Induction of allergen-specific IgE and IgG responses by anti-idiotypic antibodies

In order to explore idiotypic, anti-idiotypic, and anti-anti-idiotypic responses to allergens, BALB/c mice were immunized with affinity-purified human idiotypic antibodies directed against a highly purified shrimp allergen. This resulted in the production of anti-idiotypic antibodies which were quantitated by using rabbit idiotypic antibodies raised against the same purified allergen. The mouse anti-idiotypic antibodies recognized shrimp-specific human idiotypic antibodies of the IgE isotype from 18 of 20 individuals, and IgG antibodies from 14 of 20 shrimp-sensitive patients. Immunization of BALB/c mice with affinity-purified, allergen-specific anti-idiotypic antibodies induced anti-allergen IgE and IgG responses in the absence of the allergen. This paper thus presents evidence that anti-idiotypic antibodies raised against allergen-specific idiotypic antibodies may substitute for the original allergen in the induction of allergen-specific idiotypic antibodies. The demonstration of shared idiotopes on IgG and IgE antibodies in the sera of shrimp-sensitive patients supports the use of allergen-specific anti-idiotypic antibodies as surrogate allergens.     

Nucleotide sequence analysis of the V regions of two IgM cold agglutinins. Evidence that the VH4-21 gene segment is responsible for the major cross-reactive idiotype.

Cold agglutinins are human autoantibodies, usually of the IgM class, which agglutinate RBC at low temperature. The major subset recognizes the I/i carbohydrate Ag, and many of these antibodies bear cross-reacting idiotypic determinants. An anti-idiotypic mAb that is specific for one of the idiotopes largely confined to cold agglutinins has been used to identify and monitor tumor cells that secrete these molecules in two patients. The tumor cells were immortalized with EBV and the idiotope-positive lines used to investigate the utilization of the VH and VL genes by these antibodies. Nucleotide sequence analysis of the two cold agglutinins (FS-1 and FS-2) revealed the utilization of a single common gene segment, VH4-21. Serologic analysis documented that only human antibodies utilizing the VH4-21 gene segment were reactive in the idiotope assay, other VHIV antibodies as well as a panel of antibodies derived from other VH families being negative. The DH, JH, VK, and JK gene segments of FS-1 and FS-2 were structurally distinct. These data suggest that the structural basis for the cross-reactive idiotope as well as cold agglutinin activity is the VH4-21 gene segment. A nucleotide change in H chain CDR1 of both cold agglutinins results in the substitution of an aspartic acid residue for glycine at position 31, suggesting that this amino acid might be critical to recognition of the red cell Ag.     

Idiotypic determinants of monoclonal antibodies that bind to 3-fucosyllactosamine

Many monoclonal antibodies that react with the lacto-N-fucopentaose III (LNF III) antigenic determinant, Gal beta 1-4(Fuc alpha 1-3)GlcNAc beta 1-3Gal beta 1-4Glc, have been described recently. The terminal trisaccharide of this determinant, fucosyllactosamine, is present on glycolipids and glycoproteins and on the surface of granulocytes, monocytes, and other cells. To study the structural and genetic diversity of these antibodies, syngeneic anti-idiotypic monoclonal antibodies were produced in BALB/c mice against PMN 6, a monoclonal antibody directed against this sequence. Anti-idiotypic antibodies 6B1 and 6C4 reacted with 50% of a panel of 20 anti-LNF III monoclonal antibodies, whereas 6A3 reacted strongly only with PMN 6. This indicates that the determinants recognized by 6C4 and 6B1 represent major cross-reactive idiotopes of this family of antibodies. The binding of idiotypic antibodies to a glycolipid bearing this antigenic determinant was completely inhibited by the three anti-idiotypic antibodies, 6A3, 6B1, and 6C4. The idiotopes could be demonstrated on the heavy chain of the monoclonal antibodies by an antibody transfer technique when mild reducing conditions were employed, but a high concentration of reducing agent destroyed the idiotypic determinants. This suggests that the anti-idiotypic antibodies recognize conformational structures expressed on the heavy chain molecules. The binding of 18 monoclonal antibodies to two glycolipid antigens and to a fucosyllactosamine-bovine serum albumin conjugate was compared. Antibodies that possessed the 6C4 cross-reactive idiotope bound to fucosyllactosamine-bovine serum albumin more weakly than idiotype-negative antibodies (p = 0.001). This suggests that the 6C4-positive antibodies might represent germline structures.     

