Structural Basis for Recognition of High Mannose Type Glycoproteins by Mammalian Transport Lectin VlP36.

VIP36 functions as a transport lectin for trafficking certain high man nose type glycoproteins in the secretory pathway. Here we report the crystal structure of VIP36 exoplasmic/luminal domain comprising a carbohydrate recognition domain and a stalk domain. The structures of VIP36 in complex with Ca2+ and mannosyl ligands are also described. The carbohydrate recognition domain is composed of a 17-stranded antiparallel a-sandwich and binds one Ca2+ adjoining the carbohydrate-binding site. The structure reveals that a coordinated Ca2+ ion orients the side chains of Asp131, Asn166, and His190 for carbohydrate binding. This result explains the Ca2+-dependent carbohydrate binding of this protein. The Man-α-1,2-Man-α-1,2-Man, which corresponds to the D1 arm of high mannose type glycan, is recognized by eight residues through extensive hydrogen bonds. The complex structures reveal the structural basis for high man-nose type glycoprotein recognition by VIP36 in a Ca2+dependent and D1 arm-specific manner. [ABSTRACT FROM AUTHOR]