seem credible. Previous studies had revealed the same surprising staining pattern with human leukocyte antigen (HLA)-G antibodies. We therefore analyzed human placental EC staining more closely. Both CD83 and HLA-G antibodies were of the same mouse IgG2b isotype. We also observed EC staining with a panel of control antibodies of the IgG2b isotype. This suggests a high affinity of human placental capillaries for mouse IgG2b. Several commonly used techniques for blocking nonspecific binding of antibodies could not prevent this nonspecific EC staining. A new preincubation step with purified human IgG was introduced. This abolished any placental EC staining with CD83, HLA-G, and IgG2b isotype control antibodies, presumably by blocking Fc receptors, whereas specific staining patterns remained unchanged. Mouse antibody of the IgG2b isotype are bound nonspecifically by vascular endothelial cells in human placenta and this can be overcome by blocking with purified human IgG. This blocking procedure could also be appropriate for frozen tissues other than placenta in which Fc receptors are expressed.     

Isotype-dependent inhibition of tumor growth in vivo by monoclonal antibodies to death receptor 4

To explore an approach for death receptor targeting in cancer, we developed murine mAbs to human death receptor 4 (DR4). The mAb 4H6 (IgG1) competed with Apo2L/TNF-related apoptosis-inducing ligand (DR4's ligand) for binding to DR4, whereas mAb 4G7 (IgG2a) did not. In vitro, both mAbs showed minimal intrinsic apoptosis-inducing activity, but each triggered potent apoptosis upon cross-linking. In a colon tumor nude mouse model in vivo, mAb 4H6 treatment without addition of exogenous linkers induced apoptosis in tumor cells and caused complete tumor regression, whereas mAb 4G7 partially inhibited tumor growth. An IgG2a isotype switch variant of mAb 4H6 was much less effective in vivo than the parent IgG1-4H6, despite similar binding affinities to DR4. The same conclusion was obtained by comparing other IgG1 and IgG2 mAbs to DR4 for their anti-tumor activities in vivo. Thus, the isotype of anti-DR4 mAb may be more important than DR4 binding affinity for tumor elimination in vivo. Anti-DR4 mAbs of the IgG1 isotype may provide a useful tool for investigating the therapeutic potential of death receptor targeting in cancer.     

Human large granular lymphocytes express high affinity receptors for murine monoclonal antibodies of the IgG3 subclass

We have evaluated the ability of murine monoclonal antibodies to mediate antibody-dependent cell-mediated cytotoxicity (ADCC) by human lymphoid cells. Purified large granular lymphocytes (LGL) and interleukin 2-dependent cloned LGL lines having a CD2+/CD16+/CD3- phenotype were tested as effector cells in an ADCC assay by using a family of IgG isotype switch variant anti-Thy-1.1 antibodies against 51Cr-labeled Thy-1.1+ murine SL2 thymoma target cells, a system in which human cells have no spontaneous cytotoxicity. Cytotoxicity was greatest when using the IgG3, followed in rank order by the IgG2a and IgG2b. No cytotoxicity was observed with the IgG1 antibody. Because the antigen-binding regions of the antibodies are identical, the differences in cytotoxicity directly reflect the relative affinity of LGL Fc receptors for each antibody isotype.     

Use of monoclonal antibodies to analyse the expression of a multi-tubulin family

We have used a panel of monoclonal antibodies in a study of the expression of multiple tubulins in Physarum polycephalum. Three anti-beta-tubulin monoclonal antibodies, DM1B, DM3B3 and KMX-1 all reacted with the beta 1-tubulin isotypes expressed in both myxamoebae and plasmodia. However, these antibodies showed a spectrum of reduced reactivity with the plasmodial beta 2-tubulin isotype - the competence of recognition of this isotype was graded DM1B greater than KMX-1 greater than DM3B3. The anti-alpha-tubulin monoclonal antibody, YOL 1/34 defined the full complement of Physarum alpha-tubulin isotypes, whilst the anti-alpha-tubulin monoclonal antibody, KMP-1 showed a remarkably high degree of isotype specificity. KMP-1 recognises all of the myxamoebal alpha 1-tubulin isotypes but only recognises 3 out of the 4 alpha 1-tubulin isotypes expressed in the plasmodium (which normally focus in the same 2D gel spot). KMP-1 does not recognise the plasmodial specific alpha 2-tubulin isotype. This monoclonal antibody reveals a new level of complexity amongst the tubulin isotypes expressed in Physarum and suggests that monoclonal antibodies are valuable probes for individual members of multi-tubulin families.     

Mapping the idiotopes of a monoclonal anti-myoglobin antibody with syngeneic monoclonal anti-idiotypic antibodies: detection of a common idiotope

A panel of syngeneic monoclonal anti-idiotypic antibodies was prepared by immunizing A.SW mice with keyhole limpet hemocyanin-coupled A.SW monoclonal anti-myoglobin (HAL 19, IgG1) and screening the cloned hybridomas for production of IgG2 binding to idiotype but not to certain other anti-myoglobin antibodies of the same subclass in an ELISA. With these antibodies, we identified three nonoverlapping idiotopes, based on three clusters of monoclonal anti-idiotopes that mutually inhibit within each cluster, but not between clusters (Cluster I: S2, S6, S8; Cluster II: S5, S7; Cluster III: S9). Only Cluster II antibodies block the binding of myoglobin to HAL 19 and so identify a binding site-related idiotope(s). Binding of both Cluster II monoclonals (S5 and S7) to Hal 19 is inhibited by a rabbit anti-idiotype that we previously reported detects a common cross-reactive anti-myoglobin idiotope in immune sera. However, only one of these, S7, and not S5, identifies an idiotope that is present on 20 to 30% of A.SW anti-myoglobin antibodies in immune sera and ascites. The panel of syngeneic monoclonal anti-idiotype antibodies also detects new idiotopes not detected by the rabbit anti-idiotype. The development of a panel of syngeneic monoclonal anti-idiotypic antibodies to different clusters of idiotopes on the same antibody molecule, including one that identifies a major common idiotope in immune sera, should allow the analysis of possible idiotype network regulation in vivo and in vitro in a completely syngeneic system.     

In vivo immunosuppression by pan-T cell antibodies relates to their isotype and to their C1q uptake

There is considerable interest in the use of monoclonal anti-T cell antibodies for immunosuppression during organ transplantation. However, the in vitro cytotoxic titers of these monoclonal reagents do not correlate with their immunosuppressive potency when injected in vivo. A relationship nevertheless seems to exist between immunosuppression and the isotype of anti-mouse Thy-1 antibodies, because among several anti-Thy-1 antibodies of mouse and rat origin, the only two found to cause immunosuppression in vivo belonged to the rat IgG2b and mouse IgG2a isotype. We show here that a quantitative positive correlation exists between an antibody-induced humoral effector mechanism and immunosuppression. We measured the uptake of the C1q complement subunit by polyclonal rabbit and rat anti-thymocyte globulin and also seven monoclonal anti-Thy-1 antibodies in an immunohistochemical assay or a radioimmunoassay. Immunosuppression was studied in a murine graft-vs-host and skin allograft model. Our results suggest strongly that a stable association between the C1 protein and a potential binding antibody is an essential prerequisite of antibody-dependent cell inhibition in vivo that suppresses the immunoresponse against strongly incompatible transplantation antigens.