Expression of T cell receptors by thymocytes: in situ staining and biochemical analysis.

We have examined the in situ expression of T cell receptor (TCR) V beta 8 protein in murine thymus during ontogeny using the monoclonal antibody F23.1. Positive cells were first detected at day 15 of gestation (0.6%). By day 16 the frequency of positive cells increased dramatically (4.18%). From day 16 to day 17 positive cells doubled (8.17%). The first clusters of F23.1 positive cells were seen at day 17. In the cortex, positive cells decreased from 14% in the newborn mice to 9.8% in 8-week-old mice, whereas in the medulla the frequency remained unchanged at 20%. The antibody F23.1, as well as an antiserum raised against the constant region of the beta chain, immunoprecipitated receptor dimers from highly purified Lyt2+, L3T4+ thymocytes and from two thymic lymphomas of cortical phenotype which express full size alpha and beta mRNA. The receptor dimer could not be precipitated from Lyt2-, L3T4- thymocytes. The results are discussed with regard to intrathymic T cell repertoire selection.     

Effects of monoclonal antibodies against lymphocyte surface antigens on interleukin 2 excretion by Epstein-Barr virus-specific human T-cell hybridomas

Monoclonal antibodies were used as probes to study the role of cell surface antigens in the response of Epstein-Barr virus (EBV)-specific human T-T hybridomas to autologous EBV-infected B lymphoblasts. Somatic cell hybrids were generated by fusing EBV-primed peripheral blood T lymphocytes with a mutant clone of the JM human T-lymphoblastoid-cell line. When exposed to autologous EBV-infected B lymphoblasts, the resulting hybrid clones released Interleukin 2 into the culture medium. Incubation of the EBV-infected B cells with two monoclonal antibodies against human Ia-like molecules blocked their ability to trigger the hybridomas. Under the same conditions, monoclonal antibodies against beta 2-microglobulin, and a 45,000 MW surface antigen common to EBV-infected B lymphoblasts, did not alter the capacity of the B cells to stimulate the hybridomas. None of four monoclonal antibodies against surface antigens on the T-cell hybridomas impaired their responsiveness to EBV-infected B lymphoblasts. These results suggest the possibility that naturally occurring or exogenously administered antibodies against Ia molecules might interfere with T-cell regulation of EBV-induced B-cell activation.     

Characterization of a T-cell clone recognizing idiotypes as tumor-associated antigens

Although heterogeneous T cells recognizing idiotypic determinants have been demonstrated to occur spontaneously in vitro or to be expanded by immunization with antigen or idiotype, their in vitro propagation and cloning was not successful. These previous studies have relied extensively on soluble immunoglobulin to induce proliferation of idiotype-specific T cells. This report describes a unique approach to obtain a stable T-cell clone specific for a monoclonal beta 2-6 fructosan binding myeloma ABPC48 (BALB/c origin), bearing well-defined A48 regulatory idiotopes. Following repeated immunizations with ABPC48 myeloma protein of C.B/R3 mice (H-2d, VHb, CHa), which differ only in the VH locus from BALB/c mice (H-2d, VHa CHa), several stable T-cell clones were obtained after stimulation in vitro with ABPC48 myeloma cells. The proliferation of a T-cell clone A48.B2 was observed with irradiated myeloma cells or hybridomas producing antibodies bearing A48 idiotype encoded by genes deriving from the VH 441-4 family. Proliferation of the clone did not occur with soluble ABPC48 myeloma protein or with Sepharose 4B-bound ABPC48 myeloma protein. Both anti-A48Id and anti-Iad monoclonal antibodies can specifically inhibit the proliferation of this clone when stimulated with ABPC48 myeloma cells. These results demonstrate recognition of idiotypes on B-cell tumours by T cells and implicate the role of class II major histocompatibility complex determinants in this cellular interaction.     

