A monoclonal antigen-binding T cell immunoprotein: antigenic relatedness to T cell receptor beta chain FR1 V and J peptide segments: physicochemical distinctiveness from classical immunoglobulins and T cell receptor heterodimers

The monoclonal murine T cell hybridoma, 51H7D, was previously shown to bind the arsazobenzene hapten and to produce a soluble antigen-binding molecule. In this paper we characterize this antigen-binding immunoprotein for its relationship to known T cell receptors serologically, using antibodies specific for variable region framework, or joining region peptides predicted from gene sequence and by biochemical means. The 51H7D cell expresses a protein with subunit size of approximately 31,000, that reacts antigenically with affinity-purified antibodies directed against synthetic first framework and joining segment peptides, corresponding to the gene sequence of the T cell receptor beta chain, YT35. This molecule does not react with affinity-purified antibodies directed against murine immunoglobulin, framework 1 sequences of alpha and gamma T cell receptors, or with antibodies against synthetic heavy chain joining segments. The subunit of mol. wt. 31,000 can form higher aggregates, notably in the mol. wt range of 60,000-70,000, depending upon extraction conditions. The soluble form of the antigen-binding molecule bears the J beta cross-reactive determinant and occurs predominantly as a charge restricted molecular species of approximate mol. wt 60,000-70,000. The purified molecule has a blocked N-terminus, but quantitative statistical analysis of its amino acid composition indicates a closer relatedness to T cell receptor beta chains and other antigen-binding T cell products, than it has to alpha, gamma or delta TCR chains. No evidence for more than one type of polypeptide chain was found and the polymerization is not dependent upon the formation of disulfide bonds. These studies raise the possibility that antigen-binding soluble T cell molecules might belong to a new family of immunoproteins, that is related to, but distinct from, classical immunoglobulins and alpha beta or gamma delta heterodimers.     

Immunoglobulin epitopes defined by synthetic peptides corresponding to joining region sequence: conservation of determinants and dependence upon the presence of an arginyl or lysyl residue for cross-reaction between light chains and T-cell receptor chains

Joining or J region sequences of rearranging immunoglobulins and T-cell receptors show considerable sequence homology, particularly in their C-terminal portion corresponding to the fourth framework region of immunoglobulin variable regions. In order to test the question of whether serological cross-reactions between immunoglobulin variable regions and T-cell receptors were due to antigenic similarities in their J regions, we synthesized synthetic peptides corresponding to immunoglobulin J regions and to J regions predicted from gene sequence of the T-cell receptor beta chain. We found that antibodies produced against a synthetic 16-mer J beta sequence reacted with T-cell receptor chains and also with immunoglobulin light chains. The cross-reactivity was dependent upon the J signature sequence FG()GT(R or K)L where the presence of a positively charged lysyl or arginyl residue was essential for cross-reactivity. We were able to classify J region determinants into two distinct antigenic sets; one corresponding to JH and the other corresponding to J kappa, J lambda, J beta and J alpha. Although considerable homology occurs between JH and JL (or J beta) sequences, little cross-reactivity was observed between these two J subsets. Antibodies raised against polyclonal murine IgG immunoglobulins contained antibody subpopulations specifically reactive with either JH or J beta peptides. The serological data derived here using antipeptide antibodies are consistent with computer modeling studies that indicate that the conformations of T-cell receptor variable regions resemble those of classical immunoglobulins. Our data comparing cross-reactivities restricted to the J region indicate that the expression of the J region by intact T-cell receptor beta chains is probably more similar to that of light chains than it is to the corresponding region of heavy chains.     

