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Engineering mRNA translation initiation to enhance transient gene expression in Chinese hamster ovary cells

Engineering mRNA translation initiation to enhance transient gene expression in Chinese hamster ovary cells
Engineering mRNA translation initiation to enhance transient gene expression in Chinese hamster ovary cells
To increase transient expression of recombinant proteins in Chinese hamster ovary cells, we have engineered their protein synthetic capacity by directed manipulation of mRNA translation initiation. To control this process we constructed a nonphosphorylatable Ser(51)Ala site-directed mutant of eIF2alpha, a subunit of the trimeric eIF2 complex that is implicated in regulation of the global rate of mRNA translation initiation in eukaryotic cells. Phosphorylation of eIF2alpha by protein kinases inhibits eIF2 activity and is known to increase as cells perceive a range of stress conditions. Using single- and dual-gene plasmids introduced into CHO cells by electroporation, we found that transient expression of the eIF2alpha Ser(51)Ala mutant with firefly luciferase resulted in a 3-fold increase in reporter activity, relative to cells transfected with reporter only. This effect was maintained in transfected cells for at least 48 h after transfection. Expression of the wild-type eIF2alpha protein had no such effect. Elevated luciferase activity was associated with a reduction in the level of eIF2alpha phosphorylation in cells transfected with the mutant eIF2alpha construct. Transfection of CHO cells with the luciferase-only construct resulted in a marked decrease in the global rate of protein synthesis in the whole cell population 6 h post-transfection. However, expression of the mutant Ser(51)Ala or wild-type eIF2alpha proteins restored the rate of protein synthesis in transfected cells to a level equivalent to or exceeding that of control cells. Associated with this, entry of plasmid DNA into cells during electroporation was visualized by confocal microscopy using a rhodamine-labeled plasmid construct expressing green fluorescent protein. Six hours after transfection, plasmid DNA was present in all cells, albeit to a variable extent. These data suggest that entry of naked DNA into the cell itself functions to inhibit protein synthesis by signaling mechanisms affecting control of mRNA translation by eIF2. This work therefore forms the basis of a rational strategy to generically up-regulate transient expression of recombinant proteins by simultaneous host cell engineering.
121-129
Underhill, Michèle.F.
c154c1b1-99e2-45c0-aed3-e622b71bfb06
Coley, Clare
3c887917-64ba-42a8-8bf3-2fc833aba2c3
Birch, John.R.
5ff763e9-5023-405e-bd01-faa0f75f9ad0
Findlay, Alison
4679ab03-0f06-490d-8f3e-71dfecbc17e6
Kallmeier, Robert
c89796e4-c511-46e2-bf33-bae1a54236a2
Proud, Christopher.G.
88af4ef9-2c1b-4222-ac6a-3e6c0d07b41e
James, David.C.
1b7fef0f-d094-45fb-9dd2-398c9457f077
Underhill, Michèle.F.
c154c1b1-99e2-45c0-aed3-e622b71bfb06
Coley, Clare
3c887917-64ba-42a8-8bf3-2fc833aba2c3
Birch, John.R.
5ff763e9-5023-405e-bd01-faa0f75f9ad0
Findlay, Alison
4679ab03-0f06-490d-8f3e-71dfecbc17e6
Kallmeier, Robert
c89796e4-c511-46e2-bf33-bae1a54236a2
Proud, Christopher.G.
88af4ef9-2c1b-4222-ac6a-3e6c0d07b41e
James, David.C.
1b7fef0f-d094-45fb-9dd2-398c9457f077

Underhill, Michèle.F., Coley, Clare, Birch, John.R., Findlay, Alison, Kallmeier, Robert, Proud, Christopher.G. and James, David.C. (2003) Engineering mRNA translation initiation to enhance transient gene expression in Chinese hamster ovary cells. Biotechnology Progress, 19 (1), 121-129. (doi:10.1021/bp025560b).

Record type: Article

Abstract

To increase transient expression of recombinant proteins in Chinese hamster ovary cells, we have engineered their protein synthetic capacity by directed manipulation of mRNA translation initiation. To control this process we constructed a nonphosphorylatable Ser(51)Ala site-directed mutant of eIF2alpha, a subunit of the trimeric eIF2 complex that is implicated in regulation of the global rate of mRNA translation initiation in eukaryotic cells. Phosphorylation of eIF2alpha by protein kinases inhibits eIF2 activity and is known to increase as cells perceive a range of stress conditions. Using single- and dual-gene plasmids introduced into CHO cells by electroporation, we found that transient expression of the eIF2alpha Ser(51)Ala mutant with firefly luciferase resulted in a 3-fold increase in reporter activity, relative to cells transfected with reporter only. This effect was maintained in transfected cells for at least 48 h after transfection. Expression of the wild-type eIF2alpha protein had no such effect. Elevated luciferase activity was associated with a reduction in the level of eIF2alpha phosphorylation in cells transfected with the mutant eIF2alpha construct. Transfection of CHO cells with the luciferase-only construct resulted in a marked decrease in the global rate of protein synthesis in the whole cell population 6 h post-transfection. However, expression of the mutant Ser(51)Ala or wild-type eIF2alpha proteins restored the rate of protein synthesis in transfected cells to a level equivalent to or exceeding that of control cells. Associated with this, entry of plasmid DNA into cells during electroporation was visualized by confocal microscopy using a rhodamine-labeled plasmid construct expressing green fluorescent protein. Six hours after transfection, plasmid DNA was present in all cells, albeit to a variable extent. These data suggest that entry of naked DNA into the cell itself functions to inhibit protein synthesis by signaling mechanisms affecting control of mRNA translation by eIF2. This work therefore forms the basis of a rational strategy to generically up-regulate transient expression of recombinant proteins by simultaneous host cell engineering.

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Published date: January 2003

Identifiers

Local EPrints ID: 56351
URI: http://eprints.soton.ac.uk/id/eprint/56351
PURE UUID: 282aece9-2c5d-4dcb-bbee-e1cde5d109ee

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Date deposited: 08 Aug 2008
Last modified: 15 Mar 2024 11:01

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Contributors

Author: Michèle.F. Underhill
Author: Clare Coley
Author: John.R. Birch
Author: Alison Findlay
Author: Robert Kallmeier
Author: Christopher.G. Proud
Author: David.C. James

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