Death Receptor–Independent Activation-Induced Cell Death in Human Melanoma Antigen–Specific MHC Class I–Restricted TCR-Engineered CD4 T Cells

摘要

Engaging CD4 T cells in antitumor immunity has been quite challenging, especially in an Ag-specific manner, because most human solid tumors usually do not express MHC class II molecules. We have recently shown that human CD4 T cells engineered to express a human melanoma–associated antigenic epitope, MART-127–35, specific MHC class I–restricted transgenic TCR function as polyfunctional effectors that can exhibit a helper as well as cytolytic effector function, in an epitope-specific and MHC class I–restricted manner (Chhabra et al. 2008. J. Immunol . 181: 1063–1070; Ray et al. 2010. Clin . Immunol . 136: 338–347). TCR-engineered (TCReng) CD4 T cells therefore have translational potential, and clinical trials with MHC class I TCReng CD4 T cells are under way. In this study, we show that although TCReng CD4 T cells could be useful in cancer immunotherapy, they are also susceptible to epitope-specific activation-induced cell death (AICD). We also show that the AICD in TCReng CD4 T cells is a death receptor–independent process and that JNK and p53 play critical roles in this process as pharmacological inhibitors targeting JNK activation and p-53–mediated transcription-independent mitochondria-centric death cascade rescued a significant fraction of TCReng CD4 T cells from undergoing AICD without affecting their effector function. Our data offer novel insights toward AICD in TCReng CD4 T cells and identify several potential targets to interfere with this process.