Characterization of syngeneic antiidiotypic monoclonal antibodies to murine anti-human high molecular weight melanoma-associated antigen monoclonal antibodies

Hybridization with murine myeloma cells P3-X63-Ag8.653 of splenocytes from BALB/c mice immunized with syngeneic anti-human high molecular weight melanoma-associated Ag (HMW-MAA) mAb 149.53, 225.28, 763.74, and TP41.2 has resulted in the formation of antiidiotypic antibody-secreting hybridomas with a frequency ranging between 1.2% and 5.2%. No marked difference was detected in the frequency of antibody secreting hybridomas in the fusions generated from mice immunized with the four anti-HMW-MAA mAb, suggesting that the idiotopes expressed by each of them display similar immunogenicity in a syngeneic combination. The number of antiidiotypic mAb that did not inhibit the binding of immunizing mAb to melanoma cells was higher than that of those that died, suggesting that idiotopes not associated with the Ag-combining site are more immunogenic than those that are. The idiotopes recognized by mAb were not detected on a large panel of anti-HLA Class I mAb, anti-HLA Class II mAb, and anti-human melanoma-associated Ag mAb. The latter included also mAb that cross-inhibit the immunizing anti-HMW-MAA mAb. The idiotopes recognized by mAb were not detected on the isolated H and L chain of the immunizing anti-HMW-MAA mAb. Cross-blocking experiments with a selected number of antiidiotypic mAb identified three distinct idiotopes on mAb 149.53, 225.28, and TP41.2 and two on mAb 763.74. Three, 5, 2, and 5 antiidiotypic mAb to idiotopes within the Ag-combining site of mAb 149.53, 225.28, 763.74, and TP41.2, respectively, were tested for their ability to induce anti-HMW-MAA antibodies. Serological and immunochemical assays detected anti-HMW-MAA antibodies only in sera from BALB/c mice immunized with mAb MK2-23. Therefore, mAb MK2-23 can be classified as beta, while the remaining 14 can be classified as gamma.     

VH-related idiotopes detected by site-directed mutagenesis. A study induced by the failure to find CD4 anti-idiotypic antibodies mimicking the cellular receptor of HIV.

The function of the CD4 cell surface protein as coreceptor on T helper lymphocytes and as receptor for HIV makes this glycoprotein a prime target for an immune intervention with mAb. A detailed understanding of the structural determinants on the therapeutic CD4 mAb that are involved in Ag binding or are recognized by anti-idiotypic mAb (anti-Id) may be important for designing antibodies with optimal therapeutic efficacy. Seven anti-Id raised against the CD4 mAb M-T310 were selected from a large panel with the intention to obtain CD4 mimicking structures with specificity for HIV gp120. The selected anti-Id did not react with other CD4-specific mAb cross-blocking M-T310. Among these, mAb M-T404, although having the same L chain as M-T310 and a VH region sequence differing only at 14 amino acid positions, was not recognized by the anti-Id. M-T310 H chain complexed with the J558L L chain reacted with all anti-Id, thus demonstrating that the recognized idiotopes are located within the VH region. To identify the idiotopes of M-T310 seen by the anti-Id, variants of M-T404 containing one or more of the M-T310-derived substitutions were generated by oligonucleotide-directed mutagenesis. The reactivity pattern of the mutant proteins with the anti-Id demonstrated that the idiotopes reside within the complementarity determining region (CDR) 2 and CDR3 loops of the VH region. A major idiotope was defined by a single amino acid in CDR2 that was recognized by three anti-Id, whereas the four other anti-Id reacted with determinants of CDR3. Although the performed amino acid substitutions did influence the Id recognition, Ag binding was not significantly affected, suggesting that none of the anti-Id can be considered as a mimicry of the CD4 Ag.     

