The idiotypic characterization of the immune response to a defined epitope of a protein antigen and the specific in vivo suppression of the immune response to this epitope by anti-idiotypic antibodies

C10, a monoclonal antibody of C3H.SW (CSW) origin, binds a decapeptide epitope of the tobacco mosaic virus protein (TMVP) representing residues 103-112 of the protein. In vivo administration of syngeneic anti-idiotypic antibodies to C10 (anti-C10) prior to immunization with TMVP suppressed the expression of antibodies to this decapeptide determinant in CSW mice without a significant reduction of the total anti-TMVP titer. The suppression could not be overcome with repeated challenges by antigen even 6 months after administration of anti-C10. Analysis of anti-C10 showed that it contains antibodies to at least two idiotopes found on C10. One of these idiotopes, C10-Idm, is found on a very small fraction of CSW anti-TMVP antibodies capable of binding the decapeptide epitope. The other idiotope, C10-IdX, is found on most of the anti-TMVP antibodies which bind the decapeptide determinant. With synthetic analogues of the decapeptide determinant, a correlation was established between the presence of the C10-IdX and the fine specificity of the decapeptide-binding antibodies. The studies reported herein demonstrate that anti-idiotypic antibodies are potent modulators of the immune response and that the C10-IdX is important in the determination of the fine specificity of antibodies to this decapeptide epitope of TMVP.     

Studies on the suppression of the immune response to a defined protein epitope by anti-idiotypic antibodies

We have previously reported that C3H.SW (CSW) and A/J mice immunized with the tobacco mosaic virus protein (TMVP) produce antibodies to a decapeptide epitope corresponding to amino acid residues 103-112 of the protein. In the C3H.SW (CSW) strain, the antibodies to the decapeptide contain major crossreactive idiotope, C10-IdX, which is found on a CSW-derived monoclonal antidecapeptide antibody, designated as C10. The in vivo administration of anti-C10 antibodies suppresses the response to the decapeptide epitope in CSW mice. The present communication describes experiments designed to elucidate several parameters responsible for the suppression produced by the in vivo administration of anti-C10. It was found that 50 micrograms of anti-C10 was required to suppress the response to the decapeptide in CSW mice when 2 weeks elapsed between administration of the anti-C10 and immunization with TMVP; however, only 10 ng was required when one injection of antigen instead of two was administered and when the interval between treatment with anti-C10 and immunization was extended to 6 weeks. This suggests that the anti-C10 induces alterations in the idiotypic network which are not yet fully developed after 2 weeks. Furthermore, experiments presented herein demonstrate that decapeptide-binding antibodies from A/J mice, which lack the C10-IdX, were also suppressed by pretreatment with anti-C10. Interestingly, unlike the case with the CSW strain, the titer to TMVP was decreased by the administration of anti-C10 to A/J mice which were subsequently immunized with TMVP. These findings suggest that the polyclonal anti-C10 contains antibodies to an idiotype which is a major component of the overall anti-TMVP response of A/J mice and may be important in the overall regulation of the anti-TMVP response.     

The antibody response to a single antigenic determinant of the tobacco mosaic virus protein (TMVP): effects of allotype-linked genes and restricted heterogeneity of the response

The antibody response to a decapeptide antigenic determinant representing residues 103 to 112 of the tobacco mosaic virus protein (TMVP) was studied with the synthetic decapeptide and a panel of its synthetic analogues. The anti-decapeptide response was found to be of restricted heterogeneity and was regulated by heavy chain allotype-linked (V region) genes on at least two levels. One level was whether or not a significant antibody response was made to the decapeptide determinant. Thus, strains with the Igh haplotypes j, o, e, and n were high responders, whereas strains with haplotype Ighb were low responders. The second level of V region gene control was with regard to the fine specificity of the anti-decapeptide antibodies produced. Using the peptide panel to analyze fine specificity, we define two new V region genetic markers, VH-TMVPj and VH-TMVPe.     

