Involvement of both T cell receptor Vα and Vβ variable region domains and α chain junctional region in viral antigen recognition

Abstract

We have studied the lymphocytic choriomeningitis virus (LCMV)‐specific cytotoxic T cell response in transgenic mice expressing either the T cell receptor (TcR) α (V_α2/J_αTA31) or the corresponding TcR β (V_β8.1/D_β/J_β2.4) chain originally isolated from the LCMV glyconrotein specific (residues 32–42), H‐2D^b‐restricted T cell clone P14. The expression of single transgenic TcR chains did not influence the corresponding endogenous TcR V gene usage in unstimulated T cells indicating that one particular TcR α or β chain can randomly pair with different V_β or V_α chains without any obvious bias. However, upon infection with LCMV, reactive cytotoxic T lymphocytes (CTL) from P14 β‐transgenic mice were predominantly Vα2⁺ whereas CTL from P14 α‐transgenic mice preferentially expressed V_β8.1 and unexpectedly also V_β8.3 (but not V_β8.2). Correspondingly the LCMV‐specific CTL response in both α and β TcR‐transgenic mice was strongly biased to the original P14 T cell epitope (LCMV glycoprotein residues 32–42). Sequence analysis of a large panel of LCMV‐reactive “half‐transgenic” TcR from P14 single receptor chain‐transgenic mice revealed a highly conserved VJ_α and a more diverse VDJ_β junctional region. This report demonstrates that the antigen specificity of the studied TcR depends on the specific combination of both TcR α and β chains which implies that amino acids located in the TcR V_α and V_β segments as well as in the junctional region are involved in binding of the viral antigenic fragment.