Human monoclonal anti-idiotypic antibodies. I. Establishment of immortalized cell lines from a tumor patient treated with mouse monoclonal antibodies

Patients who undergo immunotherapy with a murine anti-colon carcinoma mAb (mAb17-1A) generate high titers of anti-idiotype and anti-isotype antibodies. Specifically selected anti-idiotypic antibodies that elicit in vivo a humoral and a cellular immune response against the nominal Ag can be used as surrogate Ag for immunization. We established from the B lymphocytes of a treated patient a series of EBV-transformed cell lines. Three weeks after immortalization, the cells were selected for production of antibodies (Ab2) against the Fab fragment of the murine mAb17-1A. The selected cells were cloned and screened by ELISA for specific anti-mAb17-1A idiotypic antibodies. Thirty-six out of 89 clones were anti-idiotypes. Cell culture supernatants and the purified Ig derived from 10 clones completely inhibited the specific binding of radiolabeled mAb17-1A to HT-29 colon carcinoma cells thus resembling Ab2-gamma anti-idiotypes. These cell lines which grow now in culture for 18 mo, continuously secrete IgG,K anti-Ab1-idiotype mAb. Human anti-idiotypic mAb might be candidates for vaccines when the nominal Ag itself is not available or cannot be used as such.     

Fine specificity and idiotype diversity of a murine anti-HLA-DQw3 monoclonal antibody elicited with a syngeneic antiidiotypic monoclonal antibody

A total of 469 hybridomas was generated from a BALB/c mouse immunized with the syngeneic antiidiotypic mAb KO3-34 that recognizes an idiotope within the Ag-combining site of the immunizing syngeneic anti HLA-DQw3 mAb KS13. One of the hybridomas, named S2B154, was shown with a number of serologic and immunochemical assays to mimic the specificity of anti HLA-DQw3 mAb KS13. This result was unexpected, because the antiidiotypic mAb had been classified as gamma because of the lack of detection of anti-HLA-DQw3 antibodies in sera from BALB/c mice immunized with the antiidiotypic mAb KO3-34. The antiidiotypic mAb S2B154, an IgG1, displays a lower affinity constant to HLA-DQw3 Ag-bearing lymphoid cells than mAb KS13, an IgG2b, but a higher one to antiidiotypic mAb KO3-34. Testing with a panel of antiidiotypic mAb elicited with the mAb KS13 showed that both antiidiotypic mAb S2B154 and mAb KS13 express in their Ag-combining site the idiotopes recognized by the antiidiotypic mAb KO3-256, KO3-335, and R1-38. However, the antiidiotypic mAb S2B154 does not react with the mAb R18-9 that recognizes an idiotope outside the Ag-combining site of mAb KS13. The results we have presented question the validity of the classification of antiidiotypic antibodies based on their ability to inhibit the binding of the corresponding antibodies to Ag and on the specificity of antisera elicited with antiidiotypic antibodies. Furthermore, the hybridomas we have developed in this Id cascade provide us the opportunity to analyze the structural basis of idiotypic Ag mimicry and to evaluate the regulatory properties of antiidiotypic antibodies in the immune response to HLA class II Ag.     