Functional heterogeneity of memory B lymphocytes: in vivo analysis of TD-primed B cells responsive to secondary stimulation with TD and TI antigens

The functional heterogeneity of memory B cells induced by a single determinant, consisting of a decapeptide representing amino acid residues 103-112 of tobacco mosaic virus protein (TMVP), was analyzed. Decapeptide specific antibodies were elicited in mice adoptively transferred with TMVP-immune spleen cells when challenged with TMVP, decapeptide conjugated to succinylated human gamma-globulin (SHGG), or decapeptide conjugated to Brucella abortus (BA). Whereas secondary stimulation by either TMVP or decapeptide-SHGG was dependent on appropriately primed T cells, stimulation by decapeptide-BA was independent of conventional T cell help. Furthermore, memory B cells responsive to TMVP (TD), decapeptide-SHGG (TD), or decapeptide-BA (TI. 1 prototype) were shown to consist of overlapping populations because adoptive recipients of TMVP-primed cells challenged simultaneously with TD and TI decapeptide antigens did not result in a higher antibody response than that elicited by one of the TD antigens injected alone. However, decapeptide-BA consistently induced a smaller antidecapeptide response than either TMVP or decapeptide-SHGG. This suggested that only a fraction of the memory B cell population which was activated by the original priming antigen (thymus-dependent) was also responsive to secondary in vivo stimulation by the priming hapten conjugated to Brucella abortus. Detailed analyses of the antibodies induced in the recipients of TMVP-immune spleen cells after secondary challenge with either TMVP, decapeptide-SHGG, or decapeptide-BA failed to distinguish between the responsive memory B cells; the antidecapeptide antibodies induced by all three immunogens shared the same fine specificities and immunoglobulin isotype composition. These data are viewed as further evidence that subsets of TD-primed B cells, which may display differential sensitivity to cross-stimulation with TD and TI forms of the antigen, represent distinct stages of memory B cell maturation within a common B cell lineage. In support of this conclusion, we establish a developmental relationship between TI and/or TD responsive decapeptide memory B cell in the following communication.     

Two stages of b cell memory development expressing differential sensitivity to stimulation with thymus-dependent and thymus-independent antigenic forms

We have shown that spleen cells specifically primed to the decapeptide determinant (a.a. 103-112) of the thymus-dependent (TD) antigen, tobacco mosaic virus protein (TMVP), can be secondarily stimulated to antibody synthesis by either TD or TI forms of the decapeptide. Further, TD- and TI-responsive memory B cells consisted of overlapping populations which were indistinguishable by the specificity and isotype composition of the antibodies which they synthesized. In the present study, two functionally distinct but developmentally related memory B cell subsets were identified by their differential sensitivity to repeated in vivo stimulation with various combinations of TD and TI decapeptide antigens. One subset of memory B cells responded only to TMVP or decapeptide conjugated to succinylated human gamma-globulin (SHGG) with a strict requirement for carrier-primed theta-positive cells. Secondary challenge with these two TD antigens elicited antidecapeptide antibodies and specific memory regeneration. This TD-responsive memory B cell subset contained the precursors of a second memory B cell subset which was activated by decapeptide-Brucella abortus (TI.1 prototype), as well as by TMVP or decapeptide-SHGG. Stimulation of the second memory B cell subpopulation by decapeptide-BA (previously shown not to be dependent on conventional T cell help) was typified by differentiation into antibody-forming cells without significant memory regeneration.     

Diverse VH and VL genes are used to produce antibodies against a defined protein epitope

mAb secreting hybridomas were produced from mice hyperimmune to the model Ag tobacco mosaic virus protein. Six mAb were selected for their ability to bind synthetic peptides corresponding to amino acid residues 103-112 and 97-107 of tobacco mosaic virus protein. These mAb were analyzed for their fine specificity by measuring binding to synthetic analogs of the decapeptide, and cDNA sequences encoding the mAb V regions were determined. These analyses revealed that a wide range of different V regions are capable of binding with the same decapeptide epitope, and that these antibody sequence differences generally coincided with different binding fine specificities. This diverse antibody response with specificity for the same epitope demonstrates both the breadth of potential of the immune system and the lack of exclusivity in specific protein:protein interactions.     

Immunization with antigen bound to bispecific antibody induces antibody that is restricted in epitope specificity and contains antiidiotype.

