Investigating the effect of linker peptides on the fragmentation of Fc-fusion proteins in transient gene expression of mammalian cells

Abstract

Protein fragmentation is a critical quality attribute for Fc-fusion protein production in mammalian cells. In the production of viral non-structural proteins as the form of Fc-fusion protein, fragmentation of Fc-fusion proteins occurred in two transient gene expression (TGE) systems with human embryonic kidney (HEK) 293 and Chinese hamster ovary (CHO) cells. The introduction of a flexible empirical linker reduced fragmentation in HEK293 cells, but not in CHO cells. Additionally, two rigid empirical linkers failed to restore impaired Fc-fusion proteins in CHO cells. In vitro incubation assay using conditioned culture medium and cultures supplemented with protease inhibitor cocktail suggest that fragmentation of Fc-fusion proteins in CHO cells may be due to various host cell proteins released into the culture medium. These findings suggest that the introduction of linker peptides can improve the fragmentation of Fc-fusion proteins in mammalian cells, but exhibit different fragment patterns depending on the cell type.