Influence of avidity and idiotope recognition on the modulation of surface immunoglobulin on malignant human B cells by rat monoclonal anti-idiotype antibodies

Immunoglobulin (Ig) was obtained from the tumor cells of patients with B cell malignancies by somatic cell hybridization to mouse-human heteromyeloma cells. The human Ig secreted by one of these hybridomas was used as an immunogen for the production of rat monoclonal antibodies (mAb). A panel of mAb specific for the idiotype (Id) was produced and characterized. Competitive binding studies that made use of [Se]-labeled anti-Id mAb (MAID) demonstrated several distinct yet topographically related Id on the Id-bearing Ig. These antibodies were shown to have avidities ranging from 0.38 to 45.3 X 10(8) l/mol. Additional studies demonstrated varying degrees of antigenic modulation of surface Id in vitro by MAID. The degree of modulation correlates with antibody avidity.     

Idiotypic variation in a human B lymphoma cell line

The Ig Id of a B cell lymphoma serves as a distinct marker of the malignant clone and thus as a tumor-specific target for antibody therapy. Somatic variation of the Ig genes expressed by B cell tumors can lead to loss of reactivity with anti-Id antibodies and escape of tumors from the therapeutic effects of such antibodies. In our study, we have used anti-Id antibodies to screen for variants within a cell line derived from a patient with a large cell lymphoma of the B cell type. Cells were simultaneously stained on their surface for idiotypic and for isotypic Ig determinants using reagents labeled with different fluorochromes. Tumor cells expressing intact Ig molecules with alteration of their idiotypic determinants were isolated with the fluorescence activated cell sorter. Idiotypic variation was an ongoing process in vitro with Id- variants being generated at a rate of 2.7 x 10(-4)/cell per generation and Ig- cells being produced at a rate of 1.31 x 10(-5)/cell per generation. Subcloned variants expressed subtle differences in reactivity with a panel of three non-cross-blocking anti-Id antibodies. Analysis of Ig gene rearrangements by the Southern blotting technique using a JH probe established that the variants and the original tumor cells were all clonally related. Immunoprecipitation of surface labeled Ig molecules from the variant subclones disclosed major alterations of the lambda-L chains with no gross alterations of the mu-H chains. Related studies have established that the tumor cells undergo rearrangement and expression of new lambda-L chain genes.     

Monoclonal anti-Id antibodies react with varying proportions of human B lineage cells

Monoclonal antibodies to idiotypic determinants are being used with increasing frequency for analysis and treatment of B cell malignancies. In the present study we have compared the idiotypic specificities of a panel of 39 mouse monoclonal anti-idiotype (anti-Id) antibodies developed against 16 monoclonal human immunoglobulins (Ig). The Id cross-reactivities of these antibodies with Ig products of normal and abnormal B cells were examined by immunofluorescence and immunochemical methods. The reactivity patterns of these anti-Id antibodies with a normal population of plasma cells were highly variable in the immunofluorescence assay. Six were reactive with 2 to 10% of normal plasma cells, 30 with 0.1 to 2% of plasma cells, and three with less than 0.1% of plasma cells from blood, bone marrow, spleen, or tonsils. These reactivity patterns were relatively consistent among samples from 23 Caucasian, black, and Oriental adults. Although the reactivities of most anti-Id antibodies in the panel were not restricted to a particular Ig isotype, several were preferentially reactive with a particular heavy or light chain isotype: one IgM-, two IgA-, two kappa-, and three lambda-restricted antibodies. The immunofluorescence data was confirmed by biosynthetic analysis of Id+ molecules produced by a normal plasma cell population. When the reactivity of this panel of anti-Id antibodies with nonhomologous B cell neoplasms was examined, seven of 30 myelomas or leukemia-derived products and one of nine B cell leukemias or lymphomas without paraproteins were found to be cross-reactive with one or two of the anti-Id antibodies. Although clearly significant, the cross-reactivity between the Id of these paraproteins appeared to be of lower affinity than the reactivity of the homologous Id with their respective anti-Id antibodies. The results reveal a remarkable diversity in the specificities of monoclonal antibodies classified by conventional criteria as anti-Id antibodies, and indicate the potential usefulness of a panel of antibodies for analyzing clonal diversity in normal and abnormal B cell development.     

Induction of syngeneic cytotoxic T lymphocytes against a B cell tumor. II. Characterization of anti-idiotypic CTL lines and clones.