Idiotypic analysis of polyclonal and monoclonal anti-p-azophenylarsonate antibodies of BALB/c mice expressing the major cross-reactive idiotype of the A/J strain

The idiotypic cascade allows the induction of silent idiotypes, and as such, the immune system can be reprogrammed towards predetermined goals. To understand the genetic origin of silent idiotypes, we have used a system in which detailed structural and genetic information is available. The major cross-reactive idiotype (CRIA) of A/J mice (positive strain) immunized with arsonate coupled to a carrier can be regularly induced in BALB/c mice (negative strain) by anti-idiotypic treatment with or without subsequent antigen immunization. By using a panel of monoclonal anti-idiotypic antibodies, we have found that the germline-encoded CRIA displays a mosaic of at least five idiotopes. Polyclonal and monoclonal anti-arsonate antibodies prepared from idiotypically manipulated BALB/c mice have been studied. Four germline idiotopes are shared between the CRIA of the A/J strain and the CRIA-like idiotype induced in BALB/c mice. Furthermore, CRIA-like antibodies can appear "spontaneously" in some BALB/c mice immunized with antigen only. The data suggest that anti-idiotypic treatment in BALB/c mice selects a preexisting subset of antibodies. From the serological analysis, it is predicted that CRIA molecules from A/J and CRIA-like molecules from BALB/c employ different VH subgroups but share some components of the hypervariable regions. These predictions are tested in a forthcoming paper that describes the amino acid sequences of BALB/c monoclonal antibodies displaying the major cross-reactive idiotype of the A/J strain.     

The occurrence of anti-3-fucosyllactosamine antibodies and their cross-reactive idiotopes in preimmune and immune mouse sera

The carbohydrate determinant 3-fucosyllactosamine (3-FL), Gal(beta 1-4)[Fuc alpha 1-3]GlcNAc-R, which is also known as SSEA-1 or as the X determinant, is very immunogenic in BALB/c mice. Many monoclonal antibodies directed against this structure have been obtained by immunization of mice with murine teratocarcinomas and human carcinomas and myeloid cells. We have undertaken an analysis of the regulation of these antibodies and of their idiotypic, structural, and genetic diversity. We have described previously the preparation of syngeneic monoclonal anti-idiotypic antibodies (6C4 and 6B1) that reacted with 50% of a panel of monoclonal anti-3-FL antibodies. In this study, we have examined the occurrence of anti-3-FL antibodies and their cross-reactive idiotopes in the sera of unimmunized and immunized mice. All BALB/c sera examined had more naturally occurring antibodies against 3-FL than against four other glycolipid antigens, and the 6C4 and 6B1 idiotopes were also detected in these sera. Approximately 25% of the anti-3-FL antibodies could be removed from a pool of BALB/c sera by a 6C4 affinity column, and the eluate from this column exhibited strong binding to 3-FL antigens. After a single i.v. injection of a 3-FL-positive glycolipid coated on Salmonella minnesota, anti-3-FL titers rose in BALB/c mice. The level of 6B1 idiotope rose in most mice, but the idiotope level showed no correlation with anti-3-FL titers. Naturally occurring antibodies against 3-FL were also noted in the sera of AKR, C3H/He, DBA/2, BALB/c-nu/nu, and CBA/CaHN mice but not in C57BL/6, SM, or CBA/N mice. A single i.v. injection of antigen elicited an antibody response in C3H/He mice but not in C57BL/6, SM, or DBA/2 mice. These data indicate that several strains of mice have more naturally occurring IgM antibodies against the 3-FL structure than against other glycolipids, and that this response may be genetically regulated. The 6C4 and 6B1 cross-reactive idiotopes that we have identified previously on monoclonal antibodies are also present in preimmune and immune sera. The existence of a population of B lymphocytes that are primed against the 3-FL determinant accounts in part for the immunogenicity of this structure.     

