Promoter methylation and transgene copy numbers predict unstable protein production in recombinant chinese hamster ovary cell lines

Osterlehner, Andrea; Simmeth, Silke; Göpfert, Ulrich

doi:10.1002/bit.23216

Cited by 115 publications

(125 citation statements)

References 98 publications

(135 reference statements)

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“…8); other possible mechanisms such as changes of status in histone acetylation between the insulated and uninsulated clones after differentiation will be examined. Our system, with the ability to target only one copy of transgene at a defined genomic locus, has provided a platform allowing for further investigation along this line, since uncontrolled transgene copy number has also been reported to interfere with epigenetic modifications [32]. Additional experiments to investigate the comprehensive mechanisms that different types of chromatin insulators establish to shield transgenes from silencing in hPSCs are of interest.…”

Section: Discussionmentioning

confidence: 99%

Chromatin Insulator Elements Block Transgene Silencing in Engineered Human Embryonic Stem Cell Lines at a Defined Chromosome 13 Locus

MacArthur

Han

Hoof

et al. 2012

Stem Cells and Development

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Lineage reporters of human embryonic stem cell (hESC) lines are useful for differentiation studies and drug screening. Previously, we created reporter lines driven by an elongation factor 1 alpha (EF1a) promoter at a chromosome 13q32.3 locus in the hESC line WA09 and an abnormal hESC line BG01V in a site-specific manner. Expression of reporters in these lines was maintained in long-term culture at undifferentiated state. However, when these cells were differentiated into specific lineages, reduction in reporter expression was observed, indicating transgene silencing. To develop an efficient and reliable genetic engineering strategy in hESCs, we used chromatin insulator elements to flank single-copy transgenes and integrated the combined expression constructs via PhiC31/R4 integrase-mediated recombination technology to the chromosome 13 locus precisely. Two copies of cHS4 double-insulator sequences were placed adjacent to both 5¢ and 3¢ of the promoter reporter constructs. The green fluorescent protein (GFP) gene was driven by EF1a or CMV early enhancer/chicken b actin (CAG) promoter. In the engineered hESC lines, for both insulated CAG-GFP and EF1a-GFP, constitutive expression at the chromosome 13 locus was maintained during prolonged culture and in directed differentiation assays toward diverse types of neurons, pancreatic endoderm, and mesodermal progeny. In particular, described here is the first normal hESC fluorescent reporter line that robustly expresses GFP in both the undifferentiated state and throughout dopaminergic lineage differentiation. The dual strategy of utilizing insulator sequences and integration at the constitutive chromosome 13 locus ensures appropriate transgene expression. This is a valuable tool for lineage development study, gain-and loss-of-function experiments, and human disease modeling using hESCs.

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Section: Discussionmentioning

confidence: 99%

Chromatin Insulator Elements Block Transgene Silencing in Engineered Human Embryonic Stem Cell Lines at a Defined Chromosome 13 Locus

MacArthur

Han

Hoof

et al. 2012

Stem Cells and Development

View full text Add to dashboard Cite

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“…However, the relative importance of gene loss verses transcriptional silencing in specific cell lines may depend on the host as well as the gene expression system used (Kim et al 2011). Interestingly, in some cases both gene loss and silencing may occur (Osterlehner et al 2011). Loss of productivity caused by epigenetic gene silencing is specifically recognised when the loss of qP is not associated with a loss of recombinant gene copies but with a decline in recombinant mRNA content.…”

Section: Epigenetics and Cell Line Instabilitymentioning

confidence: 95%

“…This threshold level is thought to be the point at which the downstream biosynthetic reactions utilising recombinant mRNAs are saturated, and therefore only when the transcript copy number declines further will there be any phenotypic consequence. Cell line instability can be observed both in the presence and absence of selective pressure, although it may be both more likely and more precipitous once the selective pressure has been removed (Dorai et al 2012;Kim et al 2011;Osterlehner et al 2011;Yang et al 2010;Chusainow et al 2009). Where a decline in recombinant Mab mRNA has been observed, it can affect both the HC and LC genes in cell lines created using both DHFR and GS expression systems, as well as in low and high productivity clones (Kim et al 2011;Yang et al 2010;Chusainow et al 2009).…”