Induction of fibrin-specific antibodies by immunization with synthetic peptides that correspond to amino termini of thrombin cleavage sites

Fibrin-specific antibodies have been produced in rabbits which were immunized with synthetic peptides. Specificity against human fibrin monomer was achieved because the synthetic peptide haptens were derived from sites unique to fibrin as compared with fibrinogen. Two undecapeptides were chemically synthesized according to the amino acid sequence of the amino termini of human fibrin alpha- and beta-chains which are revealed by thrombin cleavage. Rabbits immunized with either an alpha- or beta-chain peptide conjugate produced anti-peptide sera which reacted with fibrin monomer. Following immunoadsorption of the rabbit sera with human fibrinogen-Sepharose, fibrin-specific antibodies were detectable by solid-phase radioimmunoassay that did not react with fibrinogen. Antisera elicited by clotted human fibrin contained antibodies that reacted with fibrin and fibrinogen when treated in a similar manner.     

Retrovirally Induced Mouse Anti-TCR Monoclonals can Synergize the In Vitro Proliferative T Cell Response to Bacterial Superantigens

Antibodies directed against the β chain of the T-cell receptor (TCR) have been detected in animals and in humans in a number of distinct immune states that do not involve direct immunization with either T cells or TCR epitopes. When C57Bl/6 mice are infected experimentally with the LP-BM5 retrovirus mixture they produce increased titres of autoantibodies directed against TCR Vβ complementarity determining region 1 (CDR1) epitopes. Here, the authors utilized hybridoma technology to isolate monoclonal immunoglobulin (Ig)M antibodies (MoAbs) that arose at the peak of infection. The authors characterized the binding specificity tested using synthetic peptides modelling the CDR1 segments of 24 distinct Vβ gene products and determined the V_H gene usage by two such monoclonals. One binds to a restricted set of TCR Vβ CDR1 peptides, and the second reacts with approximately half of the CDR1 peptide homologues. These MoAbs are specific for T-cell receptor β chains and do not bind to immunoglobulin light chains or to unrelated protein molecules. Both MoAbs bind to intact T cells expressing the Vβ domain (human Vβ8 and mouse Vβ11) from which selection peptides were derived, and costimulate a Vβ specific in vitro T cell proliferative response induced by the staphylcoccal enterotoxin E (SEE) superantigen.     

The murine homologue of the T lymphocyte CD2 antigen: molecular cloning, chromosome assignment and cell surface expression

The human T lymphocyte antigen CD2 (T11, sheep erythrocyte receptor) is expressed on all peripheral T cells and all but the most immature thymocytes. Experiments with monoclonal antibodies against CD2 suggest that CD2 is the cell surface receptor for a natural ligand involved in T cell proliferation. Clarification of the functional role of CD2 would be facilitated by the identification of CD2 in the mouse. However, antibodies that recognize the murine homologue have not been described. An alternative approach to the identification of the murine homologue was to use cross-species DNA hybridization, employing human CD2 cDNA as a probe. Clones encoding the murine homologue were isolated from a murine T helper cell cDNA library. The murine cDNA sequence encoded a predicted mature polypeptide of 322 amino acids that showed 54% identity with the predicted human sequence. As with the human polypeptide, the cytoplasmic domain was large, and rich in proline and basic residues. CD2 mRNA was expressed in murine thymus and spleen, and in the T cell line EL4. The murine CD2 gene was assigned to chromosome 3 by Southern blot analysis of mouse-hamster somatic cell hybrids. A rabbit antiserum raised against purified human CD2, precipitated from surface-labeled mouse thymocytes a glycoprotein of Mr 55,000-66,000 which decreased to Mr 35,000 on digestion with endo-beta-acetylglucosaminidase F. These sizes are consistent with those predicted for the murine CD2 antigen from the cDNA sequence.     

Monoclonal antibody against murine T cell receptor V alpha 14 cross-reacts with human CD3 epsilon and detects disulfide-linked dimeric form.

