Production and characterization of cloned T-cell hybridomas that are responsive to Rickettsia conorii antigens.

T-cell hybridomas produced by the fusion of Rickettsia conorii immune T cells to the AKR thymoma BW 5147 produced interleukin-2 when stimulated with the antigens of three different R. conorii strains. One cloned hybridoma responded only to R. conorii antigens, whereas a second and third cloned hybridoma also responded to the antigens of Rickettsia rickettsii Sheila Smith and Rickettsia sibirica 246, respectively. Antigen responses required antigen-presenting cells, and this interaction was major histocompatibility complex restricted. Fluorescence-activated cell-sorter analysis demonstrated that all three hybridomas were of the Thy-1.2+, Lyt-2- phenotype and that two of the three were L3T4+. These data demonstrated the presence of an antigenic epitope that is R. conorii species specific and other epitopes that are common to various members of the spotted fever group which can stimulate interleukin-2 production by T-cell hybridomas.     

Involvement of tumour necrosis factor-alpha-related apoptosis-inducing ligand in enhanced cytotoxicity of lipopolysaccharide-stimulated dendritic cells to activated T cells

Dendritic cells (DC) are potent antigen-presenting cells (APC) specialized in T-cell mediated immune responses, and also play critical roles in the homeostasis of T cells for controlling immune responses. In the present study, we demonstrated that during mouse bone-marrow-derived DC activation of ovalbumin (OVA)-specific Ia-kb-restricted T hybridoma cells, MF2.2D9 and OVA257-264-specific H-2kb-restricted RF33.70 T cells, respectively, both hybridomas undergo cell death, partially mediated via apoptotic ligand-tumour necrosis factor-alpha (TNF-alpha)-related apoptosis-inducing ligand (TRAIL). Lipopolysaccharide enhanced the cytotoxic effect on the two activated T hybridoma cells, which was correlated with up-regulation of TRAIL-expression on DC to some extent. The activation of caspase-3 in activated T hybridoma cells cocultured with DC contributed to the programmed cell death pathway T cells underwent. Therefore, our results show that activation-induced cell death of T hybridoma cells can be influenced by DC, suggesting that DC may be involved in elimination of activated T cells at the end of primary immune responses.     

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)     

Construction of rat-mouse T-cell hybridomas that constitutively produce rat IL-2

We have established rat-mouse T-cell hybridomas that constitutively produce rat Interleukin-2 (IL-2). T-cell hybridomas cannot be boosted to a higher level of IL-2 production by Con A stimulation. IL-2 prepared from T-cell hybridomas and from Con A activated rat spleen cells was partially purified using Ultrogel AcA 54 chromatography and ion exchange chromatography on Mono Q or chromatofocusing on Mono P. When analyzed on Mono P, IL-2 activity derived from IA2-B10 T-cell hybridoma eluted as a single peak with pH range 6.9-7.1, whereas IL-2 derived from Con A activated spleen cells resolved into four peaks within the following pH range: 7.1-7.2, 6.5-6.6, 6.1-6.2, and 5.6-5.7. Neuraminidase-treated IL-2 derived from Con A activated spleen cells resolved into single peaks appearing in the pH range 7.1-7.2. In contrast, neuraminidase treatment did not change the elution profile of IL-2 derived from the IA2-B10 hybridoma. IL-2 activity derived from the 3D6-B1 T-cell hybridoma also eluted as a single peak with the pH range 7.1-7.2. Neuraminidase treatment did not change the elution profile of IL-2. These data demonstrate that heterogeneity of IL-2 might be due to differences in the degree of glycosylation of IL-2 and differences in the sources of T-cells from which the IL-2 has derived.     

Preparation and characterization of a "pan-reactive" rabbit anti-mouse T-cell receptor antiserum

A pan-reactive xenoantiserum to the mouse T-cell receptor was prepared by immunization of a rabbit with affinity purified mouse T-cell receptor material. The T-cell receptor of the chicken ovalbumin/IAd specific T-cell hybridoma, DO-11.10, was isolated by affinity chromatography using the clone-specific monoclonal antibody, KJ1-26. Immunoprecipitation with the rabbit antiserum and subsequent SDS-PAGE analysis of the material precipitated from lysates of surface radioiodinated T cells revealed the heterodimeric structure characteristic of the T-cell receptor from virtually every T-cell source examined. Flow cytofluorometric analysis of normal peripheral T cells and mature thymocytes of BALB/c and SJL mice indicated that most all T cells bear antigenic determinants recognized by the rabbit anti-mouse T-cell receptor antibodies. The AKR thymoma, BW5147, a common fusion parent used to generate functional T-cell hybridomas, notably lacks surface expression of a T-cell receptor molecule.     

