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Efficient N-Glycosylation of the Heavy Chain Tailpiece Promotes the Formation of Plant-Produced Dimeric IgA

Kathrin Göritzer, Iris Goet, Stella Duric, Daniel Maresch, Friedrich Altmann, Christian Obinger, Richard Strasser

2020Frontiers in Chemistry30 citationsDOIOpen Access PDF

Abstract

Production of monomeric IgA in mammalian cells and plant expression systems such as Nicotiana benthamiana is well established and can be achieved by co-expression of the corresponding light and heavy chains. In contrast, the assembly of dimeric IgA requires the additional expression of the joining chain and remains challenging especially in plant-based systems. Here, we examined factors affecting the assembly and expression of HER2 binding dimeric IgA1 and IgA2m(2) variants transiently produced in N. benthamiana. While co-expression of the joining chain resulted in efficient formation of dimeric IgAs in HEK293F cells, a mixture of monomeric, dimeric and tetrameric variants was detected in plants. Mass-spectrometric analysis of site-specific glycosylation revealed that the N-glycan profile differed between monomeric and dimeric IgAs in the plant expression system. Co-expression of a single-subunit oligosaccharyltransferase from the protozoan Leishmania major in N. benthamiana increased the N-glycosylation occupancy at the C-terminal heavy chain tailpiece and changed the ratio of monomeric to dimeric IgAs. Our data demonstrate that N-glycosylation engineering is a suitable strategy to promote the formation of dimeric IgA variants in plants.

Topics & Concepts

Nicotiana benthamianaGlycosylationGlycanChemistryMonomerProtein subunitN-linked glycosylationGlycoproteinTrimerBiochemistryStereochemistryGeneDimerPolymerOrganic chemistryTransgenic Plants and ApplicationsToxin Mechanisms and ImmunotoxinsMonoclonal and Polyclonal Antibodies Research