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Development of a 10 g/L process for a difficult-to-express multispecific antibody format using a holistic process development approach.

Authors :
Peltret, Mégane
Vetsch, Patrick
Farvaque, Elodie
Mette, Romain
Tsachaki, Maria
Duarte, Lionel
Duret, Anaïs
Vaxelaire, Emilie
Frank, Jana
Moritz, Benjamin
Aillerie, Céline
Giovannini, Roberto
Bertschinger, Martin
Source :
Journal of Biotechnology. Jun2024, Vol. 389, p30-42. 13p.
Publication Year :
2024

Abstract

Ichnos has developed a multi-specific antibody platform based on the BEAT® (Bispecific engagement by antibodies based on the T-cell receptor) interface. The increased complexity of the bi- and multi-specific formats generated with this platform makes these molecules difficult-to-express proteins compared to standard monoclonal antibodies (mAbs). This report describes how expression limitations of a bi-specific bi-paratopic BEAT antibody were improved in a holistic approach. An initial investigation allowed identification of a misbalance in the subunits composing the BEAT antibody as the potential root cause. This misbalance was then addressed by a signal peptide optimization, and the overall expression level was increased by the combination of two vector design elements on a single gene vector. Further improvements were made in the selection of cell populations and an upstream (USP) platform process was applied in combination with a cell culture temperature shift. This allowed titer levels of up to 6 g/L to be reached with these difficult-to-express proteins. Furthermore, a high-density seeding process was developed that allowed titers of around 11 g/L for the BEAT antibody, increasing the initial titer by a factor of 10. The approach was successfully applied to a tri-specific antibody with titer levels reaching 10 g/L. In summary, a platform process for difficult-to-express proteins was developed using molecular biology tools, cell line development, upstream process optimization and process intensification. • Holistic development overcoming expression limits in bi-/multispecific antibodies via mol. bio., cell line dev, process opt. • Molecular constructs in article enable very high expression levels, particularly beneficial for challenging proteins. • Report of a process allowing titers > 10 g/L (product) for bi- and multi-specific antibody formats. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
01681656
Volume :
389
Database :
Academic Search Index
Journal :
Journal of Biotechnology
Publication Type :
Academic Journal
Accession number :
177457325
Full Text :
https://doi.org/10.1016/j.jbiotec.2024.04.017