Tetramer binding and secretion of interferon-gamma in response to antigenic stimulation are compatible with a range of affinities of MHC:TCR interaction and distinct programs of cytotoxic T-lymphocyte activation.

Tetramer staining and detection of IFN-gamma secretion in response to specific stimulation are widely used to quantify and isolate specific T-cells. However, it remains unclear how these assays reflect different functional outcomes of T-cell triggering with MHC:peptide ligands. An immunogenic EBV-derived A11-restricted CTL peptide epitope and its partially agonistic analogue trigger different programs of activation induced cell death (AICD) in specific CTLs. In this study we analysed a panel of CTL clones, bulk CTL cultures and PBMCs isolated from HLA A11-positive EBV-infected individuals for their ability to bind tetrameric complexes assembled with either of the two peptides and correlated tetramer binding with the activity of the peptides in functional assays. This analysis demonstrates that specific tetramer staining and secretion of IFN-gamma are compatible with at least two activation programs in CTLs. One of these programs corresponds to full-scale CTL activation and death of a proportion of activated T-cells in a Fas-dependent manner. In contrast, the alternative program is characterized by selective induction of IFN-gamma and TNF-alpha, absence of proliferative response and Fas-independent cell death. These findings may have important implications for the evaluation of data obtained with MHC:peptide tetramers and IFN-gamma secretion assays, especially in experimental systems with extensive antigenic variability.