Title : Expression and glycoengineering of functionally active heteromultimeric
IgM in plants
Abstract :
- IgM antibodies are an important player of the human's innate defense mechanisms and increasingly have gained interest as therapeutics
- Although the expression of IgM antibodies in mammalian cell culture is established, this approach remains costly and alternative methods have not been developed yet
- Plants have a proven record for the production of therapeutically relevant recombinant proteins
- However, whether they are able to express proteins like IgM antibodies, which range among the most complex human proteins , remains unknown so far
- Here we report the in planta generation of the functionally active monoclonal antitumor IgM PAT-SM6 (SM6)
- SM6 efficiently accumulates in plant leaves and assembles correctly into heterooligomers (pentamers and hexamers)
- Detailed glycosylation analysis exhibited complex and oligomannosidic N-glycans in a site-specific manner on human-serum IgM and on plant- and human-cell-line-produced SM6
- Moreover, extensive in planta glycoengineering allowed the generation of SM6 decorated with sialylated human-type oligosaccharides, comparable to plasma-derived IgM
- A glycosylated model of pentameric IgM exhibits different accessibility of the glycosylation sites , explaining site-specific glycosylation
- Biochemical and biophysical properties and importantly biological activities of plant-derived SM6 glycoforms are comparable to the human-cell-derived counterparts
- The in planta generation of one of the most complex human proteins opens new pathways toward the production of difficult-to-express proteins for pharmaceutical applications
- Moreover, the generation of IgMs with a controlled glycosylation pattern allows the study of the so far unknown contribution of sugar moieties to the function of IgMs
Output (sent_index, trigger,
protein,
sugar,
site):
- 8. sialylated, , -, sialylated human-type oligosaccharides, -
- 9. glycosylation, , -, -, sites
Output(Part-Of) (sent_index,
protein,
site):
*Output_Site_Fusion* (sent_index,
protein,
sugar,
site):