Galactose supplementation enhance sialylation of recombinant Fc-fusion protein in CHO cell: an insight into the role of galactosylation in sialylation

Liu, Jintao; Wang, Jie; Fan, Li; Chen, Xinning; Hu, Dongdong; Deng, Xiancun; Poon, H. Fai; Wang, Haibin; Liu, Xuping; Tan, Wen‐Song

doi:10.1007/s11274-015-1864-8

Cited by 25 publications

(16 citation statements)

References 44 publications

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“…This strategy has been reliably reported across several different research groups, utilizing different cell platforms, expressing different proteins, to increase galactosylation (Figure 4). Even beyond galactosylated glycoforms, supplementation of Gal has also been demonstrated to relieve bottlenecks towards improving the sialylation of Fc-fusion glycoproteins in GS-CHO cultures (Liu et al, 2015). Increased galactosylation is generally accepted to be of therapeutic benefit, with lack of galactosylation associated endogenously with several disease states (discussed in Section 4).…”

Section: Galactosementioning

confidence: 99%

“…A N U S C R I P T (Gu and Wang, 1998). Interestingly, researchers that do not observe increases in sialylation typically reported a deficit of galactosylation that could be improved with galactose feeding (Hills et al, 2001;Kildegaard et al, 2015;Liu et al, 2015). Liu and colleagues (2015) supplementing galactose improved galactosylation in cultures, which subsequently also lead to increased sialylation by 14%.…”

Section: A C C E P T E D Mmentioning

confidence: 99%

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Supplementing glycosylation: A review of applying nucleotide-sugar precursors to growth medium to affect therapeutic recombinant protein glycoform distributions

Blondeel

Aucoin

2018

Biotechnology Advances

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Glycosylation is a critical quality attribute (CQA) of many therapeutic proteins, particularly monoclonal antibodies (mAbs), and is a major consideration in the approval of biosimilar biologics due to its effects to therapeutic efficacy. Glycosylation generates a distribution of glycoforms, resulting in glycoproteins with inherent molecule-to-molecule heterogeneity, capable of activating (or failing to activate) different effector functions of the immune system. Glycoforms can be affected by the supplementation of nucleotide-sugar precursors, and related components, to culture growth medium, affecting the metabolism of glycosylation. These supplementations has been demonstrated to increase nucleotide-sugar intracellular pools, and impact glycoform distributions, but with varied results. These variations can be attributed to five key factors: Differences between cell platforms (enzyme/transporter expression levels); differences between recombinant proteins produced (glycan-site accessibility); the fermentation and sampling timeline (glucose availability and exoglycosidase accumulation); glutamine levels (affecting ammonia levels, which impact Golgi pH, as well as UDP-GlcNAc pools); and finally, a lack of standardized metrics for observing shifts in glycoform distributions (glycosylation indices) across different experiments. The purpose of this review is to provide detail and clarity on the state of the art of supplementation strategies for nucleotide-sugar precursors for affecting glycosylation in cell culture processes, and to apply glycosylation indices for standardized comparisons across the field.

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Section: Galactosementioning

confidence: 99%

Section: A C C E P T E D Mmentioning

confidence: 99%

Supplementing glycosylation: A review of applying nucleotide-sugar precursors to growth medium to affect therapeutic recombinant protein glycoform distributions

Blondeel

Aucoin

2018

Biotechnology Advances

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“…This finding was further confirmed in GS-CHO cell line expressing the human tumor necrosis factor receptor linked to the Fc portion of human IgG1. The addition of 20 mM of galactose in 2-L bench scale and 200-L pilot scale fed-batch cultures led to 20.3% increase of sialylated glycans 140 .…”

Section: Sialylationmentioning

confidence: 98%

Tailoring recombinant protein quality by rational media design

Brühlmann

Jordan

Hemberger³

et al. 2015

Biotechnology Progress

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Clinical efficacy and safety of recombinant proteins are closely associated with their structural characteristics. The major quality attributes comprise glycosylation, charge variants (oxidation, deamidation, and C‐ & N‐terminal modifications), aggregates, low‐molecular‐weight species (LMW), and misincorporation of amino acids in the protein backbone. Cell culture media design has a great potential to modulate these quality attributes due to the vital role of medium in mammalian cell culture. The purpose of this review is to provide an overview of the way both classical cell culture medium components and novel supplements affect the quality attributes of recombinant therapeutic proteins expressed in mammalian hosts, allowing rational and high‐throughput optimization of mammalian cell culture media. A selection of specific and/or potent inhibitors and activators of oligosaccharide processing as well as components affecting multiple quality attributes are presented. Extensive research efforts in this field show the feasibility of quality engineering through media design, allowing to significantly modulate the protein function. © 2015 American Institute of Chemical Engineers Biotechnol. Prog., 31:615–629, 2015

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“…Substitution of glucose by galactose, for example, produced significantly less lactate but decreased specific cell growth rate and peak viable cell density [19]. To enhance cell biomass, a biphasic culture strategy (alternating the consumption of glucose and galactose) has been proposed in CHO cell batch and fed-batch cultures [20,21]. Using this strategy, high cell densities have been achieved with significantly decreased (up 66%) lactate accumulation and improved galactosylation in fed-batch cultures [20][21][22].…”

Section: Changing Lactate Metabolism Through Modification Of Culture mentioning

confidence: 99%

“…To enhance cell biomass, a biphasic culture strategy (alternating the consumption of glucose and galactose) has been proposed in CHO cell batch and fed-batch cultures [20,21]. Using this strategy, high cell densities have been achieved with significantly decreased (up 66%) lactate accumulation and improved galactosylation in fed-batch cultures [20][21][22]. Aternatives to glutamine (glutamate, pyruvate, TCA cycle intermediaries and dipeptides) have also been developed.…”

Section: Changing Lactate Metabolism Through Modification Of Culture mentioning

confidence: 99%

Process and metabolic engineering perspectives of lactate production in mammalian cell cultures

Torres

Altamirano

Dickson

2018

Current Opinion in Chemical Engineering

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Mammalian cells present the main expression platforms for production of recombinant therapeutic proteins. To cope with the increased demand for these therapeutics, more productive manufacturing processes have been developed using high-density cultures and enriched feeds/media. This has dramatically increased the productivity of mammalian cells in culture but this is accompanied by an increased production and accumulation of lactate in cultures, with the pattern of phasic production and consumption of lactate associated with the cell productivity in culture. Although primarily defined as a waste product, it is clear that lactate metabolism presents a control node for determination of process control and effectiveness of manufacturing strategies. This review focuses on recent understanding of the phasic nature of lactate metabolism, the impact of culture environment (media, feeds) on lactate metabolism, the link between lactate metabolic status and cell status and the culture/metabolic engineering approaches that have been applied to generate the lactate metabolic phenotype associated with a highly productive manufacturing process

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Galactose supplementation enhance sialylation of recombinant Fc-fusion protein in CHO cell: an insight into the role of galactosylation in sialylation

Cited by 25 publications

References 44 publications

Supplementing glycosylation: A review of applying nucleotide-sugar precursors to growth medium to affect therapeutic recombinant protein glycoform distributions

Supplementing glycosylation: A review of applying nucleotide-sugar precursors to growth medium to affect therapeutic recombinant protein glycoform distributions

Tailoring recombinant protein quality by rational media design

Process and metabolic engineering perspectives of lactate production in mammalian cell cultures

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