In vitro regulation of thyroglobulin (Tg) autoantibody production by Tg-specific T-cell lines and hybridomas.

To define the interactions between self thyroglobulin (Tg)-reactive T and B we co-cultured enriched B cells taken from rat or mouse Tg-primed mice with major histocompatibility complex (MHC) class II-restricted T-cell lines specific for iodinated determinants on self-Tg, or hybridomas derived from those lines. Using two clonally distinct T-cell hybridomas, ADA2 and CH9, in vitro help for Tg autoantibody responses was observed using mouse (M)Tg-primed B cells and a 100 ng/ml MTg challenge. Using rat Tg-primed B cells and the same conditions, only CH9 provided help, indicating that the fine specificity of B cells influences their ability to interact with specific anti-Tg T-cell clones. In contrast to T-cell hybridomas, their parent T-cell lines MTg9B3 and MTg12B suppressed Tg autoantibody responses in vitro, although they augmented bystander proliferation of unprimed B cells. The MTg12B cells also (i) diminished the survival of Tg-primed B cells, and (ii) inhibited the proliferation of an antigen-presenting B-cell hybridoma (LK35.2) in a cytostasis assay. These findings together support the view that their suppressive activity is mediated through cytotoxicity. While the role of class II-restricted cytotoxic cells in thyroid autoimmunity is unknown, the results suggest that such cells may act to suppress autoantibody responses as well as to mediate tissue damage to class II-expressing thyroid cells.     

Generation of a T-cell hybridoma producing a contrasuppressor factor for contact sensitivity.

C3H/HeN mice were immunized to induce contrasuppressor T-cell (Tcs) activity, splenic T cells from these mice were fused with the BW5147 thymoma, and the resulting hybridomas were tested for their ability to produce a contrasuppressor T-cell factor (TcsF). Nine TcsF-producing hybridomas were preliminarily identified by their ability to inhibit the effect of antigen-specific suppressor T-cell factor (TsF) on the adoptive transfer of contact sensitivity. One of these hybrids, AF5.C6, was cloned, the production of a contrasuppressor factor confirmed, and the high-titred TcsF produced by this cloned hybrid characterized. Hybridoma-derived TcsF is antigen-specific and specifically binds its antigen, but does not bear immunoglobulin (Ig) determinants. Thus, hybridoma-derived TcsF is serologically and functionally identical to an antigen-specific contrasuppressor factor for contact sensitivity, whose production from splenocyte cell cultures has previously been described. The generation of a hybridoma secreting a contrasuppressor factor identical to that produced by spleen cells significantly strengthens the hypothesis that the phenomenon of T-cell contrasuppression is mediated by a specific subset of cells whose activity is contrasuppressive. The further advantages of employing T-cell hybridomas for functional, biochemical and molecular genetic analyses of contrasuppression are also discussed.     

The role of autoreactive T-cell hybridomas from autoimmune model mice.

Autoreactive IL-2-producing T-cell hybridomas were established from New Zealand Black and White (B/W) F1 and MRL/1 mice. In B/WF1 mice the frequency of IL-2-producing hybridomas increased with age. It is necessary for the cells to recognize autologous MHC molecules in order to release IL-2. Inoculation of hybridoma cells into several mouse strains via the footpad produced significant swelling responses in an H-2-restricted manner. Finally, several autoimmune abnormalities were induced in naive H-2-compatible mice by i.v. inoculation of certain hybridoma cells. These results demonstrate that self-MHC molecule recognition by T cells plays an important role in the development of autoimmunity.     

Immunotherapy of experimental arthritis. Analysis of the articular cartilage of mice suppressed for collagen-induced arthritis by a T-cell hybridoma.