Characterization of an endogenous Lyt2+ T-suppressor-cell population regulating autoreactive T cells in vitro and in vivo

Autoreactive T cells have been defined by their capacity to respond to self-Ia antigens expressed on non-T cells. Several recent studies have suggested that these cells may play important immunoregulatory functions. However, it is not clear what regulates the responsiveness of autoreactive T cells and why such cells are not demonstrably stimulated in vivo, where they are in the constant presence of self-Ia antigens. In the present study we examined the role of T suppressor (Ts) cells in regulating autoreactive T cells. We observed that enhanced autoreactivity occurred in vitro when Lyt2+ T cells were depleted from the responding and/or stimulating spleen cells in a syngeneic mixed-lymphocyte reaction. Similarly, addition of irradiated Lyt2+ T cells but not L3T4+ T cells inhibited the response of L3T4+ T cells to self-Ia antigens. The activity of the suppressor cells was specific to the autoreactive T cells since antigen-specific and alloreactive T-cell proliferation were not inhibited. Furthermore, depletion of Lyt2+ T cells by in vivo treatment of mice with anti-Lyt2 monoclonal antibodies caused enhanced endogenous proliferation of lymph node and splenic T cells and increased the T-cell response to self-Ia antigens in vitro. These studies, therefore, suggest that T-cell tolerance to self-Ia antigens in vivo may be maintained by naturally occurring Lyt2+ Ts. Mice having enhanced autoreactivity may provide a useful tool to address the role of autoreactive T cells in the immune response to foreign antigens and in the pathogenesis of autoimmune diseases.     

An autoreactive T hybridoma expressing nonspecific helper activity

Two functional T hybridomas were prepared by fusing BW5147 with ovalbumin (OVA)-primed splenic T blast cells. One was OVA specific for helper function requiring concanavalin A supernatant (CAS) for activity while the other, termed autoreactive, was nonspecific for helper-augmenting activity. Both required H-2d presenter cells for interleukin 2 (IL-2) production. The autoreactive clone showed helper activity only in the presence of suboptimal numbers of antigen (Ag)-primed T cells. Both T hybridomas were Lyt 1+2+ and Thy 1+. Cells produced from such fusions should provide a useful instrument not only in dissecting the T-cell regulatory mechanism, but also in isolating and characterizing self-recognition structures.     

Regulation of mucosal IgA production in vitro by autoreactive immunoregulatory T cells from murine Peyer's patches

In this study, we investigated whether Peyer's patch-derived T-cell subsets participate in vitro in self major histocompatibility (MHC) class II antigen (Ag)-mediated immunoregulatory circuits for gut-mucosal IgA isotype selection in the presence of Peyer's patch (PP)-derived syngeneic surface immunoglobulin M (sIgM)-bearing B cells. When fresh (in vitro unstimulated) sIgM-bearing B cells were cocultured with fresh, PP-derived L3T4+ Vicia villosa-nonadherent (VV-) T cells (T helper (Th) cells), the production of all class-specific immunoglobulins (Ig), but, in particular, IgA, was enhanced two- to sixfold. This augmented Ig production was, however, reduced by nearly 50% when fresh PP-derived Lyt2+ VV-T cells (suppressor T cells) were added. Furthermore, addition of PP-derived L3T4+ VV+ and Lyt 2+ VV+ T cells abrogated, by nearly 100%, the suppression induced by the Lyt 2+ VV-T cells (contrasuppression). When lipopolysaccharide (LPS)-stimulated, PP-derived sIgM-bearing B cells were cocultured with the Th cells, the production of each class-specific Ig was similarly enhanced, but Ig levels exceeded those obtained with cultures of the unstimulated B cells (P less than 0.001). Anti-I-A or anti-I-E monoclonal antibody (mAb) inhibited the induction of each immunoregulatory T-cell effector activity (P less than 0.001), and anti-I-A/E inhibited it synergistically. Thus, unstimulated fresh PP-derived T cells appear to be activated and then to exert T-cell effector functions in the sequential development of helper, suppressor, and contrasuppressor immunoregulatory networks in the presence of PP-derived sIgM B cells and, particularly, LPS-preactivated sIgM B cells. Based on the blocking effect of anti-I-A and/or anti-I-E mAb on the induction of each T-cell-mediated immunoregulatory function in class-specific Ig production, it appears that the autoreactive (self MHC class II Ag-reactive) activation of PP T cells evoked by Ia Ag on PP sIgM B cells largely controls mucosal IgA production by the latter cells. Furthermore, this immunoregulation by autoreactive effector T cells, especially the L3T4+ VV- helper T cell, may play a significant role in vivo in gut-mucosal IgA isotype production.     

