Cellular and peptide requirements for in vitro clonal deletion of immature thymocytes

The balance between deletion and activation of CD4+8+ thymocytes is controlled by T cell receptor-antigen interactions and is affected by cyclosporin A

The sensitivity of immature thymocytes to antigen-induced deletion has been shown to correlate with their differentiation status. By using an in vitro approach we have investigated whether parameters of antigenic stimulation may also affect the response of thymocytes. Two T cell receptor (TcR)-transgenic (Tg) mouse models have been compared, both of which recognize the allo-antigen H-2Kb but are functionally CD8"-dependent" (KB5.C20-Tg) and "-independent" (BM3.3-Tg). Presentation of the antigen H-2Kb on the surface of fibroblasts; to thymocytes in vitro, resulted in the apoptosis of CD4+8+ thymocytes. In contrast to in vivo deletion, in vitro deletion was much greater for KB5.C20-Tg than for BM3.3-Tg. In the absence of engagement of CD8 (using an altered H-2Kb-alpha 3 domain or CD8-specific antibodies), the H-2Kb-induced deletion of CD4+8+ thymocytes was decreased for KB5.C20-Tg, but no change in the pattern of deletion for BM3.3-Tg occurred. CD4+8+ thymocytes which remained viable after in vitro exposure to antigen, were shown to have been activated. Cyclosporin A (CsA), which has been reported to inhibit activation-induced cell death, did not affect antigen-induced deletion of CD4+8+ thymocytes from KB5.C20-Tg. More strikingly, deletion of CD4+8+ thymocytes from BM3.3-Tg increased, whilst activation was partially inhibited by CsA. These results provide direct evidence that presentation of antigen to thymocytes can result in deletion or activation, depending on not only the differentiation status of the cell, but also parameters of TcR-antigen interaction. Additionally, the effects of CsA suggest that activation can prevent the induction of deletion.

Dose-dependent T cell tolerance to an immunodominant self peptide

We have previously described a model of tolerance to self peptides in a mouse transgenic (Tg) line producing secreted hen egg-white lysozyme (HEL). The HEL cDNA was placed under the control of a ubiquitous promoter expressed early in embryogenesis, so that HEL should be present in Tg mice throughout the development of the immune system. Since individual HEL Tg mice express different amounts of serum HEL, we were previously able to show that H-2d mice with HEL blood level > 10 ng/ml are tolerant to HEL and to the immunodominant (ID) peptide 108-116. However, autoreactive T lymphocytes recognizing the HEL subdominant (SD) peptides 74-96 and 1-18 still persist and the SD-specific response disappear at higher blood HEL concentrations. In the present work, we have studied HEL Tg H-2d mice with HEL serum levels < 10 ng/ml (HEL-low Tg animals). We find that 50% of Tg animals with HEL blood concentration < 2 ng/ml are responsive to HEL in T cell proliferation assays, although these responses are lower than those seen in non-Tg control mice. The HEL-specific T lymphocytes react only with 15-mer overlapping peptides encompassing the single H-2d ID region of HEL (residues 102-122); whereas the 9-mer minimal ID peptide 108-116, which strongly triggers non-Tg T cells, is unable to stimulate auto-reactive T cells in vitro from HEL-low Tg mice. Altogether, our results suggest that T lymphocytes specific for the minimal ID peptide are deleted or inactivated, while T cell clones of lower affinity and reacting with epitopes on longer peptides persist. Thus, the high affinity ID peptide-specific T cell clones can be negatively selected even in the presence of low amounts of HEL.

Positive selection of self- and alloreactive CD8+ T cells in Tap-1 mutant mice

Mice with a homozygous deletion in their Tap-1 gene (-/- mice) express very low levels of cell membrane major histocompatibility complex class I molecules and have < 1% peripheral CD8+ T cells. We show that these -/- mice but not their +/- littermates display strong primary syngeneic anti-H-2Kb and -Db-specific responses mediated by CD8+ T cells. These responses are augmented by in vivo priming. Further, -/- mice primed in vivo with H-2d alloantigens generate an anti-H-2d response which appears nearly as strong as that found in +/- littermates. Both -/- anti-H-2b and anti-H-2d T cells do not recognize target cells from Tap-1 -/- animals or Tap-2-deficient RMA-S cells. Thus, some CD8+ anti-self and alloreactive T cells can be selected in the absence of Tap proteins.