The present study elucidates the suppression of collagen-induced arthritis (CIA) by T-suppressor cells through the analysis of the joints and articular cartilage of mice suppressed for CIA by a T-cell hybridoma. T-cell hybridomas (T101N and T104B1) were derived from the somatic cell fusion of splenic and thymic cells of mice suppressed for CIA and the AKR BW 5147 thymoma cell line. CIA mice administered 1 X 10(5) T101N hybridoma cells intravenously were observed to have reduced hind paw pathology scores as well as reduced edema, compared with CIA mice or CIA mice administered 1 X 10(5) cells of a control T-cell hybridoma, T104B1. The hind paw articular cartilage of joints from mice with CIA administered T101N cells resembled normal joint architecture in histologic staining and alignment of articular cartilage surfaces. The histopathology observed in joints of mice administered T104B1 hybridoma cells resembled that of CIA mice with large pannus formation, fibrous bridging of the joint, soft-tissue metaplasia, and joint disorganization. The data indicate that specific T-cell hybridoma cell lines can modulate the joint histopathology observed in CIA to resemble the joint architecture of noninflammatory joints.     

The preparation of interferon gamma-producing T-cell hybridomas from jacalin-stimulated T lymphocytes and the SH9 T-cell line.

Jacalin, a lectin(s) extracted from the seeds of Artocarpus integrifolia (Jackfruit), was shown to induce the production of gamma interferon (IFN gamma) in human peripheral blood mononuclear cells (PBMC) and human T-lymphocyte cultures. The amount of IFN gamma produced was enhanced in the presence of mezerein, a phorbol ester derivative. Fusion of jacalin stimulated T lymphocytes with the SH9 T-cell line resulted in the formation of T-cell hybridomas which spontaneously secreted IFN gamma. The spontaneous production of IFN gamma by T-cell hybridomas was not influenced by the presence of jacalin, although significant enhancement of production was observed when the cells were cultured in the presence of mezerein.     

Functional analysis of Histoplasma capsulatum-reactive T-cell hybridomas.

Activation of CD4+ T cells is a crucial step in the elimination of Histoplasma capsulatum yeast cells from tissues. However, only a limited amount of information exists concerning the immunobiology of H. capsulatum-reactive T cells that are CD4+. To facilitate the analysis of the functional activities of this T-cell subpopulation, we developed a panel of 10 murine T-cell hybridomas from splenocytes of immune C57BL/6 mice. All hybridomas reacted with monoclonal anti-CD4+ antibody and released interleukin-2 after stimulation with histoplasmin. Within 3 weeks, the reactivity of hybridomas to histoplasmin declined dramatically, yet the cells responded vigorously to yeast-phase preparations that were enriched for cytosol, cell wall, or cell membrane. Of 10 hybridomas studied, only one recognized heterologous fungal antigens. Responsiveness to yeast-phase antigens was restricted by I-Ab. We mapped determinants in cytosol and cell wall or cell membrane by the technique of one-dimensional T-cell immunoblotting. The patterns of responses of hybridomas to cytosol were nearly uniform. All hybridomas responded to two immunodominant regions in cytosol with masses ranging from less than or equal to 18 to 26 kilodaltons (kDa) and 35 to 39 kDa. All hybridomas tested responded to determinants in the cell wall or cell membrane preparation with masses of 35 to 39 kDa. These hybridomas provide a useful tool for defining yeast-phase antigens that trigger T-cell activation.     

Autoreactive T-cell response to resting or activated B cells.

Cloned autoreactive T-cell lines and hybridomas have been selected in many laboratories. A number of observations have suggested that activation of Ia-positive stimulators may be required for optimal induction of an autoreactive response. We have examined the ability of small resting B cells fractionated by centrifugal elutriation to stimulate the proliferative response of seven cloned autoreactive T-cell lines. Of these, six were efficiently stimulated by resting B cells. One I-Ed-specific Th2-type T-cell clone failed to be stimulated by resting B cells. This clone did, however, respond to this same cell fraction following lipopolysaccharide (LPS) activation. An independent I-E-specific Th2 clone was stimulated by resting B cells. It appears, therefore, that a requirement for activated stimulators is not a general property of either autoreactive T cells or the Th2 helper T-cell subset.     

