CD1a is expressed on Langerhans cells (LCs) and dendritic cells (DCs), where it mediates T cell recognition of glycolipid and lipopeptide antigens that contain either one or two alkyl chains. We demonstrate here that CD1a-restricted T cells can discriminate the peptide component of didehydroxymycobactin lipopeptides. Structure analysis of CD1a cocrystallized with a synthetic mycobactin lipopeptide at 2.8 A resolution further reveals that the single alkyl chain is inserted deep within the A' pocket of the groove, whereas its two peptidic branches protrude along the F' pocket to the outer, alpha-helical surface of CD1a for recognition by the TCR. Remarkably, the cyclized lysine branch of the peptide moiety lies in the shallow F' pocket in a conformation that closely mimics that of the alkyl chain in the CD1a-sulfatide structure. Thus, this structural study illustrates how a single chain lipid can be presented by CD1 and that the peptide moiety of the lipopeptide is recognized by the TCR.

CD1 antigens bind a variety of self and foreign lipid and glycolipid antigens for presentation to CD1-restricted T cell receptors (TCRs). Here we report the crystal structure of human CD1a in complex with a sulfatide self antigen at a resolution of 2.15 A. The lipid adopts an S-shaped conformation, with the sphingosine chain completely buried in the A' pocket and the fatty acid chain emerging from the interface of the A' pocket into the more exposed F' pocket. The headgroup is anchored in the A'-F' junction and protrudes into the F' pocket for TCR recognition. Because the A' pocket is narrow with a fixed terminus, it can act as a molecular 'ruler' to select alkyl chains of a particular length.

The CD1 human antigens are a family of at least three components, CD1a, CD1b, and CD1c, that are characteristic of the cortical stage of thymocyte maturation. CD1a was originally named HTA1 or T6 and thought to be the human equivalent of mouse Tla. The genes coding for all three have now been identified by transfection into mouse cells. The transfectants express the surface antigens that can then be recognized by the corresponding cluster of monoclonal antibodies used to define the three members of CD1. The full sequence of the genomic DNA is described for all three. The intron-exon structure of CD1a is deduced by comparison with a near-full-length cDNA clone. Similar structures are proposed for the other two, largely based on sequence homology. An unusually long 5'-untranslated exon (280 bases long) is highly conserved between the three genes, suggesting an important but unknown function. CD1c has a duplicated form of this exon that is thought to be spliced out. The major homology between the three antigens is in the beta 2-microglobulin-binding domain. The general relatedness to major histocompatibility complex class I and class II molecules is significant but low, with no section of higher homology to mouse Tla.