Antigen presentation by rat brain and retinal endothelial cells.

Brain and retinal endothelial cells (EC) form the blood-brain and vascular blood-retinal barriers, respectively, and are believed to play a role in mediating T cell responses in the central nervous system. In this study, Lewis rat retinal and brain EC grown in vitro were capable of expressing MHC class II I-A but not I-E molecules following treatment with interferon-gamma. In the presence of their antigen, CD4+ antigen-specific T cells were able to mediate lysis of retinal EC monolayers to a similar extent as brain EC. T cell proliferation was poorly supported by confluent retinal or brain EC monolayers, but subconfluent EC monolayers supported proliferation in a MHC class II (I-A)-restricted manner (P < 0.001). Exposure of T cells to confluent retinal EC monolayers resulted in them becoming less responsive to subsequent antigen presentation by thymocytes. Conversely, pre-exposure with subconfluent EC had no such effect. These results suggest that a non-proliferating EC monolayer is able to downregulate T cell responsiveness which may have important implications during lymphocyte traffic across the blood-tissue barriers of the central nervous system.