The hypothetical N-glycan charge: a number that characterizes protein glycosylation

Hermentin, P.; Witzel, Reinhild; Kanzy, E. J.; Diderrich, G.; Hoffmann, Dieter; Metzner, Hubert J.; Vorlop, Jürgen; Haupt, H.

doi:10.1093/glycob/6.2.217

Cited by 40 publications

(33 citation statements)

References 47 publications

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“…Attempts have been made to develop summary statistics that reduce the dimensionality of these complex data sets. For example, the Z number (Hermentin et al 1996) has been proposed as a parameter that describes protein glycosylation in terms of numbers of charged glycans. Such parameters have been suggested as being suitable for product consistency monitoring, although some workers have reported poor correlation with bioactivity (Yuen et al 2011).…”

Section: How Much Stability Is Required? Lessons From Industrymentioning

confidence: 99%

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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Section: How Much Stability Is Required? Lessons From Industrymentioning

confidence: 99%

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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show abstract

“…For that exercise the levels of the glycosylation CQAs were measured for product made using different manufacturing conditions and the statistical tools (e.g., 17.3 Scheme 2: Comparability of Drug Glycosylation Using QbD DS 553 principal component analysis) were used to determine the relationships between the CPPs and the CQAs.…”

Section: Q B D Approach To Glycosylation In the A -Ma B Case Studymentioning

confidence: 99%

“…• Comparability of glycosylation between drug batches is primarily determined using single -number glycometrics (such as the Z -number score for measuring the degree of sialylation) [17] .…”

Section: Case For a Population Model For Comparability Of Glycoproteimentioning

confidence: 99%

Systematic Approach to Optimization and Comparability of Biopharmaceutical Glycosylation Throughout the Drug Life Cycle

Fernandes

2012

Biopharmaceutical Production Technology

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“…In recent years, there have been efforts to replace the highly contested (consumption of animals) and highly inaccurate (CV ≈ 25% [1,2], ≈ 20% [3]; uncertainty 15-30% [4]; as stated by Zimmermann et al [3]) polycythaemic and normocythaemic mouse bioassays in the quality control of erythropoietin [5] by more precise and more accurate physicochemical methods such as Z-number determination based on ion-exchange chromatography of the isolated N-glycans (glycan mapping) [2,6,7] or I-number determination [8] based on the native protein and the peak areas of the various isoforms separated in CZE [9,10]. This approach has recently been supported by a study from Roche [3] that aimed at replacing the normocythaemic mouse bioassay for epoetin beta batch release on the basis of primarily CZE data.…”

Section: Introductionmentioning

confidence: 99%

Ibio-Number Assay: A Physicochemical Assay that Predicts the Bioactivity of Erythropoietin with High Precision and Accuracy and May Replace the Mouse Bioassay in the Quality Control of EPO Batch Release

Hermentin¹

2017

Pharm Anal Acta

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The hypothetical N-glycan charge: a number that characterizes protein glycosylation

Cited by 40 publications

References 47 publications

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

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

Systematic Approach to Optimization and Comparability of Biopharmaceutical Glycosylation Throughout the Drug Life Cycle

Ibio-Number Assay: A Physicochemical Assay that Predicts the Bioactivity of Erythropoietin with High Precision and Accuracy and May Replace the Mouse Bioassay in the Quality Control of EPO Batch Release

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