In situ localization of T cell receptor beta chain in the murine thymus: changes in the intrathymic distribution of thymocytes expressing beta chain during fetal development

The expression of T cell receptor beta chain in the developing thymus was examined at the light and electron microscopic levels using the monoclonal antibody F23.1. Cells expressing cytoplasmic forms of beta chain were first observed at Day 16 of gestation, while thymocytes expressing cell surface beta chain were detected about a day later. Clustering of cortical F23.1+ cells was more pronounced in fetal thymus when compared to adult. The density of F23.1+ cells in the subcapsular areas of the thymus was initially lower than that in the rest of the cortex or the medulla. Within the subcapsular and cortical areas of the thymus there was an inverse relationship between the density of F23.1+ cells and cells labeled with the lectin from Dolichos bifloris, which binds to terminal alpha-linked N-acetylgalactosamine residues preferentially expressed by L3T4-/Lyt2- thymocytes. Although this pattern was less pronounced with increasing gestational age, it was still apparent at birth.     

Role of the L3T4 antigen in T-cell activation. I. Description of a monoclonal IgM antibody to a distinct epitope (L3T4b) of the L3T4 antigen and its effect on interleukin 1-induced thymocyte proliferation

This report describes a new rat monoclonal IgM/k antibody, monoclonal antibody (MAb) 2B6, which reacts with a cell surface antigen present on a subpopulation of both thymocytes (85%) and peripheral T lymphocytes (55-60%). The antigen recognized by MAb 2B6 has multiple properties in common with the L3T4 antigen, as defined by the recently described MAb GK1.5. Thus, MAb 2B6 and MAb GK1.5 give very similar flow cytometry staining patterns on thymocytes, purified spleen T cells and all tested T-cell hybridomas. Depletion of MAb 2B6-positive cells with antibody and complement led to simultaneous depletion of MAb GK1.5-positive cells, and vice versa. Depletion of Lyt 2-positive cells led to enrichment of both MAb 2B6- and MAb GK1.5-positive cells. Both MAb 2B6 and MAb GK1.5 immunoprecipitate the same pattern of cell surface molecules from detergent extracts of radiolabeled thymocytes, the main components being a 55-kDa and a 115-kDa band. We therefore conclude that MAb 2B6 reacts with the L3T4 antigen. Interestingly, MAb 2B6 and MAb GK1.5 do not cross-block and therefore most probably react with distinct epitopes on the L3T4 molecule. The determinant recognized by MAb GK1.5 is called L3T4a. We suggest that the determinant recognized by MAb 2B6 be named L3T4b. As MAb 2B6 was selected for its ability to inhibit the action of interleukin 1 (IL-1) in the thymocyte costimulator assay, it is likely that the L3T4 molecule is functionally involved in the events taking place during IL-1 induction of thymocyte proliferation.     

The role of CD4 in antigen-independent activation of isolated single T lymphocytes

The membrane molecule CD4 (L3T4) is thought to facilitate activation of Class II H-2-restricted T cells by binding to Ia determinants on antigen-presenting cells. Recent reports suggest that CD4 can also contribute to antigen-independent activation by anti-T cell receptor (TCR) antibodies. An assay which measures the secretion of two lymphokines, granulocyte-macrophage colony-stimulating factor and interleukin 3 (IL-3), by single T cells activated with an anti-TCR antibody, F23.1, was used to analyze the effects of anti-CD4 antibodies on antigen-independent T cell activation. Single cells of a CD4+F23.1+ clone were micromanipulated into wells to which F23.1 had been immobilized, and their lymphokine secretion was measured 24 hr later. The frequency of lymphokine-secreting cells was consistently reduced up to 10-fold in the presence of soluble anti-CD4 antibody (GK1.5) but only up to 2.5-fold by an antibody to the cell adhesion molecule, LFA-1. In both bulk and single-cell cultures, responses to suboptimal concentrations of F23.1 were more susceptible to inhibition by GK1.5 than responses to optimal F23.1. The failure of GK1.5 to inhibit IL-2-stimulated lymphokine synthesis in bulk cultures suggested that CD4 ligation did not deliver a negative signal to the clone. By contrast, when either anti-CD4 or anti-LFA-1 was immobilized on the same surface as F23.1, the frequency of lymphokine-secreting cells could be increased up to 10-fold. It is concluded that anti-CD4 antibodies can act directly on the responding T cell to affect TCR-dependent activation, in the absence of interaction with antigen-presenting cells or any other cell type.     

