Thymic repertoire selection by superantigens: presentation by human and mouse MHC molecules.

The initial report of T cell receptor (TCR) V beta-specific thymic selection in mice showed association with expression of H-2E molecules and affected V beta 17a T cells which were present in CD4+8+ double positive thymocytes but deleted from the CD4+ and CD8+ single positive populations. Similar deletions were subsequently reported for V beta 8.1+ and V beta 6+ T cells in Mls-1a mouse strains and for V beta 3+ T cells in Mls-2a/3a strains. The 'Mls antigens' are most effectively presented by H-2E molecules but certain alleles of H-2A molecules can also present these endogenous superantigens. Expression of Mls antigens can cause both V beta-specific thymic deletion and stimulation of peripheral T cells from Mls-negative strains. Another category of 'Mls-like' antigens cause only V beta-specific thymic deletion in H-2E+ strains, affecting V beta 5+ and V beta 11+ T cells. The non-MHC ligands responsible for each of these effects are superantigens analogous to the exogenous bacterial superantigens, which also show TCR V beta-specific stimulatory effects when presented by MHC class II positive antigen-presenting cells. The genes encoding endogenous superantigens in mice were shown to co-segregate with mouse mammary tumour virus integrations (Mtv) and to be the Mtv-LTR orf genes. In vitro translation of Mtv-LTR orf genes identified their products as type II integral membrane glycoproteins with the polymorphic C terminus outside the cell. These polymorphisms correlate with specificity for the different TCR V beta chains. Virtually all TCR V beta-specific negative selection in the mouse thymus can be accounted for by the expression of Mtv or MMTV (the infectious counterparts of Mtv proviral integrants) LTR-orf proteins, presented with H-2E or certain H-2A alleles. It is unlikely that TCR V beta-specific positive selection is due to endogenous superantigens since it does not segregate with Mtv genomes. In humans, HLA-DR molecules appear to be homologous with H-2E in mice whereas HLA-DQ are the homologues of H-2A. H-2E negative mice transgenic for HLA-DR alpha chain express a mouse/human heterodimeric molecule which presents Mtv superantigens causing TCR V beta-specific deletion. Such trans-species class II molecules are also effective in TCR V beta-specific positive selection of V beta 2+, V beta 6+ and V beta 10+ T cells. Taken together, these results show that human MHC class II molecules can interact with the murine T cell repertoire.(ABSTRACT TRUNCATED AT 400 WORDS)