A monoclonal antibody against V14+ alpha-chain of murine T cell receptor (TCR) was established by fusing spleen cells from a rat immunized with a soluble chimeric TCR/IgG3 protein containing murine TCR V alpha 14J alpha 281 in place of the VHDHJH of an IgG3. lambda 1, and subjected to screening on a human transfectant (Jurkat variant) expressing the murine V14J281 alpha-chain. The anti-mouse V alpha 14 antibody precipitated TCR alpha beta molecules from Triton X-100-solubilized extracts of 125I-labeled murine thymocytes and spleen cells. Unexpectedly, the antibody showed cross-reactivity to the human CD3 epsilon molecule and detected a disulfide-linked 20 kDa dimeric form of human CD3 epsilon, which is a novel family component of the CD3 complex and is associated closely with the CD3 zeta-zeta homodimer as well as TCR alpha beta or TCR gamma delta.     

T-cell receptor-derived peptides in immunoregulation and therapy of retrovirally induced immunosuppression

Retrovirally infected humans and mice showed progressive acquired immunodeficiency accompanied by the production of elevated levels of autoantibodies directed against T-cell receptor variable-domain epitopes. Epitope mapping analyses indicated that a major determinant recognized was defined by a 16-mer peptide containing the entire CDR1 segment and part of the FR2 region of human Vbeta8, and that both species showed reactivity to the same sequence. Either prophylactic or therapeutic administration of this peptide to retrovirus-infected C57/BL/6 mice normalized the balance of T(H)1- and T(H)2-type helper activity and restored the resistance to infection by the opportunistic parasite Cryptosporidium. Administration of the peptide did not generate significantly increased levels of autoantibody, but had a profound effect on T-cell activity as well as other aspects of inflammation, including NK-cell activity. A 16-mer derived from the Jbeta sequence showed similar functional effects on T cells from retrovirus-infected mice. Direct binding of the VbetaCDR1 peptide to recombinant TCR Valpha/Vbeta constructs, as well as to IgM natural autoantibodies, suggests that the cell surface receptor for the peptide is the alpha/beta TCR on T cells and surface IgM in B cells. The Vbeta CDR1 peptide stimulated division of murine splenocytes in vitro, stimulated the production of the T(H)1 cytokine IL-2, and synergized with the T-cell mitogen concanavalin A in proliferation and IL-2 production. These studies indicate that administration of peptides derived from T-cell receptor variable domains to animals immunosuppressed as a result of retroviral infection has a profound immunomodulatory effect enhancing overall T-cell functional capacity, particularly with respect to the cytokine production characteristic of T(H)1-type cells. Our studies are interpreted in the context of other recent investigations of immunomodulatory peptides.     

T-cell receptor gene usage and expression in renal allograft-derived T-cell lines

Southern blot analyses indicate that the T-cell receptors of alloreactive T-cell lines derived from needle biopsies of human kidney allografts are selected based on beta-chain usage. In order to examine this selection at the level of T-cell-receptor expression, we have generated monoclonal antibodies directed toward the T-cell-receptors of three allograft-derived T-cell lines, MH3, WP3, and EH3. Monoclonal antibodies have been isolated which appear to react specifically with each of these three T-cell lines. One anti-MH3 antibody precipitates a molecule from the surface of MH3 cells that comigrates with the alpha/beta TcR on a polyacrylamide gel. Ten WP3-reactive monoclonal antibodies were identified which cause a modulation of CD3 from the surface of WP3 T cells, although none as yet precipitates a molecule from lysates of surface 125I-labeled WP3 cells. Since Northern blot analysis of EH3 RNA has revealed that a member of the V beta 6 gene family is expressed by this T-cell line, we are attempting to identify a monoclonal antibody reactive with this V beta 6 gene product.     