In an earlier communication we showed that idiotypic immunoglobulin (Id+ Ig) of a B cell hybrid, 2C3, can induce cytotoxic T lymphocytes (CTL) in the spleens of mice that are hyperimmunized with the irradiated tumor cells. To understand the extent of heterogeneity in the splenic CTL population, stable anti-idiotypic CTL lines and clones were established from 2C3-primed splenocytes. One representative CTL line A102 which exhibited the phenotype of CD3+, CD4-, and CD8+, has been maintained in long-term culture for more than 18 months. Cytotoxic specificity of A102 was determined by cold target inhibition assay using a panel of syngeneic and allogeneic B cell tumors. The CTL line A102 was highly cytotoxic to 2C3, only weakly to other syngeneic tumors, but not at all to allogeneic B cell tumor CH12. Furthermore, CTL-mediated cytolysis was significantly abrogated by blocking 2C3 cells with anti-idiotypic monoclonal and polyclonal antibodies. These results clearly show that 2C3 Id represents the immunodominant epitope(s) recognized by the CTL line A102. To isolate a highly Id-specific effector population, A102 was repeatedly subcloned by limiting dilution. One such clone 102.F5 exhibited considerable specificity toward Id+ 2C3 while another clone 102.E10 showed no such specificity in a competitive cytotoxicity assay. This was further confirmed by the inhibition studies with anti-Id mAb. Thus, hyperimmunization with irradiated 2C3 cells evokes a spectrum of anti-2C3 cytotoxic effector cells, of which a major population is reactive to the idiotypic determinants associated with 2C3 Ig.     

Idiotype variants emerging after anti-idiotype monoclonal antibody therapy of a murine B cell lymphoma

One of the difficulties encountered with the treatment of human B cell malignancies with anti-Id antibodies is the emergence of Id variants. The current study was designed to investigate this phenomenon further by using the murine B cell lymphoma model 38C13. Tumors were harvested that developed despite treatment with the anti-Id antibody S1C5 in mice inoculated with 38C13 cells and evaluated by immunofluorescence. Various phenotypes were found among escaping tumor cells. Some cells continued to react with S1C5 whereas others lost S1C5 reactivity. Among these latter cells, some continued to express surface IgM kappa, whereas others no longer expressed surface mu or kappa. After Id variant cell lines were established, immunofluorescence and ELISA of cell lysates from the surface IgM kappa- lines revealed persistent intracellular mu H chain but no detectable kappa. Surface IgM kappa+ lines were fused with myeloma cells and the Ig proteins secreted by the resultant hybridomas analyzed. The apparent m.w. of the mu-chains of these rescued Ig was the same as wild-type 38C13, whereas the kappa-chains were either the same or different in m.w. from the wild type. The IgM kappa of the variant line, T3C, weakly reacted with S1C5 and did not react with other anti-Id antibodies. The IgM kappa of the other variants were nonreactive with all the antibodies. Immunofluorescence of these surface Ig+ variants confirmed this finding. Some of the surface Ig+ and Ig- variant lines grew identically to wild-type tumor in vivo, but only the weakly S1C5-reactive variant T3C was inhibited in its growth by S1C5. Moreover, T3C was the only one of these lines capable of being lysed in vitro with S1C5 by antibody-dependent cellular cytotoxicity. Further studies revealed that surface Ig+ and Ig- variants emerge in escaping tumors with similar frequency and that these variants represent a major mode of tumor escape from anti-Id treatment in this model.     

Anti-idiotypic antibodies recognizing stable epitopes limit the emergence of idiotype variants in a murine B cell lymphoma.

