Abstract

A series of well-defined N-glycosylated IgG4-Fc variants were utilized to investigate the effect of glycan structure on their physicochemical properties (conformational stability and photostability) and interactions with an Fc γ receptor IIIA (FcγRIIIA). High mannose (HM, GlcNAc2Man(8+n) [n= 0-4]), Man5 (GlcNAc2Man5), GlcNAc1, and N297Q IgG4-Fc were prepared in good quality. The physical stability of these IgG4-Fc variants was examined with differential scanning calorimetry and intrinsic fluorescence spectroscopy. Photostability was assessed after photoirradiation between 295 and 340 nm (λ max= 305 nm), and HPLC-MS/MS analysis of specific products was performed. The size of glycans at Asn297 affects the yields of light-induced Tyr side-chain fragmentation products, where the yields decreased in the following order: N297Q > GlcNAc1 > Man5 > HM. These yields correlate with the thermal stability of the glycoforms. The HM and Man5 glycoforms display increased affinity for FcγRIIIA by at least 14.7-fold compared with GlcNAc1 IgG4-Fc. The affinities measured for the HM and Man5 IgG4-Fc (0.39-0.52 μM) are similar to those measured for fucosylated IgG1. Dependent on the mechanisms of action of IgG4 therapeutics, such glycoforms may need to be carefully monitored. The nonglycosylated N297Q IgG4-Fc did not present measurable affinity to FcγRIIIA.

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