Biology of T memory type 1 cells.

Engagement of inhibitory natural killer (NK) cell receptors for MHC class I molecules (NKR) can impair NK-cell activation programs. Inhibitory NKR thus confer to NK cells the capacity to discriminate between MHC class I+ and MHC class I- target cells, and are therefore involved in the control of NK-cell tolerance to self, as well as in the elimination of MHC class I- distressed cells by NK cells. In human and mouse, a subset of alphabeta T cells also express inhibitory NKR at their surface, but the biological function of inhibitory NKR on T cells remains to be precisely elucidated. We refer to these cells as T memory type 1 (Tm1) cells, and review here the phenotypic and functional features of this subset of memory-phenotype CD8+ alphabeta T cells. In vitro studies suggest that inhibitory NKR are involved in the peripheral control of T-cell self-tolerance. In vitro and in vivo analysis have revealed a novel biological function for inhibitory NKR when expressed on T cells. Indeed, engagement of inhibitory NKR on T cells provides them with survival signals against activation-induced cell death. Thus, sensing of self-MHC class I molecules by inhibitory NKR displayed on alphabeta T cells leads to the in vivo accumulation of Tm1 cells.

Involvement of inhibitory NKRs in the survival of a subset of memory-phenotype CD8+ T cells.

Inhibitory natural killer receptors (NKRs) such as killer cell immunoglobulin-like receptors (KIRs) in humans and Ly49 molecules in mice are expressed on NK cells and recognize multiple major histocompatibility (MHC) class I proteins. In humans and mice, a subset of CD8+ T cells also expresses NKRs and harbors a memory phenotype. Using mice that are transgenic for KIR2DL3 and its cognate HLA-Cw3 ligand, we show that engagement of inhibitory NKRs selectively drives the in vivo accumulation of a subset of memory-phenotype CD8+ T cells that express the beta chain of the interleukin 2 receptor. In vitro, recognition of MHC class I molecules by inhibitory NKRs on T cells down-regulated activation-induced cell death. These results unveil an MHC class I-dependent pathway that promotes the survival of a subset of memory-phenotype CD8+ T cells and also reveal an unexpected biological function for inhibitory NKRs on T cells.