RAPID EFFECTOR FUNCTION IN CD8(-CELLS() MEMORY T)

The nature of the CD8(+) T cells that underlie antiviral protective im munological memory in vivo is unclear. We have characterized peptide-s pecific CD8(+) T lymphocytes directly ex vivo from peripheral blood in humans with past exposure to influenza virus, using single cell inter feron gamma (IFN-gamma) release as a measure of effector function. In individuals in the memory state with respect to influenza virus infect ion, unrestimulated antigen-specific CD8(+) T cells displayed IFN-gamm a release within 6 h of antigen contact, identifying a population of m emory memory CD8(+) T cells that exhibit effector function without nee ding to divide and differentiate over several days. We have quantified circulating CD8(+) effector T cells specific for six different MHC cl ass I-restricted influenza virus epitopes. Enumeration of these CD8(+) T cells gives frequencies of peptide-specific T cells that correlate with, but are in general severalfold higher than, CTL precursor freque ncies derived from limiting dilution analysis, indicating that this no vel population of memory CD8(+) T cells has hitherto been undetected b y standard means. The phenotype of these cells, which persist at a low frequency long after recovery from an acute viral infection, suggests that they play a role in protective immunological memory.