Characterization of syngeneic rat monoclonal antibodies to the HSN tumor using syngeneic monoclonal anti-idiotopic antibodies

Twelve syngeneic anti-idiotopic mAb (anti-idiotypic/idiotopic antibodies Ab2)) were prepared from CBH/Cbi rats immunized with one of three monoclonal anti-HSN antibodies (Ab1) (11/160, ALN/11/53, or ALN/16/53) specific for the HSN tumor. The sera of the rats used for hybridoma production and all of the monoclonal Ab2 specifically inhibited the binding to HSN of the immunizing Ab1 only. It is concluded that, in this completely syngeneic system, only the private idiotopes associated with the antibody-combining site were immunogenic. Analyses using Western blotting showed that the Ab2 bound to intact Ab1 and to isolated H chains where the intra-strand disulfide bonds remained intact. The Ab2 did not bind to L chains or to fully reduced H chains of the Ab1. It is concluded that the idiotopes expressed on the H chain were conformational. When a panel of 13 monoclonal Ab1 (including the three used for immunization) were tested for reactivity with the Ab2, three reacted specifically with their respective Ab2 and 8 gave no binding suggesting that each Ab1 had a distinct idiotypic specificity despite the fact that all the Ab1 competed with each other for binding to Ag. However, the two remaining Ab1 (ALN/9/94 and ALN/12/17) generated from different tumor-bearing rats, were found to possess the same idiotypic specificity as 11/160. A detailed analysis using seven Ab2 raised against 11/160 showed that while the idiotype of ALN/9/94 and 11/160 were very similar, that of ALN/12/17 showed some clear differences. These three Ab1 have been shown previously to bind a sequential epitope on the HSN Ag in Western blots and it is postulated that the common idiotype of these Ab1 reflects their recognition of a sequential epitope. This may also account for the relatively frequent occurrence in tumor bearer sera of antibodies with this Id.     

Allogeneic manipulation of the GAT idiotypic cascade. Immunization of C57BL/6 mice by BALB/c anti-idiotypes stimulates similar strain-specific V genes as the original antigen

Antibodies specific for the immunizing Ag (Ab1) (Id+ Ag+) and Ab3 (Id+ Ag+ or Id+ Ag-) of the (Glu60 Tyr10 Ala30) (GAT) idiotypic cascade express similar pGAT public determinants in BALB/c and C57BL/6 strains. These determinants have been shown to be dependent upon both VH and Vkappa encoded segments. The VH of the BALB/c Ab1 (germ-line gene H10) and that of the C57BL/6 Ab1 (germ-line gene V186-2) are only 75% homologous, whereas VK are much more conserved. C57BL/6 mice were immunized with BALB/c Ab2 (anti-idiotypic) antibodies and monoclonal Ab3 were derived after fusion of immunized spleen cells with the nonsecreting hybridoma cell line Sp/2.0-Ag. From 13 cell lines, five clones (four Id+ Ag- and one Id+ Ag+) were isolated and the mRNA V regions sequenced. Immunization with BALB/c anti-idiotypes elicits expression of the same or closely related C57BL/6 VH and Vkappa genes as when C57BL/6 mice were immunized with GAT, although functional VH BALB/c equivalents have been isolated in the B6 strain. Our results suggest that manipulation of the repertoire via antigenic or idiotypic stimulation both lead to the expression of different genes in different strains. They further confirm that the immune system is largely degenerate, for both idiotype expression and Ag recognition.     

Immunotherapy of murine sarcomas with auto-anti-idiotypic monoclonal antibodies which bind to tumor-specific T cells

Hybridomas producing monoclonal antibodies (mAb) were obtained from BALB/c mice immunized against either of two transplanted, chemically induced syngeneic sarcomas, MCA-1490 or MCA-1511. Two mAb, 4.72 and 5.96, were obtained, one from each immunization. They were found to have apparent anti-idiotypic specificity in that they, when injected s.c., primed naive BALB/c mice for delayed-type hypersensitivity that was specific for the immunizing tumor and required homology at genes linked to the Igh-1 allotype locus. Neither mAb bound tumor antigen. When mice with established transplants of MCA-1490 or MCA-1511 were treated by repeated i.p. injections of the appropriate anti-idiotypic mAb (4.72 and 5.96, respectively), a significant reduction in tumor growth was observed in those mice that had received the appropriate mAb. The idiotope defined by mAb 4.72 was expressed by T cells in mice responding to MCA-1490. mAb 4.72 bound to T cell suppressor factors that were specific for MCA-1490 and were derived from T cell hybridomas or sera of mice bearing MCA-1490. mAb 4.72 also bound to cells from lymph nodes draining the area of a growing MCA-1490 tumor. It was used, in combination with cell sorting, to establish a T cell line, which mediated delayed-type hypersensitivity to MCA-1490 and inhibited the outgrowth of MCA-1490 in BALB/c mice. Thus, mAb specific for idiotopes on T cells responding to syngeneic tumor antigen had both direct immunotherapeutic activity and could be used to establish cultures of tumor-reactive T cells.     