Mice can be efficiently immunized in the absence of adjuvant using chemically cross-linked bispecific antibody (biAb) that bind to both class II MHC molecules and a protein Ag of interest. In our experiments, mice were immunized with the protein Ag hen egg lysozyme (HEL) bound to several different biAb, each of which contained a different mAb specific for a distinct (nonoverlapping) epitope of HEL. Primary and secondary serum antibody responses of the immunized mice were analyzed for their specificity for different epitopes of HEL. The results show that immunization with each HEL-biAb complex produced a bias in the epitope specificity of the primary antibody response. This bias was determined by the individual specificity of the anti-HEL mAb used in each biAb. The primary response was dominated by antibody reacting with epitopes distinct from that bound by the mAb in the immunizing complex, and was deficient in antibody that recognized the epitope bound by the biAb during immunization. This bias in antibody specificity was maintained during the secondary antibody response that followed a single challenge with soluble HEL alone. However, an additional challenge with HEL induced a switch in the specificity pattern, with increased amounts of antibody against the epitope that was previously ignored. In addition, immunization with Ag bound to biAb resulted in a substantial primary anti-Id response, detected by serum antibody specific only for the Fab'2 fragment of the mAb used in the biAb. These studies illustrate two unique features of immunization using biAb that allow for fine manipulation of the epitope specificity and anti-Id repertoires of the antibody response to whole protein Ag.     

Biological Mimicry of the Bluetongue Virus Core Protein VP7 by Rabbit Anti-Idiotype

A subpopulation of rabbit polyclonal anti-idiotypic antibody (anti-Id) was previously produced to a murine monoclonal antibody (mAb) (M1875) specific for the bluetongue virus core protein VP7. In this report, mimicry of VP7 by this anti-Id (designated RAb2-A) was functionally analyzed through immunization of Balb/c mice with RAb2-A or purified VP7. Animals immunized with RAb2-A were able to produce an M1875-like Ab3 antibody response with idiotype and epitope specificity resembling that of M1875 without subsequent exposure to the nominal antigen. This conclusion was supported by experiments showing that the RAb2-A-induced Ab3 antibodies (i) reacted specifically with the immunizing anti-Id; (ii) were capable of binding VP7; (iii) inhibited M1875 from binding to VP7; and (iv) inhibited M1875 from binding to RAb2-A. Similarly, mice immunized with purified VP7 also produced antibodies that exhibited characteristics such as idiotype and epitope specificity in common with M1875. No antibody response to VP7 was detected in control groups of mice immunized with either normal rabbit IgG or BHK-21 cell components. Therefore, it can be concluded that rabbit anti-Id RAb2-A mimics an M1875-defined VP7 epitope sufficiently to function as a surrogate antigen for inducing an anti-bluetongue virus response.     

In vivo-induced suppression of T cell proliferation: the relationship between the specificity of induction and control

We have previously shown that sc immunization of C57BL/10 (H-2b) mice with the tobacco mosaic virus protein (TMVP) or with its tryptic peptide number 8, representing residues 93-112 of TMVP, induces T cells which proliferate in vitro in response to TMVP and to peptide 8. In contrast, immunization of B10.BR (H-2k) mice either with TMVP or with peptide 8 induces T cells which respond in vitro to the homologous but not the heterologous Ag. In the present article , we report that in the B10.BR (H-2k) strain, ip prepriming with (TMVP) 7 days prior to sc immunization with peptide 8 causes a drastic reduction in the in vitro proliferative response of peptide 8-specific T cells while no such effect is seen in the congenic C57BL/10 (H-2b) strain. This suppression of T cell responsiveness can be transferred with TMVP-primed spleen cells. Moreover, deleting T cells from the transferred spleen cells abrogates the suppressive effect. In both H-2 haplotypes, ip prepriming with peptide 8 causes suppression of the proliferative T cell response induced by subsequent immunization with peptide 8. This prepriming has no effect on the response to TMVP immunization of B10.BR mice but does effect the response of C57BL/10 mice. Using various synthetic peptides to analyze the specificity of the suppression, we have determined that (1) T cells involved in the suppression of the proliferative T cell response to a single peptide determinant do not suppress the proliferative T cell response to other determinants on the protein antigen and (2) these T cells with suppressor function, and proliferating T cells which are ultimately regulated, can exhibit specificity for the same epitope. These studies suggest that there may exist fundamental differences as to how T cells which participate in suppression an proliferating T cells (which include mainly T helper cells) recognize protein antigens.     

Structural aspects of a protein epitope and their role in the major histocompatibility complex control of T cell responsiveness.

