Artur Mitterer scite author profile

Protein chemical characterization of A1PI showed that all A1PI products to some extent differ from A1PI circulating in human plasma. Bioinformatic analysis indicated that removal of C-terminal Lys394 and cysteinylation of Cys232 are unlikely to affect structure and/or function of A1PI but cysteinylation may influence interaction between A1PI and its physiologic ligands. Aralast, Prolastin, and Zemaira contain the same set of N-glycans in the same ratios as those in normal human plasma A1PI. Tri- and tetraantennary structures are responsible for the partitioning into IEF isoforms, with the migration shift of Aralast not being due to any difference in the N-glycosylation, but to the partial loss of the C-terminal lysine.

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Differences in N-glycosylation of recombinant human coagulation factor VII derived from BHK, CHO, and HEK293 cells

Böhm¹,

Seyfried²,

Dockal³

et al. 2015

BMC Biotechnol

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Background & MethodsRecombinant factor VII (rFVII), the precursor molecule for recombinant activated FVII (rFVIIa), is, due to its need for complex post translational modifications, produced in mammalian cells. To evaluate the suitability of a human cell line in order to produce rFVII with post-translational modifications as close as possible to pdFVII, we compared the biochemical properties of rFVII synthesized in human embryonic kidney-derived (HEK)293 cells (HEK293rFVII) with those of rFVII expressed in Chinese hamster ovary (CHO, CHOrFVII) and baby hamster kidney (BHK, BHKrFVII) cells, and also with those of plasma derived FVII (pdFVII), using various analytical methods. rFVII was purified from selected production clones derived from BHK, CHO, and HEK293 cells after stable transfection, and rFVII isolates were analyzed for protein activity, impurities and post-translational modifications.Results & DiscussionThe analytical results showed no apparent gross differences between the various FVII proteins, except in their N-linked glycosylation pattern. Most N-glycans found on rFVII produced in HEK293 cells were not detected on rFVII from CHO and BHK cells, or, somewhat unexpectedly, on pdFVII; all other protein features were similar. HEK293rFVII glycans were mainly characterized by a higher structural variety and a lower degree of terminal sialylation, and a high amount of terminal N-acetyl galactosamines (GalNAc). All HEK293rFVII oligosaccharides contained one or more fucoses (Fuc), as well as hybrid and high mannose (Man) structures.ConclusionsFrom all rFVII isolates investigated, CHOrFVII contained the highest degree of sialylation and no terminal GalNAc, and CHO cells were therefore assumed to be the best option for the production of rFVII.Electronic supplementary materialThe online version of this article (doi:10.1186/s12896-015-0205-1) contains supplementary material, which is available to authorized users.

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Artur Mitterer

Effect of Multimerization of Human and Recombinant Von Willebrand Factor on Platelet Aggregation, Binding to Collagen and Binding of Coagulation Factor Viii

Biochemical, molecular characterization, and glycoproteomic analyses of α₁‐proteinase inhibitor products used for replacement therapy*

Differences in N-glycosylation of recombinant human coagulation factor VII derived from BHK, CHO, and HEK293 cells

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Artur Mitterer

Effect of Multimerization of Human and Recombinant Von Willebrand Factor on Platelet Aggregation, Binding to Collagen and Binding of Coagulation Factor Viii

Biochemical, molecular characterization, and glycoproteomic analyses of α1‐proteinase inhibitor products used for replacement therapy*

Differences in N-glycosylation of recombinant human coagulation factor VII derived from BHK, CHO, and HEK293 cells

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Product

Resources

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Biochemical, molecular characterization, and glycoproteomic analyses of α₁‐proteinase inhibitor products used for replacement therapy*