There are an ever-increasing number of biopharmaceutical candidates in clinical trials fueling an urgent need to streamline the cell line development process. A critical part of the process is the methodology used to generate and screen candidate cell lines compatible with GMP manufacturing processes. The relatively large amount of clone phenotypic variation observed from conventional "random integration" (RI)-based cell line construction is thought to be the result of a combination of the position variegation effect, genome plasticity and clonal variation. Site-specific integration (SSI) has been used by several groups to temper the influence of the position variegation effect and thus reduce variability in expression of biopharmaceutical candidates. Following on from our previous reports on the application of the Fer1L4 locus for SSI in CHOK1SV (10E9), we have combined this locus and a CHOK1SV glutamine synthetase knockout (GS-KO) host to create an improved expression system. The host, CHOK1SV GS-KO SSI (HD7876), was created by homology directed integration of a targetable landing pad flanked with incompatible Frt sequences in the Fer1L4 gene. The targeting vector contains a promoterless GS expression cassette and monoclonal antibody (mAb) expression cassettes, flanked by Frt sites compatible with equivalent sites flanking the landing pad in the host cell line. SSI clones expressing four antibody candidates, selected in a streamlined cell line development process, have mAb titers which rival RI (1.0-4.5 g/L) and robust expression stability (100% of clones stable through the 50 generation "manufacturing window" which supports commercial manufacturing at 12,000 L bioreactor scale).
Download full-text PDF |
Source |
|---|---|
| http://dx.doi.org/10.1002/btpr.3137 | DOI Listing |
Publication Analysis
Top Keywords
Similar Publications
An automated high inoculation density fed-batch bioreactor, enabled through N-1 perfusion, accommodates clonal diversity and doubles titers.
Biotechnol Prog
April 2024
Research and Development, Lonza Biologics, Bend, Oregon, USA.
An important consideration for biopharmaceutical processes is the cost of goods (CoGs) of biotherapeutics manufacturing. CoGs can be reduced by dramatically increasing the productivity of the bioreactor process. In this study, we demonstrate that an intensified process which couples a perfused N-1 seed reactor and a fully automated high inoculation density (HID) N stage reactor substantially increases the bioreactor productivity as compared to a low inoculation density (LID) control fed-batch process.
View Article and Find Full Text PDFComparability strategy and demonstration for post-approval production cell line change of a bevacizumab biosimilar IBI305.
Antib Ther
July 2023
Center for Drug Evaluation, National Medical Products Administration, Beijing 100022, China.
High-producing cell line could improve the affordability and availability of biotherapeutic products. A post-approval production cell line change, low-titer CHO-K1S to high-titer CHO-K1SV GS-KO, was performed for a China marketed bevacizumab biosimilar IBI305. Currently, there is no regulatory guideline specifically addressing the requirements for comparability study of post-approval cell line change, which is generally regarded as the most complex process change for biological products.
View Article and Find Full Text PDFManipulation of mRNA translation elongation influences the fragmentation of a biotherapeutic Fc-fusion protein produced in CHO cells.
Biotechnol Bioeng
December 2022
School of Biosciences, Industrial Biotechnology Centre, University of Kent, Canterbury, Kent, UK.
Mammalian cells, particularly Chinese hamster ovary cells, are the dominant system for the production of protein-based biotherapeutics, however, product degradation, particularly of Fc-fusion proteins, is sometimes observed that impacts the quality of the protein generated. Here, we identify the site of fragmentation of a model immunoglobulin G1 Fc-fusion protein, show that the observed clipping and aggregation are decreased by reduced temperature culturing, that the fragmentation/clipping is intracellular, and that reduced clipping at a lower temperature (<37°C) relates to mesenger RNA (mRNA) translation elongation. We subsequently show that reduced fragmentation can be achieved at 37°C by addition of chemical reagents that slow translation elongation.
View Article and Find Full Text PDFA proline metabolism selection system and its application to the engineering of lipid biosynthesis in Chinese hamster ovary cells.
Metab Eng Commun
December 2021
Industrial Biotechnology Centre, School of Biosciences, University of Kent, Canterbury, Kent CT2 7NJ, UK.
Article Synopsis
- Chinese hamster ovary (CHO) cells are crucial for producing monoclonal antibodies and other complex biotherapeutics using metabolic selection marker technologies like glutamine synthetase (GS) and dihydrofolate reductase (DHFR).
- A new selection marker system based on CHO cells' need for proline was developed using pyrroline-5-carboxylase synthetase (P5CS), which allowed engineered cells to thrive in proline-free conditions, comparable to standard CHO cell growth in proline-rich environments.
- By combining the P5CS and GS selection systems, researchers successfully created CHO cell lines that improved recombinant protein expression, leading to higher yields of a challenging monoclonal antibody during production.
CHOK1SV GS-KO SSI expression system: A combination of the Fer1L4 locus and glutamine synthetase selection.
Biotechnol Prog
July 2021
R&D Cell Engineering, Lonza Biologics, Little Chesterford, UK.
There are an ever-increasing number of biopharmaceutical candidates in clinical trials fueling an urgent need to streamline the cell line development process. A critical part of the process is the methodology used to generate and screen candidate cell lines compatible with GMP manufacturing processes. The relatively large amount of clone phenotypic variation observed from conventional "random integration" (RI)-based cell line construction is thought to be the result of a combination of the position variegation effect, genome plasticity and clonal variation.
View Article and Find Full Text PDFWant AI Summaries of new PubMed Abstracts delivered to your In-box?
Enter search terms and have AI summaries delivered each week - change queries or unsubscribe any time!