Generation of CD1 tetramers as a tool to monitor glycolipid–specific T cells

CD1 molecules are β2m–associated HLA class–I–like glycoproteins which have the unique ability to present glycolipid and phospholipid antigens to specific T lymphocytes. To study the biology of CD1 and its role in human disease we developed novel techniques for generation of recombinant CD1/lipid complexes by in vitro refolding. Fluorescent tetrameric complexes made from soluble recombinant CD1d/α–galactosylceramide complexes allowed highly sensitive and specificex vivoandin vitrodetection and functional characterization of novel human T–lymphocyte populations. Furthermore, protein crystals were obtained from soluble recombinant CD1b/β2m–proteins loaded either with phosphatidylinositol or ganglioside GM2, which led to the first atomic structure determination of a CD1/lipid complex. The analysis of these crystal structures clarified how CD1b molecules can bind lipid ligands of different size, and revealed a broader spectrum of potential CD1b ligands than previously predicted.