Negative selection of CD4+ CD8+ thymocytes by T-cell receptor peptide antagonists

Antigen-induced activation of T cells can be specifically inhibited by antigen analogs that have been termed T-cell receptor peptide antagonists. These antagonists appear to act by inducing the formation of nonstimulatory or partially stimulatory complexes between T-cell receptors and the major histocompatibility complex molecules presenting the peptides. Herein, we have investigated the effect of T-cell receptor peptide antagonists on thymocyte negative selection. First, peptide antagonists were identified for the cytochrome c-specific T-cell clone AD10. These peptides were then tested for their ability to induce negative selection in an in vitro model system using thymocytes from mice transgenic for the AD10 T-cell receptor. Though unable to induce mature T-cell activation, the T-cell receptor peptide antagonists induced deletion of CD4+ CD8+ thymocytes. These results suggest that negative selection of CD4+ CD8+ thymocytes can be induced by T-cell receptor interactions of a lower affinity than those required for mature T-cell activation.

Differential expression of APO-1 on human thymocytes: implications for negative selection?

Negative selection during T cell ontogeny involves selective induction of apoptosis in thymocytes. In peripheral lymphoid cells, apoptosis may be mediated via the APO-1 pathway. Here we report that APO-1 is constitutively expressed on the vast majority of human thymocytes but down-regulated at a mature stage of thymocyte development (TCR(hi)). This stage of development is characterized by CD28hi, CD44hi, CD69hi and up-regulation of Bcl-2 protein. We define a new thymocyte subpopulation that expresses high levels of APO-1 and intermediate levels of T cell receptor alpha/beta (TCR(im)/APO-1hi). The TCR(im)/APO-1hi population contains a large fraction of dead cells, suggesting that the APO-1 pathway may be involved in negative selection of at least a fraction of thymocytes after intrathymic activation.

Early degenerate selection of thymocytes by class I major histocompatibility complex

Ontogeny of T cells is accomplished in the thymus by a process of positive selection, in which interaction of the T cell receptor (TcR) expressed on CD4+8+ thymocytes with self major histocompatibility complex (MHC), expressed on cortical epithelial cells, determines the progress along the maturation pathway and confers self restriction to T cells. Conversely, cells behaving as self reactive by interaction with bone marrow-derived antigen-presenting cells are negatively selected by apoptosis. We show here that the presence of a class I-restricted soluble TcR (sTcR) in the fetal thymic microenvironment, early in T cell ontogeny, determines an enhanced negative selection of a sizeable number of CD4+8+ thymocytes, which have been previously subjected to a positive-selection event. We hypothesize that the generation of the mature thymic T cell repertoire stems from an interaction of TcR, under a critical affinity threshold, with a self peptide-MHC complex which is common to a great number of TcR specificities using the same restriction element. A shift in this affinity threshold, caused by sTcR, results in the generation of cells acting in a self-reactive manner, which are then deleted. In extended fetal thymus organ culture in the presence of sTcR, we have also observed the appearance of mature CD8+ T cells, which once adoptively transferred to syngeneic nude mice are expanded in the periphery, consistent with an enhanced avidity of these cells for self MHC.

Negative selection of CD4+CD8+ thymocytes by T cell receptor-induced apoptosis requires a costimulatory signal that can be provided by CD28

CD4+CD8+ thymocytes expressing self-reactive T cell antigen receptors (TCR) are deleted in the thymus as a consequence of TCR/self-antigen/major histocompatibility complex interactions. However, the signals that are necessary to initiate clonal deletion have not yet been clarified. Here we demonstrate that TCR engagement does not efficiently induce apoptosis of CD4+CD8+ thymocytes, although it generates signals that increase expression of CD5, a thymocyte differentiation marker. In fact, TCR signals fail to induce thymocyte apoptosis even when augmented by simultaneous engagement with CD4 or lymphocyte function 1-associated molecules. In marked contrast, signals generated by engagement of both TCR and the costimulatory molecule CD28 potently induce apoptosis of CD4+CD8+ thymocytes. Thus, the present results define a requirement for both TCR and costimulatory signals for thymocyte apoptosis and identify CD28 as one molecule that is capable of providing the necessary costimulus. These results provide a molecular basis for differences among cell types in their ability to mediate negative selection of developing thymocytes.