Activation of Lyt-2+ (CD8+) and L3T4+ (CD4+) T cell subsets by anti-receptor antibody

The mAb F23.1, specific for V beta 8-related determinants on the TCR, was used to study the requirements for TCR cross-linking and for accessory cells (AC) in the induction of proliferation or IL-2 responsiveness in L3T4+ (CD4+) and Lyt-2+ (CD8+) T cells. T cells were exposed in vitro to soluble native F23.1 antibody, to heteroconjugates composed of the Fab fragments of F23.1 linked to Fab fragments of antibodies specific for Ia determinants on AC, or to F23.1 immobilized on an insoluble matrix. Soluble F23.1 antibody-induced proliferation in naive T cells only in the presence of both AC and exogenous IL-2, and these responses were confined to Lyt-2+ T cells. In contrast, heteroconjugates capable of crosslinking F23.1+ TCR to AC surface Ia determinants were capable of inducing proliferation in both L3T4+ and Lyt-2+ T cells in the absence of added lymphokine. Moreover, binding to and presumably multi-valent crosslinking of the TCR by immobilized F23.1 was sufficient to induce proliferation in both Lyt-2+ and L3T4+ T cells in the absence of AC or exogenous IL-2. Further, it was found that the conditions necessary for T cell growth factor secretion paralleled closely those required for induction of T cell proliferation in the absence of added lymphokine, suggesting that production of endogenous lymphokine might be the limiting process for triggering of T cell proliferation. Taken together, these findings suggest that under optimal conditions of TCR cross-linking, TCR occupancy and cross-linking is sufficient to deliver all of the signals necessary to initiate proliferation in naive populations of both L3T4+ and Lyt-2+ T cells. However, when conditions for TCR signaling are suboptimal, as may be the case for normal Ag-mediated stimulation, a role for second signals delivered by AC or exogenous lymphokines can become critical for T cell activation.     

The biologic activity of anti-T cell receptor V region monoclonal antibodies is determined by the epitope recognized

We have used 10 independently isolated mAb reactive with the Ag R on a cloned Th cell line to map three distinct epitopes and three subepitopes on the R. One of these epitopes is clearly on the V beta 8 region, as it is defined by the antibodies KJ-16 and F23.1, known to react with the V beta 8 family of variable regions, and a functional rearranged V beta 8 gene has been cloned from this cell line. Antibodies directed at a second epitope, believed to be on V alpha because it is unaffected by anti-V beta antibodies, are completely inhibited from binding by monoclonal anti-CD3 epsilon-chain antibodies. Because the cloned Th cell line used, D10.G4.1, responds to soluble monoclonal anti-TCR antibodies, it has been possible to compare the binding of anti-R antibodies with their ability to activate this cloned T cell line. We find that for antibodies all specific for the same or a closely related epitope, activation is proportional to binding, by using antibodies that differ by greater than 100-fold in avidity for the R. By contrast, antibodies directed at different epitopes on the R differ markedly in their ability to activate the D10.G4.1 cell line. We have tested whether these differences reflect differences in the orientation of cross-linking the TCR or possible conformational changes induced in the R by the antibodies, and our data support the latter hypothesis as an explanation for the differences in activation potency between antibodies.     

