Galectin-3 Interactions with Glycosphingolipids
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Galectins have essential roles in pathological states including cancer, inflammation, angiogenesis and microbial infections. Endogenous receptors include members of the lacto- and neolacto-series glycosphingolipids present on mammalian cells and contain the tetrasaccharides lacto-N-tetraose (LNT) and lacto-N-neotetraose (LNnT) that form their core structural components and also ganglio-series glycosphingolipids. We present crystallographic structures of the carbohydrate recognition domain of human galectin-3, both wild type and a mutant (K176L) that influenced ligand affinity, in complex with LNT, LNnT and acetamido ganglioside a-GM3 (!2,3-sialyllactose). Key structural features revealed include galectin-3's demonstration of a binding mode towards gangliosides distinct from that to the lacto/neolacto-glycosphingolipids, with its capacity for recognising the core "-galactoside region being challenged when the core oligosaccharide epitope of ganglio-series glycosphingolipids (GM3) is embedded within particular higher-molecular-weight glycans. The lacto- and neolacto- glycosphingolipids revealed different orientations of their terminal galactose in the galectin-3-bound LNT and LNnT structures that has significant ramifications for the capacity of galectin-3 to interact with higher-order lacto/neolacto-series glycosphingolipids such as ABH blood group antigens and the HNK-1 antigen that is common on leukocytes. LNnT also presents an important model for poly-N-acetyllactosamine-containing glycans and provides insight into galectin-3's accommodation of extended oligosaccharides such as the poly-N-acetyllactosamine-modifiedN- andO-glycans that, via galectin-3 interaction, facilitate progression of lung and bladder cancers, respectively. These findings provide the first atomic detail of galectin-3's interactions with the core structures of mammalian glycosphingolipids, providing information important in understanding the capacity of galectin-3 to engage with receptors identified as facilitators of major disease.
Journal of Molecular Biology
Structural Biology (incl. Macromolecular Modelling)