Studies with Synthetic Peptides of 80 kDa Human Sperm Antigen (80 kDa HSA)

PROBLEM: The 80 kDa human sperm antigen (HSA) is a sperm-specific and conserved antigen, capable of inducing immunological infertility. Partial N-terminal amino acid sequences of 80 kDa HSA (Peptide NT) and its peptides obtained by digestion with endoproteinase Lys-C (peptides 1-4) and endoproteinase Glu-C (peptides 5-6) did not show any sequence homology with reported known proteins deposited in the Gen-Bank. These sequenced peptides were synthesized and conjugated to key hole limpet haemocyanin (KLH) and evaluated for its antifertility effects. The present communication describes the characterization of these peptides and their antibodies. METHOD OF STUDY: Peptides NT, 1, 2, 3 and 4 were synthesized and conjugated to KLH. Antibodies to KLH conjugated peptides were raised in rabbits by active immunization and the antibody titer was determined by enzyme-linked immunosorbent assay (ELISA) using sperm extract coated wells. The binding specificity of the synthetic peptides or purified 80 kDa HSA to their antibodies was assessed in the presence of various doses of respective synthetic peptides or 80 kDa HSA. The binding specificity was further confirmed by Western blot analysis. Antipeptide antibodies were also checked for sperm agglutinating activity, in-vitro. RESULTS: Active immunization of rabbits elicited significant antibody titers against the synthetic peptides, except for peptide 3. Antipeptide antibodies specifically recognized the native protein in an ELISA and induced in-vitro agglutination of human, rat and monkey sperm. In addition, Western blot analysis showed that these antipeptide antibodies specifically bind to the 80 kDa HSA band of the sperm extract. CONCLUSION: Synthetic peptides of 80 kDa HSA are immunogenic and antibodies raised against these peptides recognize the native protein detected by ELISA, Western blot analysis. In addition, they possess sperm agglutinating activity. These findings suggest that they are promising candidates in the development of immunocontraceptives.     

Human CD2 is functional in CD2 transgenic mice.

We aimed to study the biochemical consequences of T-cell activation via the CD2 antigen in mouse T cells. The lack of stimulatory monoclonal antibodies against the mouse CD2 antigen led us to analyse this problem in transgenic mice carrying and expressing the human CD2 gene. Monoclonal antibodies to the human CD2 antigen that were mitogenic for human T cells induced proliferation of mouse T cells from the CD2 transgenic mice. Stimulation was accompanied by rapid phosphorylation of the murine CD3 gamma chain and T-cell receptor zeta chain. These results demonstrate that the human CD2 antigen is functional in the CD2 transgenic mice and indicate a considerable conservation of the signal transducing processes and also the activation mechanisms between mouse and man.     

Promiscuous peptide recognition of an autoreactive CD8(+) T-cell clone is responsible for autoimmune intestinal pathology

We have recently described a CD8(+) T-cell clone recognizing defined epitopes of both mycobacterial and murine hsp60 that are not sequence homologues. Adoptive transfer of this T-cell clone into T-cell deficient mice induced an autoimmune intestinal pathology. TCR analysis revealed the productive in frame rearrangement of two TCRa genes in this clone. Expression of two different TCR alpha chains by one T cell (dual TCR) is discussed as a potential mechanism underlying T-cell mediated autoimmunity. Here we addressed the question of whether hsp60 crossrecognition of self and non-self origin is directly linked to the surface expression of two TCRs by the same cell. Consequently, the potentially dual TCR of the hsp60 reactive T-cell clone was dissected into two single TCRs by double retroviral transduction of TCR deficient cell lines. Our data show that only one of the two TCR alpha/beta combinations formed a functional cell surface TCR and that post-translational allelic exclusion of the second alpha chain was achieved by the inability to pair with the TCR beta chain. Thus a single TCR is not only sufficient for crossrecognition with peptides that share minimal sequence homology, moreover this promiscuous TCR reactivity accounts also for immunopathology as recently shown.     

Use of a murine T-cell hybridoma expressing human T-cell receptor alpha- and beta-gene products as a tool for the production of human T-cell receptor-specific monoclonal antibodies.