We have previously shown that immunization of C57BL/10 (H-2b) mice with the tobacco mosaic virus protein (TMVP) or with its tryptic peptide number 8, representing residues 93-112 of TMVP, induces T cells which proliferate in vitro in response to TMVP and peptide 8. In contrast, immunization of congenic B10.BR (H-2k) mice with either TMVP or with peptide 8 induces T cells which respond in vitro to the homologous but not the heterologous antigen. The capacity to exhibit cross-reactivity between TMVP and peptide 8 on the T cell level has been shown to be under major histocompatibility complex (MHC)-linked genetic control. The lack of cross-reactivity has been attributed to the inability of the H-2k APC to present the appropriate epitope to T cells. In the present paper, we report results of a comparative analysis of the role of structural aspects of the epitope on the proliferative T cell responses from TMVP and peptide 8-immune C57BL/10 (H-2b) and B10.BR (H-2k) mice. Utilizing a panel of synthetic peptides representing portions of peptide 8 and a panel of peptide-protein conjugates, we have determined that peptide 8-immune T cells of the H-2k strain appear to recognize a single epitope within peptide 8, located at its N-terminus. In contrast, in the H-2b strain, both TMVP and peptide 8-immune T cells appear to recognize two overlapping epitopes within peptide 8; one located in the middle region and the other toward the N-terminus. Experiments with H-2b T cells revealed that random amino acids added to the carboxyl or amino-terminus of nonstimulatory peptides can confer activity to these peptides, demonstrating limited specificity of interaction between antigen and Iab. Results of experiments dealing with fixation of antigen-presenting cells suggest that TMVP requires processing in order to be recognized by peptide 8-immune H-2b proliferative T cells whereas peptide 8 does not. Taken together the results suggest that the T cell responsiveness to TMVP and peptide 8 exhibited by these two congenic strains H-2b and H-2k is not only controlled by the strains MHC but is also influenced by antigen processing. Antigen processing may eliminate a potential epitope for the primary induction and the secondary stimulation of B10.BR T cells.     

Antibody response against a possible arthritogenic epitope on human type II collagen induced by anti-idiotypic antibody

We reported the presence of three distinct epitopes commonly present on murine and human type II collagen (CII), observed using mAb. To investigate the possible involvement of these epitopes in collagen-induced arthritis, we raised rabbit anti-idiotypic antibodies that may bear the internal image of these epitopes. Anti-idiotypic antibodies developed against three anti-CII mAb designated as 1-5, 2-14, and 2-15 were demonstrated to recognize idiotype expressed on Ag-binding site (paratope) of their related mAb. Anti-CII antibody response specific for a given epitope could be induced in DBA/1J mice upon immunization with anti-idiotypic antibodies coupled to keyhole limpet hemocyanin. Anti-idiotypic antibody to 1-5 antibody in particular could stimulate all DBA/1J mice for production of anti-CII antibody possessing Ag specificity and idiotype similar to those of 1-5 antibody. Although the mice immunized with anti-1-5 antibody alone did not develop arthritis, they did show a much more enhanced antibody response against a given epitope than did control mice non-treated with anti-idiotypic antibody upon the subsequent immunization with human CII. Some of the mice immunized with anti-1-5 antibody and challenged with human CII developed arthritis, whereas the control mice did not. These findings strongly suggest that a common epitope recognized by 1-5 antibody might be involved in the induction of arthritis.     

Clonal analysis of the primary and secondary B cell responses of neonatal, adult, and xid mice to (T,G)-A--L

The splenic focus assay was used to clone B cells from neonatal, adult and xid mice in order to examine their primary and secondary responses to (T,G)-A--L. Adult precursor cell frequencies to (T,G)-A--L were achieved late in neonatal ontogeny. Primary xid B cells responded to DNP-HY but not to (T,G)-A--L in the splenic focus assay. The frequency of secondary B cells from (T,G)-A--L-primed xid mice was less than or equal to 10% that of secondary B cells from wild-type (non-xid or X/Xxid heterozygous) mice. Although xid B cells were poorly responsive to (T,G)-A--L in the splenic focus assay, (T,G)-A--L-primed xid mice could provide help as recipients for stimulation of wild-type primary and secondary B cells. It seems likely that the B2 subset contributes most of the splenic focus response to (T,G)-A--L. The fine specificities of antibodies produced by neonatal, xid, and adult (wild-type) B cell clones were analyzed using analogues of (T,G)-A--L. A specificity shift was observed between the adult primary and secondary antibody responses to (T,G)-A--L. Less than 10% of adult primary clones produced antibodies cross-reactive on (Phe,G)-A--L (recognizing A--L determinants or Phe,Glu determinants), whereas more than 70% of primary clones produced Tyr,Glu side-chain specific antibodies cross-reactive on GT. The percentage of clones producing GT-binding antibodies diminished in the secondary response, while the percentage of clones producing antibodies cross-reacting on (Phe,G)-A--L increased. Neonatal clones also produced mostly GT-binding antibodies but gave a higher percentage of (Phe,G)-A--L-cross-reacting antibodies than adult primary clones. The specificities of secondary antibodies produced by xid and wild-type B cell clones were dissimilar. First, xid secondary clones were "primary-like" in that no anti-A--L antibodies were detected. Second, clones whose antibodies bound side-chain determinants but not GT were produced in higher frequency by xid than by wild-type secondary B cells. The differential responsiveness of B cell subsets to antigen and regulatory signals may influence memory B cell generation and the specificity of antibodies produced in the primary vs secondary response.     