The emergence of Id variants is a major escape mechanism from anti-Id therapy of human B cell malignancies and of the murine B cell lymphoma 38C13. To determine what impact the epitope specificity of anti-Id antibodies has on the prevention of emergence of such Id variants in the 38C13 lymphoma, anti-Id mAb of varying epitope specificity for the Id of 38C13 tumor cells were produced and studied. Some antibodies, produced by immunizing mice with both the wild-type 38C13 IgM and variant IgM, cross-reacted with wild-type 38C13 IgM and with all four members of a panel of variant IgM. These anti-Id did not react with separated 38C13 IgM H or L chains by Western blot, but did react with the cytoplasmic H chain of the surface Ig- variant cell line T2D that expresses the same H chain as wild-type 38C13 in its cytoplasm but does not express any associated L chain. In contrast, anti-Id of narrower specificity did not react with this H chain. This indicated that the broadly cross-reactive antibodies recognized a stable epitope on 38C13 H chain. When a broadly cross-reactive antibody MS11G6 was compared to S1C5, an antibody of narrower specificity, MS11G6, was superior at preventing tumor growth in mice inoculated with 38C13 cells. Moreover, no surface Ig+ variants emerged in escaping tumors in the MS11G6-treated group, whereas such variants were common in the S1C5 treated group. Both anti-Id were of equal efficacy in eliminating wild-type 38C13 cells by using 38C13 cells in tumor inoculums that had just been cloned in vitro, but MS11G6 was also capable of preventing the growth of several surface Ig+ variant cell lines in vivo. We conclude that anti-Id recognizing more stable Id determinants can limit the emergence of Id variants and therefore be more effective therapeutic agents. This finding is of additional importance as additional in vivo and immunophenotypic studies demonstrated that the generation of Id variants was an ongoing process both in cloned parental 38C13 cells and its variants.     

Human immune response to group A streptococcal carbohydrate (A-CHO). II. Antigen-independent stimulation of IgM anti-A-CHO production in purified B cells by a monoclonal anti-idiotopic antibody

The paper describes the induction by a monoclonal anti-idiotopic antibody (anti-Id mAb) of specific antibody production to group A streptococcal carbohydrate (A-CHO) in purified human B cells of several unrelated individuals. The anti-Id mAb, designated 16F498 (anti-Id498), recognizes a recurrent idiotope (Id 498) associated with the combining site of human antibodies to N-acetyl-D-glucosamine (GlcNAc), the immunodominant group of A-CHO. Id498 is expressed on IgM anti-GlcNAc antibodies but does not occur on IgG antibodies with the same specificity. It occurs also on a minor population of IgM antibodies without specificity for A-CHO. Id498 was found in 19 of 27 sera from unselected healthy donors and thus seems to be frequently expressed within the adult B cell repertoire. The in vitro induction of anti-A-CHO antibodies was analyzed in human B cells extensively depleted for T cells. Specific antibody secretion required cross-linked anti-Id which was achieved by coupling the mAb to agarose beads. No antibody secretion could be induced by soluble anti-Id (1 and 10 micrograms/ml). An optimal response required soluble T cell-derived factors which were added as a mixture of recombinant interleukin 2 with a T cell hybridoma supernatant that augments B cell growth and differentiation. Under these conditions an antigen-independent specific increase of IgM anti-A-CHO production (2.6- to 10-fold, or up to 2000 ng/ml respectively) could be induced in blood B cell populations of four of six normal individuals expressing the Id498 at serum level.     

Idiotypic and antiidiotypic T and B lymphocytes in myasthenia gravis.

The prevalence of Id and anti-Id T and B cells as measured by their reactivities with two human mAb, one antiacetylcholine receptor mAb and one anti-Id mAb, was studied in 38 patients with myasthenia gravis and in 27 healthy individuals. Id and anti-Id T cells were estimated by enumerating the numbers of cells secreting IFN-gamma in response to 10 pg/ml of the human mAb. T cell stimulation, measured as numbers of IFN-gamma-secreting cells that exceeded the mean + 2 SD of controls, was induced by the Id mAb in 78.9% of the patients and in 7.4% of the controls, whereas the anti-Id mAb-stimulated T cells in 55.3% of the patients and in 3.7% of the controls. The mean value of the Id and anti-Id-reactive T cells in the patients was 18.3/10(5) and 10.1/10(5) PBMC, respectively. B cells secreting IgM antibodies binding to the human mAb were increased in patients with myasthenia gravis compared to healthy controls. Seventy-five percent of the patients and 12% of the controls had B cells secreting IgM antibodies binding to the Id mAb, although 89% of the patients and 16% of the controls had B cells secreting IgM antibodies binding to the anti-Id mAb. The mean value of B cells secreting IgM antibodies binding to Id or anti-Id mAb in the patients were 7.4 cells/10(6) and 5.5 cells/10(6) PBMC, respectively. We conclude that Id and anti-Id T and B cells are present in myasthenia gravis. These methods allow a quantitative estimation of T and B cells with defined specificities and thus a way of mapping the repertoire of lymphocytes.     