Characterization of a murine monoclonal antibody specific for an allotypic determinant on T cell antigen receptor

Repeated immunization of normal C57L/J (H-2b) mice with peripheral T cells from BALB.B (H-2b) mice results in the production of antibodies which react with the T cell receptor. A monoclonal antibody-producing hybridoma, F23.1, was isolated from immunized C57L/J mice showing this property. This monoclonal antibody recognizes approximately 25% of peripheral T cells in BALB mice. It stains approximately the same fraction of T cells and precipitates the same heterodimer as the rat monoclonal antibody described previously that was made against isolated receptor material. The allotypic determinant recognized by this monoclonal antibody is present in most common laboratory strains (BALB, C57BL, CBA, A, DBA, C3H) and is absent in C57L, C57BR, and SJL mice. Sorting peripheral T cells from BALB.B or (SJL X BALB/c)F1 mice for the F23.1+ and F23.1- subsets revealed that both populations contain approximately the same CTL precursor frequency for alloantigen. Thus, the T cell receptor allotype defined by F23.1 is present on CTL. Furthermore, cytotoxicity mediated by an F23.1+ CTL line could be blocked specifically by the F23.1 monoclonal antibody. Under appropriate conditions, the monoclonal antibody F23.1 bound to Sepharose 4B beads can induce resting peripheral T lymphocytes of allotype-positive strains to proliferate.     

Tumor-specific idiotype vaccines. II. Analysis of the tumor-related network response induced by the tumor and by internal image antigens (Ab2 beta)

In this study the tumor-specific immuneresponse induced by irradiated tumor cells (L1210/GZL) and by anti-idiotype antibodies was analyzed. The anti-idiotype antibodies (Ab2) were made against the paratope of a monoclonal antitumor antibody (11C1) that recognizes a tumor-associated antigen which cross-reacts with the mouse mammary tumor virus-encoded envelope glycoprotein 52. Two Ab2, 2F10 and 3A4, induced idiotypes expressed by the monoclonal antitumor antibodies 11C1 and 2B2. Cytotoxic T cells, generated by immunization with irradiated tumor cells, lyse 2F10 and 3A4 hybridoma cells. Furthermore, immunization with Ab2 induces tumor-specific cytotoxic T lymphocytes. The frequency of tumor-reactive cytotoxic T lymphocyte was found to be similar in mice immunized with Ab2 or irradiated tumor cells when examined at the precursor level. However, only 2F10 induces protective immunity against the growth of L1210/GZL tumor cells. The depletion of a L3T4+ T cell population from 2F10 immune mice was found to increase the effectiveness of transferred T cells to induce inhibition of tumor growth. The inability of 3A4 to induce antitumor immunity could be correlated with the presence of a population of Lyt2+ regulatory T cells. Collectively, these results demonstrate the existence of a regulatory network controlling the expression of effective tumor immunity. Our results demonstrate that selection of binding site-related Ab2 may not be a sufficient criteria for the development of an idiotype vaccine. A better understanding of the regulatory interactions induced by anti-idiotypes is needed for the design of effective antitumor immunotherapy.     

Participation of L3T4 in T cell activation in the absence of class II major histocompatibility complex antigens. Inhibition by anti-L3T4 antibodies is a function both of epitope density and mode of presentation of anti-receptor antibody

The recognition of many class II major histocompatibility complex (MHC)-associated antigens by T cells requires the participation of the L3T4 molecule. It has been proposed that this molecule acts to stabilize low affinity binding to antigen in association with MHC and thereby increases the avidity of T cell/antigen interactions. By using antibodies against the T cell antigen receptor (TCR) to activate T cells, thereby circumventing the requirement for antigen presenting cells and MHC-associated antigen, we have been able to study the function of L3T4 in the absence of class II MHC. We have used two monoclonal antibodies, KJ16-133.18 and F23.1, that recognize a determinant encoded by the T cell receptor V beta 8 gene family. These antibodies were used to select two clones of T cells with surface phenotype Thy-1.2+, L3T4+, Lyt-2-, KJ16-133.18+, F23.1+, IA-, IE-. One of these clones (E9.D4) was hapten-specific (anti-ABA + Iak), the other (4.35F2) was alloreactive (anti-Iak). Activation of these clones by antigen, concanavalin A (Con A) or by the F23.1 antibody was studied by assaying the production of interleukin 3 (IL 3). Both soluble and solid phase-coupled F23.1 induced T cell activation in the complete absence of class II MHC, immobilized antibody (either Sepharose-coupled or plastic-adsorbed) being more effective. The induction of IL 3 production by suboptimal doses of either Con A or plastic-adsorbed F23.1 was inhibited by the anti-L3T4 antibody GK1.5, as was the response to F23.1 coupled to Sepharose-4B beads. However, the responses to optimal or superoptimal doses of these stimuli were not inhibited. In contrast, weak responses to non-TCR cross-linking stimuli such as phorbol myristate acetate (PMA) or low concentrations of soluble F23.1 were not inhibited by GK1.5 (the latter response was usually slightly enhanced). These results show that anti-L3T4 antibodies are not inherently inhibitory, but require both ligation and cross-linking of the TCR for their effect. We propose a model whereby L3T4 interacts with the TCR during T cell activation. Anti-L3T4 antibodies sterically hinder the formation of TCR complexes and so prevent activation. However, by increasing the epitope density of the activating ligand, the avidity of the T cell/ligand interaction can be increased sufficiently to prevent this disruption.(ABSTRACT TRUNCATED AT 400 WORDS)     

