Photo-induced fragmentation of tyrosine side chains in IgG4-Fc: Effect of protein sequence, conformation and glycan structure

Abstract

This account summarizes recent work on photo-induced side chain cleavage reactions of Tyr in IgG4-Fc. These processes are initiated via photo-ionization of Trp to a Trp radical cation, followed by one-electron oxidation of Tyr to a Tyr radical cation, where fragmentation of the Cα-Cβ bond leads to an intermediary glycyl radical. The latter converts into Gly via hydrogen atom transfer, or into various backbone cleavage products subsequent to the addition of oxygen. Site-directed mutation of Trp381 to Phe381 significantly reduces the yields of Tyr side chain cleavage products, underlining a critical role of Trp for these reactions. Likewise, conformational changes of IgG4-Fc induced by increasing contents of 1-propanol in the solution diminishes the yields of Tyr side chain cleavage products. Variations of the glycan structure at Asn297 had an effect on Tyr side chain cleavage, where larger glycan structures led to lower yields. This result is in interesting contrast to Trp side chain cleavage in IgG1-Fc, where larger glycan structures led to higher yields. The opposite trends for Trp and Tyr side chain cleavage as a function of glycan structure are consistent with a connection between the precursors for both reactions, radical cations of Trp and Tyr, related by electron transfer. The potential significance of these reactions for protein integrity in formulations of pharmaceutical proteins will be discussed.