Selection of antibody repertoires by anti-idiotypes can occur at multiple steps of B cell differentiation

These experiments were designed to evaluate whether alterations in Id expression after anti-Id treatments result from direct modulation of Id-producing B cells, and whether idiotypic selection operates in bone marrow or spleen B cells. By using the NPb Id model, we have studied the functional behavior of isolated LPS-reactive B cells transferred from B6 mice into histocompatible LPS-NR B10.Cr hosts and primed with LPS conjugates of anti-Id antibodies. We have found that previous anti-idiotypic manipulation of host mice by neonatal administration of suppressive doses of Ac 38 antibodies, or adult injection of enhancing doses of Ac 146 antibodies, modulated the T cell-independent Id response of either immature bone marrow or mature splenic responding cells, transferred from normal, untreated donors. These results are interpreted to suggest that selection of antibody repertoires by anti-Id may occur at multiple steps of B cell differentiation.     

Idiotypic intramolecular help. Induction of tumor-specific antibodies by monoclonal anti-idiotypic antibody with the help of Fc-specific T helper clones

In this study, the mechanism of anti-Id vaccination was investigated by using cloned Th cells and an anti-idiotypic mAb. 2F10, an anti-idiotypic mAb derived from an Igh1-e allotype mouse strain, which induces protection against the L1210/GZL DBA/2 tumor, was used to prime DBA/2 mice. An Fc (Igh1-e)-specific syngeneic Th clone was cocultured in the presence of 2F10 anti-Id with 2F10-Fab-primed B cells. The Th clone responded with proliferation and also provided help for 2F10-Fab-primed B cells to produce antibodies that bind to L1210/GZL and not to P815 tumor cells. Intact 2F10 anti-Id was presented to Fc-specific Th cells by Fab (or Id) primed B cells more efficiently than the fragment mixture (Fab plus Fc) of 2F10 anti-Id, indicating that 2F10-Fab (or Id)-primed B cells capture 2F10 anti-Id through surface Ig receptors. Presenting B cells are sensitive to treatment with chloroquine and must come from H-2 matched mice, indicating that the Ag presentation by Fab-primed B cells to Fc-specific Th cells requires processing and is MHC restricted. Collectively these results outline a mechanism that may operate in anti-Id therapy of tumor-bearing animals by using tumor Ag mimicking anti-idiotypic antibodies. A similar mechanism could be effective in tumor patients immunized with xenogeneic anti-idiotypic antibodies operating under the "intra(Ag) molecular help."     

Molecular characterization of anti-idiotype antibody-resistant variants of a murine B cell lymphoma

We have previously identified Id- tumor vaiants that emerge after anti-Id mAb therapy of the murine B cell lymphoma 38C13. This report characterizes the molecular basis for these variants. By using a modification of the polymerase chain reaction (PCR), mu and kappa Ig loci were sequenced from nine Id- variants derived directly by anti-Id immunoselection in vivo. Ig kappa loci sequence analysis was also performed from 10 additional variants amplified directly from tumor cells in vitro without immunoselection. We demonstrate that the molecular mechanism underlying tumor cell escape in this model is the spontaneous emergence of variants that have undergone kappa L chain gene "re-rearrangement" before positive selection by the anti-Id antibody. A second round of re-rearrangement was also demonstrated to occur within primary tumor variants. Re-rearrangement of the 38C13 tumor cell Ig kappa locus is strongly biased toward use of variable kappa genes within the conserved V kappa-Ox1 gene family, although their use is not exclusive. With the use of RNA PCR re-rearrangement was documented to occur in vitro at a frequency of approximately 1.0 x 10(-5)/cell. These findings may have important implications for the application of anti-Id antibodies as a therapeutic approach for human lymphomas and for understanding of the Ig gene rearrangement process.     

Clonal diversity in human B cell lymphoma. I. Idiotypic and genetic analysis of lymphoma heterohybrids