Analysis of T hybridomas prepared from a T cell clone with three specificities. Recognition of self + X and allo-H-2 determinants segregates from recognition of Mlsa determinants

To see k information on T cell recognition of Mlsa determinants, hybridomas were prepared from a well-characterized F23.2+ (V beta 8.2+) T cell clone specific for three different ligands, i.e., 1) Mlsa determinants, 2) fowl gamma-globulin (F gamma G) plus self-H-2 (H-2d), and 3) allo-H-2, e.g., H-2p, determinants. Fusion of the clone to the BW5147 thymoma line produced a triple-reactive T hybridoma which generated two types of spontaneous variants. One type of variant (type I) lost Mlsa reactivity but retained reactivity to both F gamma G/H-2d and allo-H-2p. These variants, which were generated at high frequency, stained strongly with a mAb, A1.57, with idiotypic specificity for the TCR molecules of the parental clone. The second type of variant (type II) reacted to Mlsa determinants but showed no reactivity to F gamma G/H-2d or to allo-H-2p. These variants failed to express the A1.57 idiotypic determinants of the parent clone, but were F23.2+ (V beta 8.2+); nonequilibrium pH gradient electrophoresis analysis suggested that these hybrids expressed a mixed TCR heterodimer composed of the parental clone beta-chain and the BW5147 alpha-chain. Three aspects of the data are very difficult to accommodate with the view that Mlsa, F gamma G, and allo-H-2 determinants are all recognized via a common TCR molecule: 1) the independent (and frequent) segregation of Mlsa reactivity from F gamma G/H-2d and allo-H-2p reactivity, 2) the retention of Mlsa reactivity by the type II variants despite loss of the parental clone alpha-chain, and 3) the loss of Mlsa reactivity by the type I variants despite high expression of the A1.57+ TcR molecules derived from the parental clone. The data support a model in which Mlsa determinants are recognized by a separate T cell structure, which we envisage as a monomorphic accessory molecule unrelated to the TCR. Since the type II hybridoma variants invariably retained quantitatively normal TcR expression, the triggering phase of anti-Mlsa responses appears to be TCR dependent. The model we favor is that anti-Mlsa/Mlsa interaction increases TCR binding with Ia epitopes to above the threshold required for cell triggering. A key feature of this model is that Mlsa and Ia determinants are recognized as separate structures rather than as a complex.     

Virus-lymphocyte interaction: T cells of the helper subset are infected with lymphocytic choriomeningitis virus during persistent infection in vivo.

The lifelong persistence of lymphocytic choriomeningitis virus (LCMV) in neonatally or congenitally infected mice is accompanied by a suppression of virus-specific T-cell responses. In this study, we identified the subset of T cells infected with LCMV during persistent infection in vivo. Using specific monoclonal antibodies to separate the different lymphocyte cell populations and employing both an infectious center assay and immunofluorescence to detect the virus, we found that infection is confined primarily to T cells of the helper subset (L3T4+ Lyt2-), with minimal involvement of cytotoxic T cells (Lyt2+ L3T4-) and mature B cells. About 0.54 to 1.1% of L3T4+ T cells were producing the virus, as determined by the infectious center assay. In contrast, 9.1 to 12.2% of these L3T4+ T cells contained viral antigen, as shown by immunofluorescence studies. This finding suggested that, at any given time, a substantial number of infected T cells were not producing infectious virus. This infection of T helper cells may be involved in the suppression of LCMV-specific T-cell responses observed in persistently infected mice.     

