Brian W. O’Mara scite author profile

Introduced in the late 1980s as a reducing reagent, Tris (2-carboxyethyl) phosphine (TCEP) has now become one of the most widely used protein reductants. To date, only a few studies on its side reactions have been published. We report the observation of a side reaction that cleaves protein backbones under mild conditions by fracturing the cysteine residues, thus generating heterogeneous peptides containing different moieties from the fractured cysteine. The peptide products were analyzed by high performance liquid chromatography and tandem mass spectrometry (LC/MS/MS). Peptides with a primary amine and a carboxylic acid as termini were observed, and others were found to contain amidated or formamidated carboxy termini, or formylated or glyoxylic amino termini. Formamidation of the carboxy terminus and the formation of glyoxylic amino terminus were unexpected reactions since both involve breaking of carbon-carbon bonds in cysteine.

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Impact of depth filtration on disulfide bond reduction during downstream processing of monoclonal antibodies from CHO cell cultures

O’Mara

Gao

Kuruganti

et al. 2019

Biotech & Bioengineering

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Monoclonal antibody interchain disulfide bond reduction was observed in a ChineseHamster Ovary manufacturing process that used single-use technologies. A similar reduction has been reported for processes that involved high mechanical shear recovery unit operations, such as continuous flow centrifugation and when the clarified harvest was stored under low dissolved oxygen (DO) conditions (Trexler-Schmidt et al., 2010. Biotechnology and Bioengineering, 106(3), 452-461). The work described here identifies disposable depth filtration used during cell culture harvest operations as a shear-inducing unit operation causing cell lysis. As a result, reduction of antibody interchain disulfide bonds was observed through the same mechanisms described for continuous flow centrifugation. Small-scale depth-filtration models were developed, and the differential pressure (ΔP) of the primary depth filter was identified as the key factor contributing to cell lysis. Strong correlations of ΔP and cell lysis were generated by measuring the levels of lactate dehydrogenase and thiol in the filtered harvest material. A simple risk mitigation strategy was implemented during manufacturing by providing an air overlay to the headspace of a single-use storage bag to maintain sufficient DO in the clarified harvest. In addition, enzymatic characterization studies determined that thioredoxin reductase and glucose-6phosphate dehydrogenase are critical enzymes involved in antibody reduction in a nicotinamide adenine dinucleotide phosphate (NADP + )/NADPH-dependent manner. K E Y W O R D Sair overlay, antibody, cell lysis, depth filtration, differential pressure, dissolved oxygen, disulfide reduction 1 | INTRODUCTION Monoclonal antibodies (mAbs) are commonly manufactured with fed-batch or perfusion mammalian cell culture processes. In such manufacturing processes, the mAb, which is expressed and secreted from the cell, accumulates in the cell culture fluid and is recovered using centrifugation and/or filtration. With the advent of high productivity (>5 g/L) cell culture processes and the availability of improved disposable technologies, the implementation of single-use systems, such as bioreactors, depth filters, columns, membranes, and bioprocess storage bags in the production of biologics has become standard industry practice (Liu, 2005).

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A safe, effective, and facility compatible cleaning in place procedure for affinity resin in large-scale monoclonal antibody purification

Wang

Dembecki

Jaffe

et al. 2013

Journal of Chromatography A

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Glycine to glutamic acid misincorporation observed in a recombinant protein expressed by Escherichia coli cells

et al. 2012

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A novel amino acid misincorporation, in which the intended glycine (Gly) residues were replaced by a glutamic acid (Glu), was observed in a recombinant protein expressed by Escherichia coli. The misincorporation was identified by peptide mapping and liquid chromatography-tandem mass spectrometric analysis on proteolyzed peptides of the protein and verified using the corresponding synthetic peptides containing the misincorporated residues. Analysis of the distribution of the misincorporated residues and their codon usage shows strong correlation between this misincorporation and the use of rarely used codon within the E. coli expression system. Results in this study suggest that the usage of the rare codon GGA has resulted in a Glu for Gly misincorporation.

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Comparison of Ensemble and Single Molecule Methods for Particle Characterization and Binding Analysis of a PEGylated Single-Domain Antibody

Schneeweis

Obenauer-Kutner

Kaur

et al. 2015

Journal of Pharmaceutical Sciences

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Brian W. O’Mara

A tris (2-carboxyethyl) phosphine (TCEP) related cleavage on cysteine-containing proteins

Impact of depth filtration on disulfide bond reduction during downstream processing of monoclonal antibodies from CHO cell cultures

A safe, effective, and facility compatible cleaning in place procedure for affinity resin in large-scale monoclonal antibody purification

Glycine to glutamic acid misincorporation observed in a recombinant protein expressed by Escherichia coli cells

Comparison of Ensemble and Single Molecule Methods for Particle Characterization and Binding Analysis of a PEGylated Single-Domain Antibody

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