Secretory heterohybrid clones from seven pristine human B cell lymphomas of diverse histologic types were established to investigate the question of tumor clonal diversity. We found that in six tumors, heterohybrid-derived Ig showed similar band patterns in IEF; families of anti-Id prepared from tumor Ig reacted uniformly with individual heterohybrids and original tumor; and the V gene loci displayed little variation on Southern analysis. In one patient who was followed with serial multiple site biopsies over a 14-mo period, clonal Id was preserved until the final stage of his disease, in spite of cytotoxic treatment. In a single follicular tumor (J.M.), each of the anti-Id reacted uniformly with the parent tumor and the individual heterohybrids, except that three of six clones failed to react with a single anti-Id family member. A Southern analysis of the VH gene locus revealed an identical gene rearrangement that was shared by the parent tumor and each heterohybrid. However, there was considerable heterogeneity of J.M. heterohybrid Ig in IEF gels, and we demonstrated the production of variant lambda L chains by the heterohybrid clones. One type of lambda L chain had a normal mobility in SDS-PAGE gels but larger lambda variants were produced by four of six heterohybrids. A Southern analysis of the VL gene displayed considerable variation in the type of lambda rearrangement present in the various heterohybrids, suggesting extensive diversity at the VL gene locus. In a second tumor (S.C.) that exhibited uniform anti-Id tumor reactivity we were also able to demonstrate the presence of a second minor tumor cell population (a biclonal tumor). Our data suggest that intraclonal VH variation may vary considerably with lymphoma subtype and mutagenic exposure and that an additional mechanism for generating spontaneous intraclonal heterogeneity is genetic variation at the VL locus.     

Detection of in ovo derived idiotypic antibodies. I. A model for maternal-neonatal idiotype network studies.

Idiotypic vaccines appear to have many advantages over conventional vaccines. Maternal Id or anti-Id that are passively transferred to the fetus or neonate could provide another avenue for vaccination. Based on this premise we have investigated the transmission of idiotypic antibodies from dam to embryo by inoculating laying hens and analyzing their egg yolks for the presence of Id, anti-Id, and anti-anti-Id. The Ag chosen for these studies was BSA. After isolation and concentration BSA Id titers were approximately 256,000. The presence of anti-Id antibody in yolk samples is characterized by the ability of anti-Id to inhibit BSA binding to Id. The anti-Id extracted from yolks inhibited BSA binding to Id by 7 to 53%. Not all of the anti-Id present in samples was binding to a paratope-associated Id because 11 to 16% of the fluoresceinated anti-Id bound to Id-coated beads in the presence of excess BSA. Because a portion of the anti-Id antibodies were internal images of the BSA Id, they should be able to mimic Ag. This idea was confirmed when anti-Id inoculated in hens caused the synthesis of antibodies that would bind BSA and could be detected in an ELISA. Binding of anti-anti-Id to BSA-coated wells could be inhibited by preincubation of anti-anti-Id with BSA in solution. The chicken model provides a novel system to investigate maternal-fetal and maternal-neonatal interactions in the idiotypic network and the cellular mechanisms involved in the ontogeny of the Id network in neonates.     

Tumor idiotype vaccines. VII. Analysis and correlation of structural, idiotypic, and biologic properties of protective and nonprotective Ab2

We have previously generated and used anti-Id mAb (Ab2) to induce protective immunity against the L1210 DBA/2 tumor and for immunotherapy of established tumors. Among various anti-Id that were typed serologically as internal image Ab2 of the mouse mammary tumor virus tumor-associated Ag gp52, only one induced protective immunity and was effective in immunotherapy. In this study we compared the structural, idiotypic, and network properties of the protective and nonprotective antiidiotypic antibodies. The DNA sequence of the variable regions of six anti-Id was determined. The VH sequence of four Ab2, including the protective Ab2, are highly homologous, whereas the VL sequences differ and were assigned to different Vk families. In addition, the DH sequence region of the same four Ab2 are identical, whereas one is highly homologous and another one without homology. Search for amino acid sequence homologies between the Ab2 and gp52 showed the strongest similarities in the CDR2 of the L chain from the protective Ab2. In addition, the CDR2 region also had homology with a T cell epitope on gp52. The biologic basis of effective idiotypic mimicry was studied at the level of Ab3 induced by the Ab2. Id inhibition analysis using Ab3 induced by either protective or nonprotective Ab2, revealed differences. Thus, there is evidence for differences among the Ab1-Ab2-Ab3 cascade induced by protective and nonprotective anti-Id.     

