Abstract
Langerin mediates the carbohydrate-dependent uptake of pathogens by Langerhans cells in the first step of antigen presentation to the adaptive immune system. Langerin binds to an unusually diverse number of endogenous and pathogenic cell surface carbohydrates, including mannose-containing O-specific polysaccharides derived from bacterial lipopolysaccharides identified here by probing a microarray of bacterial polysaccharides. Crystal structures of the carbohydrate-recognition domain from human langerin bound to a series of oligomannose compounds, the blood group B antigen, and a fragment of β-glucan reveal binding to mannose, fucose, and glucose residues by Ca2+ coordination of vicinal hydroxyl groups with similar stereochemistry. Oligomannose compounds bind through a single mannose residue, with no other mannose residues contacting the protein directly. There is no evidence for a second Ca2+-independent binding site. Likewise, a β-glucan fragment, Glcβ1–3Glcβ1–3Glc, binds to langerin through the interaction of a single glucose residue with the Ca2+ site. The fucose moiety of the blood group B trisaccharide Galα1–3(Fucα1–2)Gal also binds to the Ca2+ site, and selective binding to this glycan compared to other fucose-containing oligosaccharides results from additional favorable interactions of the nonreducing terminal galactose, as well as of the fucose residue. Surprisingly, the equatorial 3-OH group and the axial 4-OH group of the galactose residue in 6SO4–Galβ1–4GlcNAc also coordinate Ca2+, a heretofore unobserved mode of galactose binding in a C-type carbohydrate-recognition domain bearing the Glu-Pro-Asn signature motif characteristic of mannose binding sites. Salt bridges between the sulfate group and two lysine residues appear to compensate for the nonoptimal binding of galactose at this site.
Highlights
Langerhans cells found in the epidermis of the skin and in the epithelium of mucosal tissues take up and process antigens from invading pathogens for presentation to T cells and have a critical role in the adaptive immune response
Langerhans cells are characterized by the presence of langerin (CD207), a C-type lectin that can act as a pathogen receptor by binding to surface glycoconjugates of microorganisms
A previous glycan array analysis has revealed three classes of high-affinity ligands for langerin: high-mannose N-linked oligosaccharides, the fucose-containing blood group B trisaccharide, and glycans terminating in sulfated galactose residues.[7]
Summary
Langerhans cells found in the epidermis of the skin and in the epithelium of mucosal tissues take up and process antigens from invading pathogens for presentation to T cells and have a critical role in the adaptive immune response. Langerin has an extracellular region that contains (1) a C-type carbohydrate-recognition domain (CRD) that binds sugars and (2) a neck region that mediates the formation of trimers.[6] Langerin recognizes pathogens by binding to high-mannose structures on viral envelope glycoproteins and to mannan and β-glucan structures on fungal cell walls.[1,2,5,7] Glycan array analysis has shown that langerin binds to oligosaccharides bearing the blood group B antigen Galα1–3(Fucα1–2)Gal and to 6-sulfated galactosides and high-mannose N-linked oligosaccharides.[2,7,8] As in other C-type lectins, the CRD of langerin contains a conserved Ca2+ binding site that binds to carbohydrates.[9] The Ca2+ forms direct coordination bonds with vicinal hydroxyl groups on the sugars, which form hydrogen bonds with amino acid side chains that are Ca2+ ligands.[10]
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