Section: Epigenetics and Cell Line Instabilitymentioning

confidence: 95%

“…In particular, Osterlehner and colleagues identified a specific CpG site (À179 relative to the TSS) whose methylation status at early phase culture was predictive of the stability profile of 75 % of clones over long-term sub-culture, although recombinant mRNA content was not measured in this study. Unstable clones also tended to have higher transgene copy number, perhaps suggesting the involvement of tandem repeat silencing by methylation as an underlying mechanism in the cell lines studied (Osterlehner et al 2011). Based on these findings the authors suggest that clones should be selected on the basis of low transgene copy number to minimise the chance of instability later in culture.…”

Section: Strategies To Combat Cell Line Instabilitymentioning

confidence: 96%

“…As observed by Kim et al (2011), the hCMV-MIE contains a CpG island consisting of 29 CpG sites, the vast majority of which are known methylation targets. Several studies have observed an increase in hCMV promoter methylation across long-term sub-culture correlating with a decrease in productivity and a decline in recombinant mRNA copy number (Kim et al 2011;Osterlehner et al 2011;Yang et al 2010;Chusainow et al 2009). Kim et al (2011) demonstrated that loss of qP with increasing number of population doublings in recombinant Mab-producing GS-CHO cells was associated with a decline in Mab HC and LC mRNA content and an increase in hCMV-MIE methylation of the promoter CpG island.…”

Section: Epigenetics and Cell Line Instabilitymentioning

confidence: 96%

See 2 more Smart Citations

Building a Cell Culture Process with Stable Foundations: Searching for Certainty in an Uncertain World

O'Callaghan¹,

Racher

2014

Cell Engineering

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Considerable effort is expended during the mammalian cell line construction process to find a stably-transfected clone capable of supporting the largescale manufacture of a recombinant therapeutic protein. Such a clone must synthesise a sufficient volumetric concentration of the product with the correct biochemical characteristics (glycosylation, structural integrity, etc.). Furthermore, this performance must be maintained over the extended time period required to support a manufacturing campaign in 20,000 L bioreactors. However, a significant proportion of recombinant clonal cell lines show production instability over longterm sub-culture, where volumetric product yield and/or product quality are not maintained. This instability can potentially extend product development timelines and can affect the ability of a manufacturing process to meet market demand. In the worse-case scenario it can also jeopardise patient safety if product quality is impaired. In order to prevent this, industrial cell line construction processes include long-term stability studies where several candidate lead clones are serially sub-cultured and monitored for signs of instability before selecting the final production cell line. The roots of production instability are varied, but the epigenetic silencing of transgenes at sites of host cell chromosome integration, and the direct mutation or loss of transgenes are prominent molecular causes. Considerable research has been conducted by both industry and academic groups into the molecular mechanisms underpinning instability, with an emphasis on uncovering early predictive markers of incipient instability as well as preventing its occurrence. In this article we present a detailed overview of the industrial experience of production instability and its impact on the manufacturing of recombinant therapeutics. We also discuss our current understanding of the molecular causes of cell line instability and how this has been used to mitigate the impact of this phenomenon through novel vector redesigns and cell line screening.

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Cell Line Development for Biomanufacturing Processes

Gadgil

2017

Applied Bioengineering

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Promoter methylation and transgene copy numbers predict unstable protein production in recombinant chinese hamster ovary cell lines

Cited by 115 publications

References 98 publications

Chromatin Insulator Elements Block Transgene Silencing in Engineered Human Embryonic Stem Cell Lines at a Defined Chromosome 13 Locus

Chromatin Insulator Elements Block Transgene Silencing in Engineered Human Embryonic Stem Cell Lines at a Defined Chromosome 13 Locus

Building a Cell Culture Process with Stable Foundations: Searching for Certainty in an Uncertain World

Cell Line Development for Biomanufacturing Processes

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