Idiotypic analysis of anti-I-Ak monoclonal antibodies. III. T- and B-cell responses to anti-Ia idiotopes are not modulated by syngeneic anti-idiotypic monoclonal antibodies

To investigate whether anti-idiotypic (anti-Id) antibodies activate T cells either directly or indirectly, we examined the ability of syngeneic anti-Id monoclonal antibodies (mAbs) to regulate idiotype (Id) expression, antigen-binding antibody production, and T-cell reactivity to antigen. Our idiotypic system consists of an anti-I-A mAb that carries an infrequently expressed Id. Using three syngeneic anti-Id mAbs (Ab2), we previously defined the idiotype of the 11-5.2.1.9 (11-5) anti-I-Ak mAb. Two of these mAbs, IIID1 and IA2, recognize the same or closely related epitopes on 11-5 and cross react with two additional anti-I-Ak mAbs, 8B and 39J; the third anti-Id mAb, VC6, recognizes a distinct epitope shared by 11-5 and 8B. In the present study, BALB/c (H-2d) mice were primed with varying doses of these anti-Ids and were then boosted with C3H (H-2k) spleen cells. Among 130 such primed mice, the syngeneic anti-Ids when tested at priming doses between 10 ng and 10 micrograms were unable to induce Id production. The priming anti-Id mAbs persisted in the serum of the mice and were detectable as late as 40 days after priming. Ab1 expression was not modulated in BALB/c mice immunized with KLH-coupled Ab2, however, this immunization elicited the production of Ab3 which shared idiotypes with 11-5, 8B, and 39J. BALB/c anti-C3H alloreactive T-cell clones were also not induced by anti-Id priming, nor could they be shown to bind directly to the three Ab2 used. Nevertheless, the proliferative response of one anti-I-Ak specific T-cell clone that recognizes the same epitope as 11-5, 8B, and 39J, was inhibited by the IIID1 and IA2 Ab2. Thus, a T cell can express an idiotype shared by a B cell, but the linked recognition of an Id-associated carrier determinant(s) by an alloreactive T cell is required to elicit an anti-Id antibody response. These results favor the possibility that the activation of T cells is not dependent upon their ability to bind to anti-Id, but rather on their capacity to respond to epitopes of Id-anti-Id antigen-antibody complexes formed on B cells.     

Absence of Ig V region gene somatic hypermutation in advanced Burkitt's lymphoma

Somatic hypermutation of rearranged Ig V region gene plays a major role in generating antibody diversity. Recently, V mutation has been established as a major mechanism of tumor escape from anti-Id immunotherapy. We cloned and sequenced the expressed Ig H and L chain V regions from a case of B acute lymphoblastic leukemia in order to evaluate B cell stages associated with V region mutation, and to determine which tumors would be better suited to Id directed immunotherapy. A consensus VH and V lambda sequence representing tumor at diagnosis was obtained by conventional cDNA cloning in lambda gt10 from a heterohybridoma. Primers which flanked both V regions were used in a modified polymerase chain reaction to generate multiple independent sequences from tumor cells harvested at relapse. In order to exclude mutations due to infidelity of the amplification procedure, single cDNA templates of known sequence were also amplified. The polymerase chain reaction proved to be an effective procedure to obtain multiple clones, but replication in M13 was associated with a low rate of base misincorporation. The results indicate that there is no evidence for biologically significant ongoing mutation in this t(8;14) B cell tumor when comparing sequences at diagnosis and relapse. Thus, V somatic mutation may be restricted to a discrete B cell stage whose malignant counterpart is follicular lymphoma.     

Monoclonal anti-idiotype induces protection against the cytotoxicity of the trichothecene mycotoxin T-2

An IgG1 mAb, designated HD11, specific for the trichothecene mycotoxin T-2 and capable of neutralizing its cytotoxicity was used to generate a syngeneic monoclonal anti-Id antibody. The generated anti-Id mAb, designated DE8, specifically bound to HD11 anti-T-2 mAb, and not to IgG1 mAb of irrelevant specificity or to normal mouse Ig. DE8 inhibited the binding of HD11 anti-T-2 to T-2-BSA-coated plates, whereas a control anti-Id mAb did not, suggesting recognition of an Id determinant associated with the T-2 binding site of HD11. Moreover, the binding of HD11 to DE8 and that of DE8 to HD11 were specifically inhibited by free T-2 mycotoxin. DE8 mAb was efficient in abrogating the protective effect of HD11 in the cytotoxicity of T-2 on the human epidermoid carcinoma cell line Hep-2. In vivo immunization of BALB/c mice with DE8 conjugated to KLH induced an anti-T-2 antibody titer comparable to that obtained with T-2-OVA immunization, whereas immunization with unconjugated DE8 resulted in a lower titered anti-T-2 response. Immunization with DE8-keyhole limpet or with unconjugated DE8 induced anti-T-2 antibody responses characterized by expression of "HD11-like" Id and by protection against T-2 cytotoxicity. However, the T-2-OVA-induced anti-T-2 response lacked the HD11+ Id and was only partially protective against T-2 cytotoxicity. This represents the first demonstration of the use of an anti-Id based vaccine in the in vivo induction of a protective antibody response against the cytotoxicity of a nonproteinaceous, small m.w. biologic toxin, whose very toxic nature precludes its use as the immunogen.     