Monoclonal anti-idiotypic and anti-anti-idiotypic antibodies from mice immunized with a protective monoclonal antibody against Schistosoma mansoni

To study the role of idiotypic anti-idiotypic interactions in schistosomiasis, mice were immunized with a mAb, E.1, which bound to soluble egg and larval stage Ag and also passively transferred resistance to cercarial challenge in mice. Subsequently, hybridomas were produced from E.1 immunized mice and tested for the ability to inhibit E.1 binding to soluble egg Ag. The results showed that anti-idiotypic mAb (Ab2) were produced. The range of inhibitory activity was from 33 to 100%. By using a direct Ab2 binding assay, the Ab2 were shown to be idiotypic specific, not isotype specific. It was also found that six of the hybridomas bound to soluble egg Ag and were therefore anti-anti-idiotypic antibodies (Ab3). Ab3 were shown to be inhibited from binding to soluble egg Ag by Ab2. To the authors' knowledge, this is the first time that an in vivo network relevant to an infectious organism has been reproduced in vitro such that both Ab2 and Ab3 were produced from the same animals independent of exposure to parasite Ag.     

Induction of the immune response to Legionella pneumophila cytolysin by monoclonal anti-idiotypic antibodies

A panel of mAb (IgG1, IgG3, IgM) against Legionella pneumophila cytolysin (CL)-protease of 37 kDa was obtained. Subtyping of L. pneumophila strains of serogroup 1 by using mAb against CL (mAb-CL) was carried out. The results of comparative analysis of the specificity of mAb-CL and the panel of mAb kindly provided by Dr. J. M. Barbaree (Centers for Disease Control, Atlanta, GA) allowed us to recommend mAb-CL to be used as a diagnostic tool to reveal the pathogenicity of L. pneumophila strains of serogroup 1. Hybridomas were also raised in a syngenic system which produced anti-idiotypic mAb (mAb2) against anti-CL mAb B6/1. The Ab2 belonged to Ab2 gamma type: 1) Ab2 reacted with B6/1 Id only, 2) Ab2 inhibited the interaction of B6/1 Ab1 with CL, and 3) CL inhibited the reaction of Ab2 with Ab1. The use of Ab2 allowed us to show that B6/1 Id is expressed in 4 to 32% of serum antibodies during the primary and secondary immune responses of BALB/c mice to CL. Ab2 induced the production of anti-anti-idiotypic antibodies (Ab3) in BALB/c mice, and some of them reacted with CL. Thus, we have demonstrated the possibility of inducing an antibody response to CL (one of the main L. pneumophila pathogenic factors) in intact syngenic mice with anti-idiotypic antibodies.     

Activation of a functional idiotype network response by monoclonal antibody specific for a virus (M-MuLV)-induced tumor antigen