Broad epitope coverage of a human in vitro antibody library

Successful discovery of therapeutic antibodies hinges on the identification of appropriate affinity binders targeting a diversity of molecular epitopes presented by the antigen. Antibody campaigns that yield such broad “epitope coverage” increase the likelihood of identifying candidates with the desired biological functions. Accordingly, epitope binning assays are employed in the early discovery stages to partition antibodies into epitope families or “bins” and prioritize leads for further characterization and optimization. The collaborative program described here, which used hen egg white lysozyme (HEL) as a model antigen, combined 3 key capabilities: 1) access to a diverse panel of antibodies selected from a human in vitro antibody library; 2) application of state-of-the-art high-throughput epitope binning; and 3) analysis and interpretation of the epitope binning data with reference to an exhaustive set of published antibody:HEL co-crystal structures. Binning experiments on a large merged panel of antibodies containing clones from the library and the literature revealed that the inferred epitopes for the library clones overlapped with, and extended beyond, the known structural epitopes. Our analysis revealed that nearly the entire solvent-exposed surface of HEL is antigenic, as has been proposed for protein antigens in general. The data further demonstrated that synthetic antibody repertoires provide as wide epitope coverage as those obtained from animal immunizations. The work highlights molecular insights contributed by increasingly higher-throughput binning methods and their broad utility to guide the discovery of therapeutic antibodies representing a diverse set of functional epitopes.     

Determinant selection in murine experimental autoimmune myasthenia gravis. Effect of the bm12 mutation on T cell recognition of acetylcholine receptor epitopes.

C57BL/6 (B6) mice respond to immunization with acetylcholine receptor (AChR) from Torpedo californica as measured by T cell proliferation, antibody production, and the development of muscle weakness resembling human myasthenia gravis. The congenic strain B6.C-H-2bm12 (bm12), which differs from B6 by three amino acid substitutions in the beta-chain of the MHC class II molecule I-A, develops a T cell proliferative response but does not produce antibody or develop muscle weakness. By examining the fine specificity of the B6 and bm12 T cell responses to AChR by using T cell clones and synthetic AChR peptides, we found key differences between the two strains in T cell epitope recognition. B6 T cells responded predominantly to the peptide representing alpha-subunit residues 146-162; this response was cross-reactive at the clonal level to peptide 111-126. Based on the sequence homology between these peptides and the T cell response to a set of truncated peptides, the major B6 T cell epitope was determined to be residues 148-152. The cross-reactivity of peptides 146-162 and 111-126 could also be demonstrated in vivo. Immunization of B6 mice with either peptide primed for T cell responses to both peptides. In contrast, immunization of bm12 mice with peptide 111-126 primed for an anti-peptide response, which did not cross-react with 146-162. Peptide-reactive T cells were not elicited after immunization of bm12 mice with 146-162. These results define a major T cell fine specificity in experimental autoimmune myasthenia gravis-susceptible B6 mice to be directed at alpha-subunit residues 148-152. T cells from disease-resistant bm12 mice fail to recognize this epitope but do recognize other portions of AChR. We postulate that alpha-148-152 is a disease-related epitope in murine experimental autoimmune myasthenia gravis. In this informative strain combination, MHC class II-associated determinant selection, rather than Ag responsiveness per se, may play a major role in determining disease susceptibility.     

