Rationale We report the N‐glycosylation pattern of Sf9 insect cell‐derived recombinant spike proteins being developed as candidate vaccine antigens for SARS‐CoV‐2 (COVID‐19) (Sanofi). The method has been optimised to produce… Click to show full abstract
Rationale We report the N‐glycosylation pattern of Sf9 insect cell‐derived recombinant spike proteins being developed as candidate vaccine antigens for SARS‐CoV‐2 (COVID‐19) (Sanofi). The method has been optimised to produce peptides with single, isolated glycosylation sites using multiple protease digests. The development and use of glycopeptide libraries from previous developmental phases allowed for faster analysis than processing datasets from individual batches from first principles. Methods Purified spike proteins were reduced, alkylated, and digested with proteolytic enzymes. Three different protease digests were utilised to generate peptides with isolated glycosylation sites. The glycopeptides were then analysed using a Waters Q‐TOF while using a data‐dependent acquisition mass spectrometry experiment. Glycopeptide mapping data processing and glycan classification were performed using Genedata Expressionist via a specialised workflow that used libraries of previously detected glycopeptides to greatly reduce processing time. Results Two different spike proteins from six manufacturers were analysed. There was a strong similarity at each site across batches and manufacturers. The majority of the glycans present were of the truncated class, although at sites N61, N234, and N717/714 high mannose structures were dominant and at N1173/1170 aglycosylation was dominant for both variant proteins. A comparison was performed on a commercially available spike protein and our results were found to be similar to those of earlier reports. Conclusions Our data clearly show that the overall glycosylation pattern of both spike protein variants was highly similar from batch to batch, and between materials produced at different manufacturing facilities. The use of our glycopeptide libraries greatly expedited the generation of site‐specific glycan occupancy data for a large glycoprotein. We compared our method with previously obtained data from a commercially available insect cell‐derived spike protein and the results were comparable to published findings.
               
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