Cytotoxic efficiency of human CD8+ T cell memory subtypes

Abstract

AbstractImmunological memory is an important concept to protect humans against recurring diseases. Memory CD8+ T cells are required for quick expansion into effector cells but also provide immediate cytotoxicity against their targets. Whereas many functions of the two main cytotoxic subtypes, effector memory CD8+ T cells (TEM) and central memory CD8+ T cells (TCM), are relatively well defined, single TEM and TCM cell cytotoxicity has not been quantified. Here, we analyze human CD8+ subtype distribution following SEA stimulation and quantify the expression of death mediators, including perforin, granzyme B, FasL and TRAIL. We find higher perforin, granzyme B and FasL expression in TEM and compared to TCM. To quantify single TEM and TCM cytotoxicity, we develop a FRET-based fluorescent assay with NALM6 target cells stably transfected with a GFP-RFP FRET construct based on a caspase-cleavage sequence (apoptosis sensor Casper-GR). Applying this assay, TEM or TCM induced target cell apoptosis or necrosis can be quantified. We find that single TEM are much more effective than TCM in killing their targets mainly by apoptosis and secondary necrosis. The reason for this is the higher perforin expression and on a more efficient lytic immunological synapse during TEM-target contact compared to TCM-target contact. Defining and quantifying single TEM and TCM cytotoxicity and the respective mechanism should be helpful to optimize future subset-based immune therapies.