Establishment and characterization of monoclonal antibody against androgen receptor

Hybrid cell lines were prepared by the fusion of BALB/c myeloma NS-1 cells with the lymphocytes of BALB/c mice that were immunized with partially purified androgen receptor (AR) from human prostates. Nine clones of the hybrid progeny were determined for the production of antibodies against AR by immunoprecipitation assay. One of the clones, referred to as "5F4", was chosen for analysis of the detailed specificity. The clone "5F4" secreted IgM class antibodies against AR. Competition study demonstrated that "5F4" antibody inhibited androgen binding of AR, suggesting that the antibody identifies androgen binding site of AR. Immunoblotting analysis showed that the antibody identified the ARs as two proteins, 95 kD and 41 kD proteins, on a sodium dodecyl sulfate polyacrylamide gel. It is suspected that a 95 kD protein should be a monomeric AR and a 41 kD protein is a proteolytic fragment of AR. Immunohistochemical analysis demonstrated that androgen-dependent tissues--human prostatic hypertrophy tissues, an AR abundant prostatic cancer tissue and fibroblast cells from human genital skin--were stained intensely with "5F4" monoclonal antibody, while androgen-independent tissues--fibroblast cells from lymph nodes, an AR deficient prostatic cancer tissue and human prostatic cancer cell line, PC-3--showed no staining. These results also support the specificity of the antibody for AR.     

Parallel Immunizations of Rabbits Using the Same Antigen Yield Antibodies with Similar,but Not Identical,Epitopes

A problem for the generation of polyclonal antibodies is the potential difficulties for obtaining a renewable resource due to batch-to-batch variations when the same antigen is immunized into several separate animals. Here, we have investigated this issue by determining the epitopes of antibodies generated from parallel immunizations of rabbits with recombinant antigens corresponding to ten human protein targets. The epitopes were mapped by both a suspension bead array approach using overlapping synthetic 15-mer peptides and a bacterial display approach using expression of random fragments of the antigen on the surface of bacteria. Both methods determined antibody binding with the aid of fluorescent-based analysis. In addition, one polyclonal antibody was fractionated by peptide-specific affinity capture for in-depth comparison of epitopes. The results show that the same antigen immunized in several rabbits yields polyclonal antibodies with similar epitopes, but with larger differences in the relative amounts of antibodies to the different epitopes. In some cases, unique epitopes were observed for one of the immunizations. The results suggest that polyclonal antibodies generated by repeated immunizations do not display an identical epitope pattern, although many of the epitopes are similar.     

Perturbation of the idiotypic network. I. Induction with multiple alloantigen stimulation

The effect of hyperimmunization on the immune network with allostimulated syngeneic lymphocytes responding to different haplotypes was analyzed. Ten different haplotypes were used to stimulate syngeneic donor mice. Control mice were multiply immunized with incomplete Freund's adjuvant alone or with syngeneic mixed lymphocyte culture-generated lymphocytes. BALB/c mice were immunized consecutively with alloreactive blasts or allogeneically stimulated spleen cells at 10-day intervals. After a rest period of 2 months, the ratio of T helpers to T suppressors was determined by immunofluorescent staining. The functional network was probed by immunizing the mice with phosphorylcholine (PC) coupled to hemocyanin. The sera were analyzed for anti-PC antibodies and TEPC15 (T15) idiotypic expression. The results demonstrated (i) a decrease in the level of anti-PC antibody titer and T15 idiotypic expression; (ii) a decrease in the number of T helper cells and an increase in the number of T suppressor cells; (iii) a loss of PC epitope specificity; (iv) an increase of IgM antibodies expressing T15 without anti-PC specificity; and (v) an elevated level of preimmune lymphocyte proliferation and Ig secretion. These results reveal a functional network linkage in the regulation of alloreactivity and antigen response and show how repeated exposure to alloantigens can induce a perturbation of the idiotypic network controlling the response of a non-alloantigen-related BALB/c strain dominant idiotype (T15).     