Drug interaction with T-cell receptors: T-cell receptor density determines degree of cross-reactivity

BACKGROUND: Immune-mediated adverse reactions to drugs are often due to T-cell reactivity, and cross-reactivity is an important problem in pharmacotherapy. OBJECTIVE: We investigated whether chemical inert drugs can stimulate T cells through their T-cell receptor (TCR) and analyzed the cross-reactivities to related compounds. METHODS: We transfected human TCRs isolated from two drug-reactive T-cell clones (TCCs) by PCR into a TCR-negative mouse T-cell hybridoma. The TCCs were isolated from a patient with drug hypersensitivity to the antibacterial sulfonamide sulfamethoxazole (SMX). RESULTS: The transfectants reacted to SMX only in the presence of antigen-presenting cells (APCs). Glutaraldehyde-fixed APCs, however, were sufficient to elicit T-cell stimulation, indicating a processing-independent direct interaction of the drug with the TCR and MHC molecule. The transfected hybridomas secreted IL-2 in a drug dose-dependent manner, whereas the degree of reactivity was dependent on the level of TCR expression. One transfectant reacted not only to SMX but also to related sulfonamide compounds. Interestingly, high TCR expression increased cross-reactivity to other structurally related compounds. In addition, SMX-specific TCR cross-reacted only with sulfonamides bearing a sulfanilamide core structure but not with sulfonamides such as celecoxib, furosemide, or glibenclamide. CONCLUSIONS: These results demonstrate that the T-cell reactivity to drugs is solely determined by the TCR. Moreover, these results show that cross-reactivity of structurally similar compounds correlates with the density of the TCR. Stably transfected T-cell hybridomas may represent a powerful screening tool for cross-reactivity of newly generated sulfonamide-containing compounds such as celecoxib.     

Antigen-reactivity pattern of T-cell hybridomas from Mycobacterium bovis BCG-infected mice.

Lymph node cells from mice infected with live Mycobacterium bovis BCG were fused with BW5147 cells after short-term culturing in vitro. Both mycobacterium- and self-reactive T-cell hybridomas were identified. Some T-cell hybridoma clones displayed dual reactivity to self and to self plus mycobacterial antigen but did so to a different degree, indicating that infection with mycobacteria stimulates autoreactive immune responses.     

Class II-restricted bifunctional T-cell hybridomas reactive to self- and foreign myelin basic protein.

To study the cross-reactivity and functional properties oF murine T cells specific for myelin basic protein (MBP), a panel of 15 interleukin-2(IL-2)-releasing T-cell hybridomas was produced from SJL/J mice immunized either with human MBP or alternatively with a peptide corresponding to the known encephalitogenic sequence for SJL/J mice at positions 89-106. Hybridomas were I-As-restricted and activated by an MBP challenge as low as 20 nM. Cross-reactivity to other MBP indicated at least three immunodominant specificities for xenogeneic determinants, which could be further subdivided on the basis of antigen-independent reactivity to allogeneic stimulator cells. In addition, two self-specificities were demonstrated, one of which was to a determinant outside the 89-106 region. Irrespective of specificity pattern (self or foreign), all hybridomas effected antigen-dependent cytotoxicity of an antigen-presenting B-cell hybridoma (LS-102.9), which was mediated by cell contact or at close range. These findings suggest an approach to identifying new autoantigenic epitopes on MBP, and to studying T-cell-mediated effector pathways in myelin autoimmunity.     

Permissive recognition of a mycobacterial T-cell epitope: localization of overlapping epitope core sequences recognized in association with multiple major histocompatibility complex class II I-A molecules.

Most T-cell epitopes are recognized in the context of a single or limited number of major histocompatibility complex (MHC) class II molecules. We have shown previously, however, that the immunodominant p61-80 epitope from the Mycobacterium tuberculosis 19,000 MW protein is recognized in a genetically permissive manner. In this study, permissive recognition of p61-80 was analysed in three murine MHC haplotypes (H-2b,d and k) with respect to: (i) T-cell-epitope core structure; (ii) I-A/I-E class II MHC restriction; and (iii) the identification of critical amino acid residues within the core region. Overlapping epitope core sequences composed of 6 to 8 amino acids were identified for each of the three H-2 haplotypes by T-cell epitope scanning (PEPSCAN) using peptide-specific T-cell lines. The epitope core sequences recognized by peptide and 19,000 MW protein-specific T cells were similar. In all three haplotypes, responses to p61-80 were restricted by class II MHC I-A molecules. To identify residues within the epitope core critically required for recognition, single substitution (alanine or leucine) analogue peptides were tested for their capacity to stimulate p61-80-specific T-cell hybridomas. A heterogeneous pattern of reactivity was observed, even among individual hybridomas derived from the same H-2 haplotype. Although every core residue could be defined as critical for at least one hybridoma, only one critical substitution (74Val-->Ala) was common to all hybridomas. The identification and structural analysis of genetically permissive epitopes of mycobacteria may be a useful strategy for the rational design of peptide-based vaccines for tuberculosis.     