We describe the production of mouse monoclonal antibodies specific for the human TcR using as the immunogen transfected murine T-cell hybridoma cells coexpressing mouse CD3 with human Jurkat TcR alpha and beta chains. The shortage of monoclonal antibodies (mAbs) specific for the human TcR-V alpha and V beta families reflects the difficulties in their production by conventional methods using whole human T cells or purified soluble receptors as immunogens. As an alternative strategy to circumvent these difficulties, we have generated a transfected mouse T-cell line expressing a human (Jurkat) TcR alpha beta dimer in a complex with mouse CD3. The parental mouse T-cell line, TG40, is a cell surface TcR-negative, cytoplasmic CD3-positive variant of the mouse T-cell hybridoma 2B4. The human-TcR alpha beta expressing mouse transfectant was used to immunize mice with the same genetic background as the parent mouse T-cell line, and a human TcR-specific response was successfully achieved. MAb-producing hybridomas were generated by fusing spleen cells from the immunized mice with the mouse myeloma cell line NSO. Of 124 hybridoma supernatants screens, 72 showed reactivity to the human T-cell line Jurkat. Twenty-four of the hybridomas producing human (Jurkat) TcR-specific antibodies were cloned and screened for reactivity to Jurkat TcR. Several IgG2b and IgM mAbs specific for the Jurkat T cell line were selected on the basis of their ability to modulate surface CD3 expression on Jurkat cells. Most of the antibodies do not stain other TcR-expressing human T cell leukemia cell lines, implying specificity for the variable domains of the Jurkat TcR.(ABSTRACT TRUNCATED AT 250 WORDS)     

Fas-induced programmed cell death is mediated by a Ras-regulated O2- synthesis.

Because the T-cell receptor (TCR) alpha-chain locus is known to lack allelic exclusion of rearrangements, and as a recent report revealed the existence of alpha-chain double expressers among normal human peripheral blood lymphocytes (PBL), the possible existence of TCR alpha-chain double expressers among mature murine T cells was examined. Although two-colour staining analysis of normal T-cell populations did not immediately reveal recognizable clusters of V alpha double expressers, alternative in vitro stimulations of normal murine T cells with antibodies to two different TCR V alpha chains reproducibly induced TCR alpha-chain double-expresser lines. TCR complexes with different alpha-chains on such T cells were both shown to be functional. The cell lines were heterogeneous with respect to V beta usage and the ratio of the expressed amounts of the two alpha-chains on the surface. The ratio of the two expressed alpha-chains was found to be very stable over a long period of time. These results are consistent with the earlier report on alpha-chain double expressers among human T cells and also show normal occurrence of TCR alpha-chain double expressers in murine T-cell populations.     

Leishmania major parasites share an epitope with the murine CD3-T cell receptor complex

After immunization of BALB/c mice with a low molecular mass fraction (FrD; ≦ 31 kDa) isolated from a soluble extract of Leishmania major promastigotes, a panel of monoclonal antibodies (mAb) was obtained. One of these antibodies (mAb 9C) recognized a cytosol-associated antigen from L. major of approximately 21 kDa as shown by Western blot and immunoprecipitation. In addition, mAb 9C reacted with surface structures of murine splenic T cells and T cell clones. Reactivity was confined to murine cells, but was not strain restricted. Immunoprecipitation studies and surface-labeling experiments with CD4⁺ T cell clones and the T cell receptor (TCR)^?CD3^? T cell line TG40 transfected with V α/β chains from human TCR and concomitant co-expression of murine CD3 suggested that mAb 9C binds to an epitope located within the murine CD3-TCR complex. In addition, mAb 9C induced strong T cell proliferation. We conclude that L. major parasites share an epitope with the murine CD3-TCR complex which is functionally important for T cell activation.     

Detection of a T cell receptor delta chain with an anti-TCR alpha chain serum.

