Restricted expression of transgenic HLA-DRA gene in thymic epithelial cells and its role in acquisition of T cell tolerance to self-superantigens and processed DR alpha-derived peptide.

We have established a set of transgenic mouse lines in which the HLA-DRA gene was expressed in different cell types. In one line (DR alpha-24), DR alpha E beta b molecules were expressed on thymic medullary and cortical epithelial cells and all lineages of bone marrow-derived antigen-presenting cells (APC) except for thymic macrophages. By contrast, expression of the molecules in another line (DR alpha-30) was found on thymic medullary and cortical epithelial cells but not on bone marrow-derived APC in the thymus and periphery. To evaluate the role of thymic epithelial cells in acquisition of T cell tolerance, comparative analysis of DR alpha-24 and DR alpha-30 was performed. In DR alpha-30, T cells expressing TcR V beta 5 and V beta 11 were eliminated to comparable levels to those in DR alpha-24, suggesting that expression of the DR alpha E beta b molecules on thymic epithelial cells are sufficient for clonal deletion of the self-superantigen-reactive T cells. In addition, CD4+ T cells from DR alpha-30 as well as those from DR alpha-24 were tolerant to DR alpha-derived peptide/I-Ab complex expressed on spleen cells from DR alpha-24 even in the presence of exogenous interleukin-2. These observations suggest that expression of the DR alpha chain in thymic epithelial cells could induce T cell tolerance directed toward naturally processed DR alpha-derived peptide bound to I-Ab molecules, probably via clonal deletion of the self-reactive T cells.