T-cell-based antigen-specific immunotherapy targeting tumour-associated antigens offers the potential for cancer immunotherapy. However, the majority of identified tumour-associated antigens are also expressed at low levels in normal tissues and mechanisms of tolerance induction are likely to affect the quality of T-cell responses to such antigens. In this study a T-cell receptor transgenic model was developed to determine the magnitude of T-cell tolerance to the tumour-associated antigen murine double minute-2 (MDM2), a widely expressed protein that is found at elevated levels in many tumours. The analysis of transgenic mice showed that thymic deletion was responsible for purging large numbers of MDM2-specific T cells from the repertoire. However, some T cells with specificity for MDM2 were able to escape thymic deletion and persisted in the peripheral T-cell pool. Functional analysis revealed that these T cells displayed defects in antigen-driven expansion. This functional impairment of the MDM2-specific T cells was maintained following adoptive transfer of the T cells into hosts that were unable to present the T-cell-receptor-recognized antigen. This study demonstrates that thymic deletion and the functional impairment of T cells present in the periphery both operate to establish T-cell tolerance to the tumour-associated antigen MDM2. Furthermore, the tolerant phenotype was stable and did not require continuous MDM2 peptide presentation in normal tissues.
|Number of pages||7|
|Publication status||Published - Jul 2008|