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PDBsum entry 2v3f
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References listed in PDB file
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Key reference
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Title
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Production of glucocerebrosidase with terminal mannose glycans for enzyme replacement therapy of gaucher'S disease using a plant cell system.
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Authors
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Y.Shaaltiel,
D.Bartfeld,
S.Hashmueli,
G.Baum,
E.Brill-Almon,
G.Galili,
O.Dym,
S.A.Boldin-Adamsky,
I.Silman,
J.L.Sussman,
A.H.Futerman,
D.Aviezer.
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Ref.
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Plant Biotechnol J, 2007,
5,
579-590.
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PubMed id
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Abstract
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Gaucher's disease, a lysosomal storage disorder caused by mutations in the gene
encoding glucocerebrosidase (GCD), is currently treated by enzyme replacement
therapy using recombinant GCD (Cerezyme) expressed in Chinese hamster ovary
(CHO) cells. As complex glycans in mammalian cells do not terminate in mannose
residues, which are essential for the biological uptake of GCD via macrophage
mannose receptors in human patients with Gaucher's disease, an in vitro glycan
modification is required in order to expose the mannose residues on the glycans
of Cerezyme. In this report, the production of a recombinant human GCD in a
carrot cell suspension culture is described. The recombinant plant-derived GCD
(prGCD) is targeted to the storage vacuoles, using a plant-specific C-terminal
sorting signal. Notably, the recombinant human GCD expressed in the carrot cells
naturally contains terminal mannose residues on its complex glycans, apparently
as a result of the activity of a special vacuolar enzyme that modifies complex
glycans. Hence, the plant-produced recombinant human GCD does not require
exposure of mannose residues in vitro, which is a requirement for the production
of Cerezyme. prGCD also displays a level of biological activity similar to that
of Cerezyme produced in CHO cells, as well as a highly homologous
high-resolution three-dimensional structure, determined by X-ray
crystallography. A single-dose toxicity study with prGCD in mice demonstrated
the absence of treatment-related adverse reactions or clinical findings,
indicating the potential safety of prGCD. prGCD is currently undergoing clinical
studies, and may offer a new and alternative therapeutic option for Gaucher's
disease.
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