Mapping of SJL/J reticulum cell sarcoma tumor-associated Ia antigens by T cell hybridomas: characterization of tumor-specific and shared epitopes detected on IE+ allogeneic cells

Previous studies have suggested that reticulum cell sarcoma (RCS) tumor cells of SJL/J (IA + IE-) mice express neospecificities that are related to antigenic specificities characteristic of IE+ allogeneic cells. These neospecificities have also been suggested to play a role in the strong syngeneic antitumor proliferative response as well as in regulating RCS growth in vivo. The present studies characterize four RCS tumor-specific T cell hybridoma clones prepared from the fusion of BW5147 thymoma with T cells derived from lymph nodes of tumor-bearing mice. Upon stimulation, these hybridomas secrete IL 2 in the supernatant. Two hybridomas responded to RCS to IE+k and to IE+d allogeneic cells, respectively, and the other two hybridomas were tumor specific. The specificity of these hybridomas was assessed by response to both spontaneous and transplantable RCS lines and failure to stimulate a response by either normal or LPS-induced B cell blasts from the host SJL/J cells. The epitopes recognized by the T cell hybridomas were examined by the ability of several monoclonal antibodies to inhibit the IL 2-induced response by the T cell hybridomas. Antibodies directed against the IABs polypeptide of the IA hybrid molecule blocked the antitumor response by all four hybridomas. However, the response to allogeneic IE+ cells was not blocked by anti-IAs antibody but was blocked by antibodies directed against either the IAk,d or IEk,d hybrid molecules or the corresponding alpha- or beta-chains. The response to both RCS and allogeneic cells was blocked by monoclonal antibodies directed against L3T4 antigens on the T cells. Based on the exquisite specificity of the T cell receptors, the results here demonstrate that RCS tumor cells express on their surface both tumor-specific I-A-associated epitopes and Ia-associated antigenic specificities that are shared with IE+ allogeneic cells. The present studies of adapting T cell hybridomas and blocking antibodies proved useful to characterize and map distinct tumor-associated epitopes on the surface of tumor cells. These findings, when combined with structural studies, should help unravel the molecular complexity of tumor-associated antigens.     

Characterization and function of autoreactive T-lymphocyte clones isolated from normal, unprimed mice

Self-Ia-reactive cloned T-cell lines, designated PK, were established by long-term culture of T cells from normal DBA/2 mice with irradiated syngeneic splenic adherent cells (SAC), rich in macrophages and dendritic cells. The cell lines were Thy 1+, Lyt 1+, Lyt 2-, produced IL-2 following stimulation with syngeneic spleen cells, and did not exhibit alloreactivity when screened against six different H-2 haplotypes. Of the five cloned PK cell lines tested, four were I-Ed restricted while one was I-Ad restricted as determined by genetic mapping and blocking studies carried out with monoclonal anti-Ia sera. Extensive specificity studies suggested that the PK cells reacted to syngeneic Ia molecules alone and not to foreign antigens such as fetal calf serum (FCS) used in the culture medium, in association with self-Ia. SAC pulsed with FCS or other protein antigens such as turkey gamma-globulin (TGG) were tested for their ability to induce proliferation of autoreactive T cells and other antigen-specific T cells using culture conditions consisting of serumless medium and interleukin 2 (IL-2). The data showed that the autoreactive T cells proliferated better in response to antigen-unpulsed SAC, while FCS-specific and TGG-specific cell lines, developed independently, proliferated only in response to FCS- or TGG-pulsed SAC, respectively, but not to antigen-unpulsed SAC. These results clearly distinguished the autoreactive T-cell clones from the antigen-specific T-cell clones. Preliminary studies carried out to investigate the functions of autoreactive T cells suggested that these cells helped in the in vitro differentiation of alloantigen-specific cytotoxic T lymphocytes (CTL) from CTL precursors obtained from the thymus and augmented syngeneic, allogeneic, and antigen-specific immune responses in vitro. The autoreactive T cells were also capable of inducing both proliferation and differentiation of antigen-specific populations of B cells in the absence of antigen. The present investigation suggests that autoreactive, non-antigen-reactive T cells can be cloned from normal, unimmunized mice and that such cell lines may provide a powerful tool for analyzing the role of the syngeneic mixed lymphocyte reaction in induction and maintenance of both T-and B-cell immune responses.     