Two types of T cell antigen-specific receptors have been described. Most peripheral blood T lymphocytes express, at their surface, an antigen receptor consisting of alpha and beta subunits, while a small subset of thymocytes and a minority of mature T lymphocytes express a heterodimeric receptor termed gamma delta. Whereas the gene segments localization corresponding to the TCR gamma and beta chains are separate, genes encoding the joining and the constant regions of TCR delta chain are located between the TCR V alpha region and the J alpha-C alpha gene cluster. To determine whether V alpha gene segments are used by delta chains, immunoprecipitations from human TCR gamma delta expressing cell clones were performed with an anti-alpha serum. The results show that a rabbit antiserum raised against the purified REX TCR alpha subunit immunoprecipitates a TCR delta chain from the cell surface of only one human T cell clone termed SO1. However, since no SO1 RNA hybridization is observed with REX TCR V alpha probe and SO1 cloned cells do react with an anti-V delta 2 monoclonal antibody, we conclude that TCR delta and alpha chains expressed a limited structural homology and that REX TCR V alpha gene do not seem to be frequently used in a functional delta chain.     

T-cell epitopes recognized within the 65,000 MW hsp in patients with IgA nephropathy.

IgA nephropathy (IgAN) is the commonest cause of glomerulonephritis and clinical exacerbation of IgAN is frequently associated with mucosal infection. T-cell receptor gamma delta (TCR gamma delta+) cells are increased in both the circulation and in renal biopsies of patients with progressive IgAN. We examined the hypothesis that specific peptides within the 65,000 MW heat-shock protein (hsp) might stimulate TCR gamma delta cells and play a part in the immunopathogenesis of IgAN. We studied T-cell proliferative responses stimulated by overlapping peptides derived from the sequence of mycobacterial 65,000 MW hsp. Three T-cell epitopes have been identified (peptides 51-65, 71-85 and 281-295). The three peptides have a synergistic effect and they stimulate significantly higher proliferation of T cells in patients with IgAN than in disease or healthy controls. This response was inhibited by monoclonal antibodies (mAb) to TCR gamma delta+ and human leucocyte antigen (HLA) class I, but not by mAb to HLA class II. The involvement of TCR gamma delta+ cells was confirmed by up-regulation of the proportion of TCR gamma delta+ cells when stimulated with the three specific peptides. We suggest that IgAN might be associated with mucosal infection by a variety of micro-organisms and that peptides within the microbial hsp cross-react with the homologous human hsp which may stimulate TCR gamma delta+ cells and play a part in the pathogenesis of IgAN.     

Antigenic analysis of the second extra-cellular loop of the human beta-adrenergic receptors.

Polyclonal antibodies were raised in rabbits by immunization with free peptides corresponding to positions 197-222 of the human beta 1-adrenergic receptor (beta 1 peptide) and the corresponding sequence (172-197) of the human beta 2-adrenergic receptor (beta 2 peptide). While the beta 2 peptide yielded antibodies that cross-reacted with the beta 1 peptide, the antibodies against the beta 1 peptide did not cross-react with the beta 2 sequence. Cross-reactivity of the anti-beta 2 peptide antibodies and the selectivity of the anti-beta 1 peptide antibodies were also revealed in the recognition by immunoblots of the beta 1- and beta 2-adrenergic receptors of different species or of the receptor gene products expressed in a bacterial vector. These antibodies could be used immunohistochemically to visualize the beta-adrenergic receptors on rabbit heart. The anti-beta 2 peptide antibodies did not show any functional effect on the beta-adrenergic receptors; the anti-beta 1 peptide antibodies were able to displace agonist affinity to higher values. Recognition of truncated peptides by the anti-beta 1 and anti-beta 2 peptide antibodies suggested that the cross-reaction of the anti-beta 2 peptide antibodies was due to the recognition of a common epitope on the C-terminal part of the peptides. The anti-beta 1 peptide antibodies recognized the N-terminal part of the peptide better than the C-terminal part. These results suggest that the second extracellular loop postulated in the structure of the human beta-adrenergic receptor contains the T and B cell epitopes necessary for induction of an immune response. The selectivity and the functional properties of the antibodies raised against that loop in the beta 1 adrenergic receptor could have relevance in induction of auto antibodies in certain cardiomyopathic conditions.