Development and characterization of monoclonal antibodies to Ebola virus glycoprotein

Balb/С mice were immunized with recombinant Ebola virus glycoprotein. Following the selection, screening, and cloning of murine hybridomas, we obtained five genetically stable clones of monoclonal antibodies GPE118 (IgG), GPE274 (IgM), GPE325 (IgM), GPE463 (IgM), and GPE534 (IgG). These antibodies were isolated and purified from the ascitic fluid of Balb/С mice using Protein G affinity chromatography (for IgG) and euglobulin precipitation (for IgM). To select at least three candidate antibodies for testing in biological assays as components of an antibody cocktail for the prophylaxis and treatment of hemorrhagic fever, we carried out an immunochemical analysis of the epitope specificity of the isolated antibodies. Based on the data of immunoblotting and sandwich ELISA, it became evident that the epitope recognized by GPE 534 differs from the epitopes recognized by the monoclonal antibodies GPE 118 and GPE 325. The last two antibodies also have different epitope specificity: it follows from the immunoblotting data and from the data on the binding of these antibodies with the intact and oxidized (partly deglycosylated) recombinant glycoprotein. For the biological activity studies and the development of recombinant counterparts, we selected three candidate high-affinity monoclonal antibodies GPE 534, GPE 118, and GPE 325.     

A contraceptive peptide vaccine targeting sulfated glycoprotein ZP2 of the mouse zona pellucida

In this study, we have mapped and characterized a B cell epitope of sulfated glycoprotein ZP2 (ZP2) as a step toward the development of a multi-epitope zona pellucida (ZP) vaccine. Recombinant polypeptides expressed by random deoxyribonuclease-digested fragments of ZP2 cDNA were screened for binding to IE-3, a monoclonal antibody to murine ZP2. Positive clones contained cDNA inserts encoding polypeptide corresponding to ZP2(103-134). When normal or ovariectomized female mice were immunized with three overlapping peptides that span this region of ZP2 (101-120, 111-130, 121-140), only ZP2(121-140) elicited IgG antibodies that reacted with mouse ovarian ZP, indicative of the presence of native B epitope and helper T cell epitope in ZP2(121-140). To more finely map the ZP2 B cell epitope, a random peptide display library was screened with the IE-3 antibody, and a consensus tetramer sequence VxYK that matched the ZP2(123-126) sequence VRYK was located. Competitive immunofluorescence analysis with single alanine-substituted VxYK peptides ranked the relative contribution of the three critical B cell epitope residues as Y > V > K. A chimeric peptide was constructed that contained the YRYK motif of ZP2 and a bovine RNase T cell epitope. Although (C57BL/6xA/J) F1 (B6AF1) female mice immunized with the chimeric peptide developed ZP antibody response, this peptide elicited antibody only in mice of the histocompatibility complex (MHC) H-2(k or b) haplotype. In contrast, ZP2(121-140) peptide elicited antibody in inbred mice with three additional mouse MHC haplotypes. Moreover, although ZP2(121-140) contained a T cell epitope, no oophoritis was observed after immunization of B6AF1 mice with ZP2(121-140) in complete Freund's adjuvant (CFA). In a preliminary trial, female B6AF1 mice immunized with ZP2(121-140) in CFA had reduced litter sizes as compared with mice injected with CFA alone.     

Idiotype network components are involved in the murine immune response to simian virus 40 large tumor antigen

Summary Baculovirus-derived recombinant simian virus 40 (SV40) large tumor antigen (SV40 T-Ag), a monoclonal antibody specific for SV40 T-Ag (Ab-1 preparation), and a monoclonal anti-idiotypic antibody (anti-Id), designated 58D, were used to analyze the humoral immune response of Balb/c mice either immunized with recombinant SV40 T-Ag or challenged with SV40-transformed cells. Inhibition assays indicated that antibodies from mice immunized with SV40 T-Ag and from those bearing SV40 tumor inhibited the SV40 T-Ag/Ab-1 reaction. These data suggested that the antibody response in immunized or tumorchallenged mice recognized similar epitope(s) on SV40 T-Ag to that detected by the monoclonal Ab-1. These anti-(SV40 T-Ag) response antibodies also inhibited the Ab-1/anti-Id reaction and recognized the anti-Id in direct binding assays. Together, these data indicate that murine anti-(SV40 T-Ag) responses shared an idiotope with a monoclonal anti-(SV40 T-Ag) Ab-1 preparation. This idiotope, which is recognized by the monoclonal anti-Id preparation, 58D, appears to be involved in the humoral immune response to SV40 T-Ag in both SV40-T-Ag-immunized and tumor-bearing mice. The monoclonal anti-Id preparation may represent a focal point for manipulating the humoral immune response to tumors induced by SV40-transformed cells.