Antiviral Cytotoxic T Cells Cross-Reactively Recognize Disparate Peptide Determinants from Related Viruses but Ignore More Similar Self- and Foreign Determinants

Abstract

We have investigated the reactivities of cytotoxic T (Tc) cells against the two immunodominant, H-2Kk-restricted determinants from the Flavivirus Murray Valley encephalitis virus (MVE), MVE1785 (REHSGNEI) and MVE1971 (DEGEGRVI). The respective Tc cell populations cross-reactively lysed target cells pulsed with determinants from the MVE1785- and MVE1971-corresponding positions of six other flaviviruses, despite low sequence homology in some cases. Notably, anti-MVE1785 Tc cells recognized a determinant (TDGEERVI) that shares with the determinant used for stimulation only the carboxyl-terminal amino acid residue, one of two H-2Kk anchor residues. These reactivity patterns were also observed in peptide-dependent IFN-γ production and the requirements for in vitro restimulation of memory Tc cells. However, the broad cross-reactivity appeared to be limited to flavivirus-derived determinants, as none of a range of determinants from endogenous mouse-derived sequences, similar to the MVE-determinants, were recognized. Neither were cells infected with a number of unrelated viruses recognized. These results raise the paradox that virus-immune Tc cell responses, which are mostly directed against only a few “immunodominant” viral determinants, are remarkably peptide cross-reactive.