Orientation of Bound Ligands in Mannose-binding Proteins

Kenneth K.-S. Ng, Anand R. Kolatkar, Shaun Park-Snyder, Hadar Feinberg, Damon A. Clark, Kurt Drickamer, William I. Weis
2002 Journal of Biological Chemistry  
Mannose-binding proteins (MBPs) are C-type animal lectins that recognize high mannose oligosaccharides on pathogenic cell surfaces. MBPs bind to their carbohydrate ligands by forming a series of Ca 2؉ coordination and hydrogen bonds with two hydroxyl groups equivalent to the 3-and 4-OH of mannose. In this work, the determinants of the orientation of sugars bound to rat serum and liver MBPs (MBP-A and MBP-C) have been systematically investigated. The crystal structures of MBP-A soaked with
more » ... ccharides and disaccharides and also the structure of the MBP-A trimer cross-linked by a high mannose asparaginyl oligosaccharide reveal that monosaccharides or ␣1-6-linked mannose bind to MBP-A in one orientation, whereas ␣1-2or ␣1-3-linked mannose binds in an orientation rotated 180°around a local symmetry axis relating the 3-and 4-OH groups. In contrast, a similar set of ligands all bind to MBP-C in a single orientation. The mutation of MBP-A His 189 to its MBP-C equivalent, valine, causes Man␣1-3Man to bind in a mixture of orientations. These data combined with modeling indicate that the residue at this position influences the orientation of bound ligands in MBP. We propose that the control of binding orientation can influence the recognition of multivalent ligands. A lateral association of trimers in the cross-linked crystals may reflect interactions within higher oligomers of MBP-A that are stabilized by multivalent ligands.
doi:10.1074/jbc.m200493200 pmid:11850428 fatcat:5lzujztdmvbttpdxd53tegpr6i