In vitro negative selection of alpha beta T cell receptor transgenic thymocytes by conditionally immortalized thymic cortical epithelial cell lines and dendritic cells

We have established conditionally immortalized thymic cortical epithelial cell lines from transgenic mice carrying a temperature-sensitive SV40 large T antigen. One of these cell lines expresses cortical markers and produces IL-1 alpha, IL-6, IL-7, and TGF-beta 1. These cells express class I major histocompatibility complex (MHC) constitutively and class II MHC upon induction with IFN-gamma. The cells appear to have a normal class I antigen presenting pathway since messages for both peptide transporter genes (TAP1, TAP2) were detected. The ability of these cortical epithelial cells to present peptide antigen was compared to that of thymic dendritic cells. In suspension culture with alpha beta T cell receptor (TcR) transgenic thymocytes, these epithelial cells and dendritic cells (pre-pulsed with peptide cognate for the transgenic TcR) caused down-regulation of CD4, CD8, and TcR in an antigen dose-dependent and MHC-restricted manner. CD4dullCD8dull cells were taken as evidence for negative selection because these cells contained apoptotic DNA. Concentration of peptide required for negative selection of thymocytes was similar between dendritic cells and cortical epithelial cells. In contrast, alpha beta TcR transgenic spleen cells were activated only by dendritic cells but not by cortical epithelial cells.

Autoimmune gld mutation uncouples suicide and cytokine/proliferation pathways in activated, mature T cells

Antigen receptor-directed suicide plays an important role in the elimination of potentially autoaggressive immature T cells during thymic differentiation. Here we demonstrated evidence for a second pathway of receptor-directed suicide in mature T cells that is missing in a mutant strain (gld) of mice with an "autoimmune" lymphoproliferative syndrome. The defect is evident within the gld activated T cell and does not require the presence of an antigen-presenting cell for its expression. Receptor-driven suicide is intact in immature T cells of animals with this mutation. These results support the significance of receptor-directed suicide in the mature T cell compartment and suggest that the immune system may use three independent pathways for regulating programmed cell death in shaping and controlling the immune response.

Tolerance induction by clonal deletion of CD4+8+ thymocytes in vitro does not require dedicated antigen-presenting cells

The cellular requirements of T cell tolerance induction in the thymus by clonal deletion was investigated by using an in vitro assay: thymocytes from mice expressing a transgenic TcR specific for lymphocytic choriomeningitis virus (LCMV) and H-2Db were co-cultured with various H-2b cell types as antigen-presenting cells in the presence of the antigenic LCMV peptide. The results revealed that all cell lines examined including embryonic and transformed fibroblasts, melanoma cells, cortical thymic epithelial cells, lymphomas and neuronal cells induced an antigen dose-dependent deletion of CD4+8+ thymocytes. Similarly, highly enriched accessory cell populations from thymus and spleen (macrophages, dendritic and cortical epithelial cells, i.e. thymic nurse cells) could induce antigen-specific depletion of immature CD4+8+ thymocytes. Depending on the cell type examined micromolar to picomolar concentration of LCMV peptide were required to induce deletion. The effectiveness of deletion by the different cell types did not correlate with their major histocompatibility class I expression level; it was, however, influenced by the presence of ICAM-1 adhesion molecules.

No requirement for p56lck in the antigen-stimulated clonal deletion of thymocytes

Activation of protein-tyrosine kinases (PTKs) is required for signal transduction during T cell activation, although the pathway used during thymic selection is unknown. An in vitro system was established in which T cell receptor transgenic thymocytes underwent clonal deletion in response to peptide antigen. The effects of two PTK-specific inhibitors, herbimycin A and genistein, on the clonal deletion of immature thymocytes and the activation of mature thymocytes were examined. Clonal deletion occurred while T cell activation was inhibited and when no p56lck activity was evident. Thus, p56lck is not required for the antigen-stimulated step of clonal deletion of immature thymocytes, and negative selection proceeds via a distinct pathway.