Creating CTL targets with epitope-linked beta 2-microglobulin constructs.

Eliciting a strong CTL response is dependent upon displaying suitably high levels of specific class I MHC/peptide complexes at the cell surface. In an effort to enhance the presentation of defined CTL target structures, two unique peptide-linked beta 2-microglobulin (beta 2m) molecules were constructed. The first, designated NP(366-374)-L8-h beta 2m, links the carboxyl terminus of the H-2Db-restricted influenza nucleoprotein (NP) epitope NP(366-374) to the amino terminus of h beta 2m through an eight-amino acid glycine/serine linker. The second molecule, designated NP(147-155)-L12-h beta 2m, similarly couples the H-2Kd-restricted influenza NP epitope NP(147-155) to h beta 2m via a 12-residue polypeptide linker. Transfection of the NP(366-374)-L8-h beta 2m vector into H-2b-expressing cell lines sensitized these cells for lysis by NP(366-374)-specific CTLs. Free NP peptide could not be detected when class I bound peptides were acid-extracted from the surface of NP(366-374)-L8-h beta2m transfectants, indicating that CTL killing was mediated by recognition of the peptide linked to h beta 2m and not by a degradation by-product. CTL target structure formation was also achieved by an exogenous presentation pathway. H-2d-expressing target cells were sensitized for lysis when pulsed with NP(147-155)-L12-h beta 2m protein derived from an Escherichia coli cell lysate. The effect of recombinant NP(147-155)-L12-h beta 2m was inhibited by competitor wild-type h beta 2m, indicating that the active peptide-h beta 2m fusion protein remained intact. The observation that beta 2m with covalently attached peptide can effectively create CTL target structures in vitro offers new possibilities for the in vivo induction of epitope-specific CTL responses by either DNA immunization or injection of the purified epitope-linked beta 2m.