Linkage of foreign carrier protein to a self-tumor antigen enhances the immunogenicity of a pulsed dendritic cell vaccine

The unique Ag-presenting capabilities of dendritic cells (DCs) make them attractive vehicles for the delivery of therapeutic cancer vaccines. While tumor Ag-pulsed DC vaccination has shown promising results in a variety of murine tumor models and early clinical trials, the optimal form of tumor Ag for use in DC pulsing has not been determined. We have studied DC vaccination using alternative forms of a soluble protein tumor Ag, the tumor-specific Ig idiotype (Id) expressed by a murine B cell lymphoma. Vaccination of mice with Id-pulsed DCs was able to induce anti-Id Abs only when the Id was modified to constitute a hapten-carrier system. DCs pulsed with Id proteins modified to include foreign constant regions, foreign constant regions plus GM-CSF, or linkage to keyhole limpet hemocyanin (KLH) carrier protein were increasingly potent in their ability to elicit anti-Id Abs. Vaccination with Id-KLH-pulsed DCs induced tumor-protective immunity superior to that obtained with Id-KLH plus a chemical adjuvant, and protection was not dependent upon effector T cells. Rather, protection was associated with the induction of high titers of anti-Id Abs of the IgG2a subclass, characteristic of a Th1 response. These findings have implications for the design of therapeutic Ag-pulsed DC vaccines for cancer immunotherapy in humans.     

Anti-idiotype x anti-CD44 bispecific antibodies inhibit invasion of lymphoid organs by B cell lymphoma

The demonstration that Abs to adhesion molecules can block tumor metastasis suggested their use for therapy. However, such Abs affect nonmalignant cells as well. To circumvent this adverse effect, we proposed the use of bispecific Abs that bind simultaneously to an adhesion receptor and to a tumor-specific Ag. Such bifunctional Abs bind more avidly to tumor cells that coexpress both target Ags than to normal cells. The Id of the surface Ig of malignant B lymphocytes is a tumor-specific Ag. Therefore, we produced bispecific Abs with specificity to the adhesion molecule, CD44, and to an idiotypic determinant of the murine B cell lymphoma, 38C-13. These anti-Id x anti-CD44 bispecific Abs blocked 38C-13 cell adhesion to hyaluronic acid, while not affecting adhesion of Id-negative cells. In vivo studies demonstrated that the bispecific Abs inhibited lymphoma cell dissemination to the lymph nodes, bone marrow, and spleen, and prolonged survival of tumor-bearing mice. Migration of 38C-13 cells to the lymphoid organs was inhibited by the bispecific Abs. Thus, the bispecific Ab-mediated reduction in metastasis resulted, at least in part, from reduced homing to these organs. In contrast to anti-CD44 monospecific Abs, the anti-Id x anti-CD44 bispecific Abs did not affect immune responses such as delayed-type hypersensitivity. Hence, bispecific Abs against adhesion molecules and tumor-specific Ags may selectively block tumor metastasis in a way which may leave at least part of the immune system intact.     

Competition between antigen and anti-idiotypes for rheumatoid factors

Many idiotypic determinants on antibody molecules are thought to be located at the antigen binding site, and therefore the interaction between idiotype (Id) and anti-idiotype (anti-Id) is expected to be inhibited by the antigen. We describe two IgG and one IgM rheumatoid factors whose interactions with their respective anti-Id could only be partially inhibited by very large amounts of antigen, i.e., normal IgG. The anti-Id, however, readily inhibited the binding of their respective rheumatoid factors to IgG. The differences in interaction energies resulted in failure of antigen to readily block the Id-anti-Id interaction, and did not mean that the Id was not at the antigen combining site. The association constants for the Id-anti-Id interactions varied from 1.3 to 14.8 X 10(7) M-1, whereas the strength of the rheumatoid factor antigen bond is on the order of 10(5) M-1 for interaction with monomeric IgG. In addition, the anti-Id were able to remove rheumatoid factors that were bound to solid phase IgG, indicating that anti-Id have the potential for disrupting the immune complexes formed by antigen and antibody.