BALB/c mice were injected with IgM mAb specific for Moloney murine leukemia virus (M-MuLV)-determined cell surface Ag in an attempt to inhibit Moloney sarcoma growth. The monoclonal IgM significantly inhibited sarcoma growth when given to the mice after inoculation with Moloney murine sarcoma/leukemia virus, and also potentiated the in vivo antibody response specific for M-MuLV Ag. These responses were significantly greater than the primary response to the virus alone in age- and sex-matched control mice, and were also seen in mice which were injected with the IgM antibody only and not with virus, suggesting that an Ag-independent mechanism may be involved. The M-MuLV-specific serum antibody responses induced by the monoclonal IgM, with or without prior virus inoculation, were predominantly of the IgG1 isotype, with some IgG2a; no other isotypes were found to have titers significantly higher than in the normal response to virus alone. M-MuLV-specific IgG1 was detected only in mice injected with monoclonal IgM, and not in the response to virus alone. The same sera also had high titers of anti-idiotypic antibodies, (Ab2), as well as anti-anti-idiotypic antibodies (Ab3). It appears, therefore, that passive immunization with M-MuLV-specific IgM mAb activates an idiotypic network, which results in both Ab2 and Ab3 responses; the M-MuLV-specific response may be considered a subset of Ab3.     

Induction of effective immunity to Moloney murine sarcoma virus using monoclonal anti-idiotypic antibody as immunogen

We have isolated an anti-idiotypic mAb (RS1.1.3), which recognizes an idiotope present on several IgM mAb specific for Moloney murine leukemia virus (M-MuLV)-determined cell surface Ag. The binding of RS1.1.3 to idiotypic antibody could be inhibited by specific Ag. Intraperitoneal immunization of mice with purified RS1.1.3 antibody-induced effective immunity against Moloney murine sarcoma virus challenge. A single injection of RS1.1.3 7 days before virus challenge resulted in a 27% reduction in tumor load compared to non-immune control mice challenged with the same dose of virus, whereas multiple injections of RS1.1.3 before virus challenge resulted in a 75% reduction in tumor load. The protective effect of anti-idiotype immunization appeared to be T dependent, because immunization of athymic mice had no effect on their susceptibility to tumor virus challenge. Administration of the anti-idiotypic antibody after virus inoculation caused an increase in tumor load of nearly 50% compared to non-immune controls. BALB/c mice immunized with RS1.1.3 developed anti-anti-idiotypic antibodies, as well as M-MuLV Ag-specific antibodies. Analysis of sera from RS1.1.3-immune mice subsequently challenged with Moloney murine sarcoma virus indicated an inverse relationship between tumor load and M-MuLV-specific serum IgG titers induced by the RS1.1.3 immunization. These results indicate that anti-idiotypic mAb may be used as immunogen to induce Ag-specific antibody responses, and to cause effective immunity to a retro-virus-induced tumor.     

VH and VL gene usage by murine IgG antibodies that bind autologous insulin

To assess the recognition structures of antibodies that bind a self-Ag, we used mRNA analysis to identify the V region genes of IgG antibodies that bind autologous insulin. Four anti-insulin mAb from primary immunization of BALB/c mice use different combinations of H and L chain V region genes. Two VH genes are from the V-gam 3-2 and V-gam 3-8 families that are infrequently expressed in adult BALB/c mice, and two VH genes are members of the J558 family. Each anti-insulin antibody uses a different Vk gene family. Two antibodies express common Vk genes (Ox1 and Vk21C), whereas two other Vk genes are unusual in BALB/c mice. One Vk gene may represent a BALB/c equivalent of the VkOx2 subfamily and another is identical to a Vk used by anti-idiotypic antibodies from C57Bl/6 mice. When compared with known germ-line counterparts, all of the Vk sequences are close to germ-line configuration. In contrast, the germ-line counterparts for the anti-insulin VH genes are not known, however, they differ only in five to seven predicted amino acids from VH of other expressed antibodies. One antibody (mAb 123) differs in one amino acid in complementarity-determining regions 1 and 2 from the VH of the murine tumor BCL1, and another (mAb 126) employs an unmutated DFL16.1 germ-line D segment. These data suggest that antibodies binding autologous insulin use V gene components that are not extensively mutated, even when derived by immunization with heterologous insulin.     

