Multiplex secretome engineering enhances recombinant protein production and purity

Stefan Kol; Daniel Ley; Tune Wulff; Marianne Decker; Johnny Arnsdorf; Sanne Schoffelen; Anders Holmgaard Hansen; Tanja Lyholm Jensen; Jahir M. Gutierrez; Austin W.T. Chiang; Helen O. Masson; Bernhard O. Palsson; Bjørn G. Voldborg; Lasse Ebdrup Pedersen; Helene Faustrup Kildegaard; Gyun Min Lee; Nathan E. Lewis

doi:10.1038/s41467-020-15866-w

Multiplex secretome engineering enhances recombinant protein production and purity

Stefan Kol
, Daniel Ley
, Tune Wulff
, Marianne Decker
, Johnny Arnsdorf
, Sanne Schoffelen
, Anders Holmgaard Hansen
, Tanja Lyholm Jensen
, Jahir M. Gutierrez
, Austin W.T. Chiang
, Helen O. Masson
, Bernhard O. Palsson
, Bjørn G. Voldborg
, Lasse Ebdrup Pedersen
, Helene Faustrup Kildegaard
, Gyun Min Lee
, Nathan E. Lewis

University of Iceland

University of Iceland

Research output: Contribution to journal › Article › peer-review

Abstract

Host cell proteins (HCPs) are process-related impurities generated during biotherapeutic protein production. HCPs can be problematic if they pose a significant metabolic demand, degrade product quality, or contaminate the final product. Here, we present an effort to create a “clean” Chinese hamster ovary (CHO) cell by disrupting multiple genes to eliminate HCPs. Using a model of CHO cell protein secretion, we predict that the elimination of unnecessary HCPs could have a non-negligible impact on protein production. We analyze the HCP content of 6-protein, 11-protein, and 14-protein knockout clones. These cell lines exhibit a substantial reduction in total HCP content (40%-70%). We also observe higher productivity and improved growth characteristics in specific clones. The reduced HCP content facilitates purification of a monoclonal antibody. Thus, substantial improvements can be made in protein titer and purity through large-scale HCP deletion, providing an avenue to increased quality and affordability of high-value biopharmaceuticals.

Original language	English
Article number	1908
Journal	Nature Communications
Volume	11
Issue number	1
DOIs	https://doi.org/10.1038/s41467-020-15866-w
Publication status	Published - 1 Dec 2020

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Kol, S., Ley, D., Wulff, T., Decker, M., Arnsdorf, J., Schoffelen, S., Hansen, A. H., Jensen, T. L., Gutierrez, J. M., Chiang, A. W. T., Masson, H. O., Palsson, B. O., Voldborg, B. G., Pedersen, L. E., Kildegaard, H. F., Lee, G. M., & Lewis, N. E. (2020). Multiplex secretome engineering enhances recombinant protein production and purity. Nature Communications, 11(1), Article 1908. https://doi.org/10.1038/s41467-020-15866-w

@article{00bf02a7e76247a4998a13432225c626,

title = "Multiplex secretome engineering enhances recombinant protein production and purity",

abstract = "Host cell proteins (HCPs) are process-related impurities generated during biotherapeutic protein production. HCPs can be problematic if they pose a significant metabolic demand, degrade product quality, or contaminate the final product. Here, we present an effort to create a “clean” Chinese hamster ovary (CHO) cell by disrupting multiple genes to eliminate HCPs. Using a model of CHO cell protein secretion, we predict that the elimination of unnecessary HCPs could have a non-negligible impact on protein production. We analyze the HCP content of 6-protein, 11-protein, and 14-protein knockout clones. These cell lines exhibit a substantial reduction in total HCP content (40\%-70\%). We also observe higher productivity and improved growth characteristics in specific clones. The reduced HCP content facilitates purification of a monoclonal antibody. Thus, substantial improvements can be made in protein titer and purity through large-scale HCP deletion, providing an avenue to increased quality and affordability of high-value biopharmaceuticals.",