T-cell hybridomas from HLA-transgenic mice as tools for analysis of human antigen processing

The study of antigen processing and presentation by human antigen presenting cells (APC) has been limited by difficulties of producing and maintaining human T-cell clones. Murine T-cell hybridomas have advantages for detecting specific peptide-MHC complexes on APC. Human antigen-specific immortalized T-cell lines have not been successfully produced. We report and validate the use of transgenic mice with human MHC genes for HLA-A2, DR1 and DR4 to produce murine T-cell hybridomas that are restricted to human HLA alleles and respond to human macrophages, dendritic cells (DC), and B-cell lines. Hybridomas restricted by human MHC-I and -II specific for influenza matrix protein, tetanus toxoid, diphtheria antigen CRM(197), and various M. tuberculosis antigens were produced. Epitope specificity was determined for several hybridomas. T hybridomas recognized peptide-MHC complexes on fixed APC for analysis of kinetics or susceptibility to inhibitors of antigen processing. T hybridomas restricted by human MHC represent convenient and powerful tools for the study of antigen processing by human APC.     

Disaccharides generated from heparan sulphate or heparin modulate chemokine-induced T-cell adhesion to extracellular matrix

We have found previously that disaccharides (DS) enzymatically generated from heparin or heparan sulphate can modulate tumour necrosis factor-alpha (TNF-alpha) secretion from immune cells in vitro and cell-mediated immune reactions in vivo. Here, we show that such DS can modulate the adhesion and migration of human T cells. We found that certain heparin- and heparan sulphate-derived DS induced, in a dose-dependent manner, the adhesion of human T cells to both extracellular matrix (ECM) and immobilized fibronectin (FN); maximal T-cell adhesion occurred with 1 ng/ml of DS. The levels of T-cell adhesion to ECM that were induced by the tested DS molecules resembled those induced by the prototypic chemokine, macrophage inflammatory protein 1beta (MIP-1beta). However, the kinetics of DS-induced T-cell adhesion to FN resembled that induced by phorbol myristate acetate (PMA), but not that induced by MIP-1beta. This adhesion appeared to involve beta1 integrin recognition and activation, and was associated with specific intracellular activation pathways. Although a first exposure of T cells to certain DS molecules appeared to result in cell adhesion, a subsequent exposure of T cells to pro-adhesive chemokines, such as MIP-1beta or RANTES, but not to other pro-adhesive stimuli, for example interleukin-2 or CD3 cross-linking, resulted in inhibition of T-cell adhesion to and chemotactic migration through FN. Hence, we propose that the breakdown products of tissues generated by inflammatory enzymes are part of an intrinsic functional programme, and not necessarily molecular waste. Moreover, because the DS molecules exert their modulatory functions within a limited time, it appears that the historical encounters of the tissue-invading cells with the constituents of inflamed loci may dictate the cells' behaviour upon subsequent exposure to proinflammatory mediators.     

Molecular characterization of U937-dependent T-cell co-stimulation

U937 cells provide a co-stimulatory signal for CD3-mediated T-cell activation which is independent of the CD28/CD80/CD86 interaction. This study set out to identify which molecules contribute to this co-stimulatory activity. Monoclonal antibodies (mAb) to the known accessory molecules CD11a, CD18, CD54 and CD45, all inhibited T-cell proliferation. Although CD11a/18 mAb inhibited U937/T-cell cluster formation as well as proliferation, CD45 enhanced the size of the clusters formed, suggesting that this was not the only mechanism of inhibition. The alternative co-stimulatory pathway provided by U937 cells preferentially stimulated a response in the CD18+ T-cell population, and this reflected the reduced sensitivity of CD8+ T cells to CD28-mediated activation. Monoclonal antibodies to three molecules, CD53, CD98 and CD147, also inhibited U937-dependent T-cell proliferation. The mAb to CD98 and CD147 were inhibitory when prepulsed on to the U937 cells, suggesting an effect mediated by these molecules on the antigen-presenting cell.