Structural characterization of a cross-reactive idiotype shared by monoclonal antibodies specific for the human CD4 molecule.

A panel of mouse monoclonal anti-CD4 antibodies was characterized in terms of idiotypic expression by using specific anti-idiotypic antibody (anti-Id) reagents generated in rabbits immunized with anti-Leu3a, a monoclonal anti-CD4 which inhibits the human immunodeficiency virus (HIV) gp120 binding to CD4. Direct binding and competitive inhibition assays demonstrate that the majority of monoclonal anti-CD4 antibodies able to recognize CD4 epitopes overlapping the epitope recognized by anti-Leu3a expressed an antigen-combining site-related cross-reactive idiotype (IdX). Western blot analysis was used to demonstrate that this IdX is associated primarily with the light (L) chain of the monoclonal anti-CD4 antibodies. To further characterize the structural basis of the IdX, the nucleotide sequence of the variable region of the L kappa chain of anti-Leu3a was determined. Peptides corresponding to the first, second, and third complementarity determining regions (CDRs) of the L chain of anti-Leu3a were synthesized and used to immunize rabbits. All anti-peptide antisera recognized the immunizing peptide, the cognate anti-Leu3a molecule, and several other monoclonal anti-CD4 antibodies by direct binding assays. Western blot analysis utilizing the anti-CDR peptide reagents demonstrates that the reactivity to the monoclonal anti-CD4 antibodies was L chain-specific. The anti-Id generated by immunizing with the intact anti-Leu3a molecule failed to recognize the three L chain-derived CDR synthetic peptides, suggesting that the IdX requires the presence of the three-dimensional configuration of the L chain for its expression. The broad range of reactivity exhibited by the antipeptide antisera indicates that the majority of mouse monoclonal anti-CD4 antibodies characterized in this study utilize L chains encoded by a single germ line variable (V) region kappa (V kappa) chain gene or by V kappa genes that belong to the same gene family.     

Monoclonal Antibodies to the [alpha]- and [beta]-Subunits of the Plant Mitochondrial F1-ATPase

We have generated nine monoclonal antibodies against subunits of the maize (Zea mays L.) mitochondrial F1-ATPase. These monoclonal antibodies were generated by immunizing mice against maize mitochondrial fractions and randomly collecting useful hybridomas. To prove that these monoclonal antibodies were directed against ATPase subunits, we tested their cross-reactivity with purified F1-ATPase from pea cotyledon mitochondria. One of the antibodies ([alpha]-ATPaseD) cross-reacted with the pea F1-ATPase [alpha]-subunit and two ([beta]-ATPaseD and [beta]-ATPaseE) cross-reacted with the pea F1-ATPase [beta]-subunit. This established that, of the nine antibodies, four react with the maize [alpha]-ATPase subunit and the other five react with the maize [beta]-ATPase subunit. Most of the monoclonal antibodies cross-react with the F1-ATPase from a wide range of plant species. Each of the four monoclonal antibodies raised against the [alpha]-subunit recognizes a different epitope. Of the five [beta]-subunit antibodies, at least three different epitopes are recognized. Direct incubation of the monoclonal antibodies with the F1-ATPase failed to inhibit the ATPase activity. The monoclonal antibodies [alpha]-ATPaseD and [beta]-ATPaseD were bound to epoxide-glass QuantAffinity beads and incubated with a purified preparation of pea F1-ATPase. The ATPase activity was not inhibited when the antibodies bound the ATPase. The antibodies were used to help map the pea F1-ATPase subunits on a two-dimensional map of whole pea cotyledon mitochondrial protein. In addition, the antibodies have revealed antigenic similarities between various isoforms observed for the [alpha]- and [beta]-subunits of the purified F1-ATPase. The specificity of these monoclonal antibodies, along with their cross-species recognition and their ability to bind the F1-ATPase without inhibiting enzymic function, makes these antibodies useful and invaluable tools for the further purification and characterization of plant mitochondrial F1-ATPases.