author = "Stefan Kol and Daniel Ley and Tune Wulff and Marianne Decker and Johnny Arnsdorf and Sanne Schoffelen and Hansen, \{Anders Holmgaard\} and Jensen, \{Tanja Lyholm\} and Gutierrez, \{Jahir M.\} and Chiang, \{Austin W.T.\} and Masson, \{Helen O.\} and Palsson, \{Bernhard O.\} and Voldborg, \{Bj{\o}rn G.\} and Pedersen, \{Lasse Ebdrup\} and Kildegaard, \{Helene Faustrup\} and Lee, \{Gyun Min\} and Lewis, \{Nathan E.\}",

note = "Publisher Copyright: {\textcopyright} 2020, The Author(s).",

year = "2020",

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doi = "10.1038/s41467-020-15866-w",

language = "English",

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Kol, S, Ley, D, Wulff, T, Decker, M, Arnsdorf, J, Schoffelen, S, Hansen, AH, Jensen, TL, Gutierrez, JM, Chiang, AWT, Masson, HO, Palsson, BO, Voldborg, BG, Pedersen, LE, Kildegaard, HF, Lee, GM & Lewis, NE 2020, 'Multiplex secretome engineering enhances recombinant protein production and purity', Nature Communications, vol. 11, no. 1, 1908. https://doi.org/10.1038/s41467-020-15866-w

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T1 - Multiplex secretome engineering enhances recombinant protein production and purity

AU - Kol, Stefan

AU - Ley, Daniel

AU - Wulff, Tune

AU - Decker, Marianne

AU - Arnsdorf, Johnny

AU - Schoffelen, Sanne

AU - Hansen, Anders Holmgaard

AU - Jensen, Tanja Lyholm

AU - Gutierrez, Jahir M.

AU - Chiang, Austin W.T.

AU - Masson, Helen O.

AU - Palsson, Bernhard O.

AU - Voldborg, Bjørn G.

AU - Pedersen, Lasse Ebdrup

AU - Kildegaard, Helene Faustrup

AU - Lee, Gyun Min

AU - Lewis, Nathan E.

PY - 2020/12/1

Y1 - 2020/12/1

N2 - Host cell proteins (HCPs) are process-related impurities generated during biotherapeutic protein production. HCPs can be problematic if they pose a significant metabolic demand, degrade product quality, or contaminate the final product. Here, we present an effort to create a “clean” Chinese hamster ovary (CHO) cell by disrupting multiple genes to eliminate HCPs. Using a model of CHO cell protein secretion, we predict that the elimination of unnecessary HCPs could have a non-negligible impact on protein production. We analyze the HCP content of 6-protein, 11-protein, and 14-protein knockout clones. These cell lines exhibit a substantial reduction in total HCP content (40%-70%). We also observe higher productivity and improved growth characteristics in specific clones. The reduced HCP content facilitates purification of a monoclonal antibody. Thus, substantial improvements can be made in protein titer and purity through large-scale HCP deletion, providing an avenue to increased quality and affordability of high-value biopharmaceuticals.

AB - Host cell proteins (HCPs) are process-related impurities generated during biotherapeutic protein production. HCPs can be problematic if they pose a significant metabolic demand, degrade product quality, or contaminate the final product. Here, we present an effort to create a “clean” Chinese hamster ovary (CHO) cell by disrupting multiple genes to eliminate HCPs. Using a model of CHO cell protein secretion, we predict that the elimination of unnecessary HCPs could have a non-negligible impact on protein production. We analyze the HCP content of 6-protein, 11-protein, and 14-protein knockout clones. These cell lines exhibit a substantial reduction in total HCP content (40%-70%). We also observe higher productivity and improved growth characteristics in specific clones. The reduced HCP content facilitates purification of a monoclonal antibody. Thus, substantial improvements can be made in protein titer and purity through large-scale HCP deletion, providing an avenue to increased quality and affordability of high-value biopharmaceuticals.

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DO - 10.1038/s41467-020-15866-w

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C2 - 32313013

SN - 2041-1723

VL - 11

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 1908

ER -

Multiplex secretome engineering enhances recombinant protein production and purity

Abstract

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