Induction of cellular immunity by anti-idiotypic antibodies mimicking GD2 ganglioside

Gangliosides are potentially useful targets for tumor destruction by antibodies. However, the role of gangliosides in T cell-mediated immunity to tumors is unclear. We produced three murine monoclonal anti-idiotypic antibodies (Ab2) against a monoclonal antibody (Ab1) that binds strongly to melanoma-associated GD2 ganglioside and weakly to GD3 ganglioside. All three Ab2 induced anti-anti-idiotypic antibodies (Ab3) with Ab1-like binding specificity to tumor cells and antigen in rabbits. The Ab3 specifically bound to GD2(+) tumor cells and isolated GD2, and shared idiotopes with the Ab1. Two of the three Ab2 induced GD2-specific delayed-type hypersensitivity responses in BALB/c and C57BL/6 mice, but not in C57BL/6/CD4(-/-) mice. Peripheral blood mononuclear cells (PBMC) from a melanoma patient proliferated specifically in response to in vitro stimulation with Ab2. Proliferation was accompanied by Th1-type cytokine production. Our studies demonstrate the induction of ganglioside-specific T cell-dependent immunity by Ab2 in mice. These T cells showed specific reactivity to ganglioside expressed by tumor cells.     

Study of idiotopic suppression induced by anti-cross-reactive idiotype monoclonal antibody in the anti-p-azophenylarsonate antibody response

A/J mice immunized with p-azophenylarsonate coupled to keyhole limpet hemocyanin produce antibodies expressing a cross-reactive idiotype (CRIA). The pretreatment of A/J mice with anti-idiotypic polyclonal or monoclonal antibody directed against the major cross-reactive idiotype (CRIA) borne by p-azophenylarsonate-specific antibody can lead to idiotypic suppression. In this study, we investigate this idiotypic suppression by using four mAb2 (E4, H8, E3, 2D3) recognizing distinct idiotopes whose expression is related to the presence of particular gene segments of the heavy chain V region. 2D3 expression has been related to the presence of some amino acid in the CDR2 region of the VH gene segment derived from the germ line VH IdCR11. So far, the latter is the only germ-line gene coding for CRIA+ antibody that has been identified in the A/J genome. E4 and H8 expression has been related to the use of a particular D segment, whereas E3 expression has been attributed to certain combinations of D and JH segments. Therefore, we might expect independent regulation of the expression of those various idiotopes in relation to the mechanism of gene recombination. Indeed, we observed that 2D3-suppressed A/J mice still produce the three other idiotopes, suggesting the recombination of those particular D and J segments with a different VH gene. Such a gene has been identified in the genome of BALB/c mice. A/J mice pretreated with one of the other three mAb2 are generally cosuppressed for the expression of E4, H8, and E3, but they still produce 2D3+ antibody. In this case, the IdCR11 VH germ-line gene is most probably recombined with different D and J segments. Molecular evidence for the existence of such molecules has also been presented in the literature. So our serologic data on idiotopic suppression in the arsonate system can be compared with recent data provided by molecular genetics.     

The immune response towards beta-adrenergic ligands and their receptors. VI. Idiotypy of monoclonal anti-alprenolol antibodies

Four murine monoclonal antibodies specific for alprenolol, a synthetic beta-adrenergic ligand, with different binding properties towards alprenolol and other beta-adrenergic antagonists and agonists (as described in a previous report) were used to induce anti-idiotypic responses in rabbits and mice. Three of the rabbit anti-idiotypes inhibited, and one increased the binding of tritiated dihydroalprenolol to the Ab1 against which they were induced. The syngeneic mouse anti-idiotypes all had an inhibitory effect on the ligand binding to their corresponding Ab1. Cross-reactivity tests of the xenogeneic and syngeneic anti-idiotypes were positive only for two monoclonal anti-alprenolol antibodies. Cross-reaction could be shown neither on a panel of 15 other monoclonals, nor on polyclonal anti-alprenolol antibodies of the BALB/c and the C57BL/10 mice. These results suggest that the immune response against alprenolol results in antibodies with mostly private idiotypic determinants. Moreover, the properties of the anti-idiotypic response against the same monoclonal antibody seem to be different according to the species used for anti-idiotypic induction.