Discovery and characterization of hydroxylysine O-glycosylation in an engineered IL-2 fusion protein

In the present study, an engineered interleukin-2 (IL-2) fusion protein consisting of an anti-human serum albumin nanobody linked by ASTKG and a (G4S)2 linker to IL-2 was constructed. Liquid chromatography-mass spectrometry (LC-MS) characterization was performed on the intact molecule and at the peptide level. The LC-MS molecular mass analysis for the engineered fusion protein showed the appearance of unreported +340 Da peaks, apart from the expected O-glycosylation-related peaks in the IL-2 domain. Through a combination analysis of a K120R mutated molecule (The lysine at the position of 120 was mutated to arginine while the rest amino acid sequence remain unchanged), the possibility of a non-cleaved valine-histidine-serine signal peptide was ruled out and the presence of hydroxylysine (HyK) O-glycosylation in the ASTKG linker was confirmed. HyK O-glycosylation have been reported in other proteins such as collagen, which occurs in the conserved Gly-Xaa-HyK motif and is catalyzed by lysyl hydroxylase-3 complex. The present study showed high similar conserved motif of HyK-O-glycosylation in collagen, implying the HyK O-glycosylation in the engineered IL-2 possibly was catalyzed by the Chinese hamster ovary homolog of enzymes promoting HyK O-glycosylation in collagen. Bioactivity testing results revealed that HyK-O-glycosylation had no obvious effect on the in vitro activity of engineered IL-2. Our study is the first to report HyK-O-glycosylation modifications in therapeutic proteins through LC-MS characterization and in vitro activity analysis, which expands the scope of post-translational modification knowledge of therapeutic proteins.