Comparative proteomic analysis of GS‐NS0 murine myeloma cell lines with varying recombinant monoclonal antibody production rate

Smales, C. Mark; Dinnis, Diane M.; Stansfield, Scott H.; Alete, Daniel E.; Sage, Elizabeth A.; Birch, John; Racher, Andrew J.; Marshall, Carol T; James, David C.

doi:10.1002/bit.20272

Cited by 116 publications

(138 citation statements)

References 63 publications

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“…Factors such as nutritional status may also play a role and are discussed later. Note that, other studies have also observed a positive correlation of mRNA levels of chaperones GRP78, GRP94 and CRT and XBP1 S with that of secreted antibody concentration in production clones (Smales et al 2004;Kober et al 2012).…”

Section: Discussionmentioning

confidence: 54%

Dynamics of unfolded protein response in recombinant CHO cells

Prashad

Mehra

2014

Cytotechnology

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Genes in the protein secretion pathway have been targeted to increase productivity of monoclonal antibodies in Chinese hamster ovary cells. The results have been highly variable depending on the cell type and the relative amount of recombinant and target proteins. This paper presents a comprehensive study encompassing major components of the protein processing pathway in the endoplasmic reticulum (ER) to elucidate its role in recombinant cells. mRNA profiles of all major ER chaperones and unfolded protein response (UPR) pathway genes are measured at a series of time points in a high-producing cell line under the dynamic environment of a batch culture. An initial increase in IgG heavy chain mRNA levels correlates with an increase in productivity. We observe a parallel increase in the expression levels of majority of chaperones. The chaperone levels continue to increase until the end of the batch culture. In contrast, calreticulin and ERO1-L alpha, two of the lowest expressed genes exhibit transient time profiles, with peak induction on day 3. In response to increased ER stress, both the GCN2/PKR-like ER kinase and inositol-requiring enzyme-1alpha (Ire1a) signalling branch of the UPR are upregulated. Interestingly, spliced X-Box binding protein 1 (XBP1s) transcription factor from Ire1a pathway is detected from the beginning of the batch culture. Comparison with the expression levels in a low producer, show much lower induction at the end of the exponential growth phase. Thus, the unfolded protein response strongly correlates with the magnitude and timing of stress in the course of the batch culture.

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Section: Discussionmentioning

confidence: 54%

Dynamics of unfolded protein response in recombinant CHO cells

Prashad

Mehra

2014

Cytotechnology

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“…Overall, the focus on fold changes distracts attention from changes in gene expression that are regulated at a more physiologic scale such as for instance transcription factors that have an effect on the cell upon slight changes in their expression [30]: if within a pathway each individual gene is upregulated 1.4-fold, none of these will show up in the list of differentially expressed genes when using a threshold of 1.5, however, the overall flux through the pathway will increase significantly. [7,66,69,70] Down regulation of growth [7,32,66,68] In case of antibodies: enhanced [4,69,71,[76][77][78]] assembly and secretion due to a surplus of light chain over heavy chain These challenges in identifying relevant genes and understanding their biological roles are further compounded by the fact that many genes have functional assignments in the GO or KEGG annotation databases that reflect the context in which they were first discovered, which may be completely irrelevant to cells grown in suspension in a protein free medium (such as organism development, tissue specific functions and similar). Moreover, pleiotropy, the phenomenon where a single gene may have multiple functions, which may not all be known [31], can make the interpretation of results difficult.…”

Section: Introductionmentioning

confidence: 99%

Microarray profiling of preselected CHO host cell subclones identifies gene expression patterns associated with in‐creased production capacity

Harreither

Hackl

Pichler

et al. 2015

Biotechnology Journal

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Over the last three decades, product yields from CHO cells have increased dramatically, yet specific productivity (qP) remains a limiting factor. In a previous study, using repeated cell-sorting, we have established different host cell subclones that show superior transient qP over their respective parental cell lines (CHO-K1, CHO-S). The transcriptome of the resulting six cell lines in different biological states (untransfected, mock transfected, plasmid transfected) was first explored by hierarchical clustering and indicated that gene activity associated with increased qP did not stem from a certain cellular state but seemed to be inherent for a high qP host line. We then performed a novel gene regression analysis identifying drivers for an increase in qP. Genes significantly implicated were first systematically tested for enrichment of GO terms using a Bayesian approach incorporating the hierarchical structure of the GO term tree. Results indicated that specific cellular components such as nucleus, ER, and Golgi are relevant for cellular productivity. This was complemented by targeted GSA that tested functionally homogeneous, manually curated subsets of KEGG pathways known to be involved in transcription, translation, and protein processing. Significantly implicated pathways included mRNA surveillance, proteasome, protein processing in the ER and SNARE interactions in vesicular transport.

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“…A number of studies comparing the HCP proteomes from different production cell lines using the same platform have been reported. These studies showed that the HCP proteomes are very similar among the cell lines evaluated, providing the basis for the platform-based approach for HCP evaluation (Champion et al, 2001;Krawitz et al, 2006;Smales et al, 2004). The second more practical reason, to take the platform approach is the high attrition rate of early drug candidates.…”

Section: Platform-based Approach For Hcp Analysismentioning

confidence: 94%

“…Many studies have been carried out in the application of proteomics for HCP analysis (Dyk et al, 2003;Hayduk et al, 2004;Krawitz et al, 2006;Smales et al, 2004). Krawitz et al (2006) demonstrated using 2D gels that it is possible to establish the comparability of HCPs from different biologics expressed in the same cell line, providing the basis for the platform-based HCP approach.…”

Section: Proteomics Applicationmentioning

confidence: 99%

Host cell proteins in biologics development: Identification, quantitation and risk assessment

Wang

Hunter

Mozier

2009

Biotech & Bioengineering

201

184

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Host cell proteins (HCPs) are those produced or encoded by the organisms and unrelated to the intended recombinant product. Some are necessary for growth, survival, and normal cellular processing whereas others may be non-essential, simply carried along as baggage. Like the recombinant product, HCPs may also be modified by the host with a number of post-translational modifications. Regardless of the utility, or lack thereof, HCPs are undesirable in the final drug substance. Though commonly present in small quantities (parts per million expressed as nanograms per milligrams of the intended recombinant protein) much effort and cost is expended by industry to remove them. The purpose of this review is to summarize what is of relevance in regards to the biology, the impact of genomics and proteomics on HCP evaluation, the regulatory expectations, analytical approaches, and various methodologies to remove HCPs with bioprocessing. Historical data, bioinformatics approaches and industrial case study examples are provided. Finally, a proposal for a risk assessment tool is provided which brings these facets together and proposes a means for manufacturers to classify and organize a control strategy leading to meaningful product specifications.

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Comparative proteomic analysis of GS‐NS0 murine myeloma cell lines with varying recombinant monoclonal antibody production rate

Cited by 116 publications

References 63 publications

Dynamics of unfolded protein response in recombinant CHO cells

Dynamics of unfolded protein response in recombinant CHO cells

Microarray profiling of preselected CHO host cell subclones identifies gene expression patterns associated with in‐creased production capacity

Host cell proteins in biologics development: Identification, quantitation and risk assessment

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