Establishment of a tobacco BY2 cell line devoid of plantspecific xylose and fucose as a platform for the production of biotherapeutic proteins.

Autor: Hanania, Uri, Ariel, Tami, Tekoah, Yoram, Fux, Liat, Sheva, Maor, Gubbay, Yehuda, Weiss, Mara, Oz, Dina, Azulay, Yaniv, Turbovski, Albina, Forster, Yehava, Shaaltiel, Yoseph
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Zdroj: Plant Biotechnology Journal; Sep2017, Vol. 15 Issue 9, p1120-1129, 10p
Abstrakt: Plant-produced glycoproteins contain N-linked glycans with plant-specific residues of β(1,2)- xylose and core α(1,3)-fucose, which do not exist in mammalian-derived proteins. Although our experience with two enzymes that are used for enzyme replacement therapy does not indicate that the plant sugar residues have deleterious effects, we made a conscious decision to eliminate these moieties from plant-expressed proteins. We knocked out the β(1,2)- xylosyltranferase (XylT) and the α(1,3)-fucosyltransferase (FucT) genes, using CRISPR/Cas9 genome editing, in Nicotiana tabacum L. cv Bright Yellow 2 (BY2) cell suspension. In total, we knocked out 14 loci. The knocked-out lines were stable, viable and exhibited a typical BY2 growing rate. Glycan analysis of the endogenous proteins of these lines exhibited N-linked glycans lacking β(1,2)-xylose and/or α(1,3)-fucose. The knocked-out lines were further transformed successfully with recombinant DNaseI. The expression level and the activity of the recombinant protein were similar to that of the protein produced in the wild-type BY2 cells. The recombinant DNaseI was shown to be totally free from any xylose and/or fucose residues. The glyco-engineered BY2 lines provide a valuable platform for producing potent biopharmaceutical products. Furthermore, these results demonstrate the power of the CRISPR/Cas9 technology for multiplex gene editing in BY2 cells.Plant-produced glycoproteins contain N-linked glycans with plant-specific residues of β(1,2)- xylose and core α(1,3)-fucose, which do not exist in mammalian-derived proteins. Although our experience with two enzymes that are used for enzyme replacement therapy does not indicate that the plant sugar residues have deleterious effects, we made a conscious decision to eliminate these moieties from plant-expressed proteins. We knocked out the β(1,2)- xylosyltranferase (XylT) and the α(1,3)-fucosyltransferase (FucT) genes, using CRISPR/Cas9 genome editing, in Nicotiana tabacum L. cv Bright Yellow 2 (BY2) cell suspension. In total, we knocked out 14 loci. The knocked-out lines were stable, viable and exhibited a typical BY2 growing rate. Glycan analysis of the endogenous proteins of these lines exhibited N-linked glycans lacking β(1,2)-xylose and/or α(1,3)-fucose. The knocked-out lines were further transformed successfully with recombinant DNaseI. The expression level and the activity of the recombinant protein were similar to that of the protein produced in the wild-type BY2 cells. The recombinant DNaseI was shown to be totally free from any xylose and/or fucose residues. The glyco-engineered BY2 lines provide a valuable platform for producing potent biopharmaceutical products. Furthermore, these results demonstrate the power of the CRISPR/Cas9 technology for multiplex gene editing in BY2 cells. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index
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