The Conformational Properties of the Glc3Man Unit Suggest Conformational Biasing within the Chaperone-assisted Glycoprotein Folding Pathway

A major puzzle is: are all glycoproteins routed through the ER calnexin pathway irrespective of whether this is required for their correct folding? Calnexin recognizes the terminal Glc alpha 1-3Man alpha. linkage, formed by trimming of the Glc alpha 1-2Glc alpha 1-3Glcu1-3Man alpha (Glc(3)Man) unit in Glc(3-)Man(9)GlcNAc(2). Different conformations of this unit have been reported. We have addressed this problem by studying the conformation of a series of N-glycans; i.e. Glc(3)ManOMe, GlC(3)Man(4,5,7)GlcNAc(2) and Glc(1)Mar(9)GlcNAc(2) using 2D NMR NOESY, ROESY, T-ROESY and residual dipolar coupling experiments in a range of solvents, along with solution molecular dynamics simulations of Glc(3)ManOMe. Our results show a single conformation for the Glc alpha 1-2Glc alpha and Glc alpha 1-3Glc alpha linkages, and a major (65%) and a minor (30%) conformer for the Glc alpha 1-3Man alpha linkage. Modeling of the binding of Glc(1)Man(9)GIcNAc(2) to calnexin suggests that it is the minor conformer that is recognized by calnexin. This may be one of the mechanisms for controlling the rate of recruitment of proteins into the calnexin/calreticulin chaperone system and enabling proteins that do not require such assistance for folding to bypass the system. This is the first time evidence has been presented on glycoprotein folding that suggests the process may be optimized to balance the chaperone-assisted and chaperone-independent pathways. (C) 2009 Elsevier Ltd. All rights reserved.