Jennifer Kerr scite author profile

A ubiquitous post-translational modification observed in proteins is isomerization of aspartic acid to isoaspartic acid (isoAsp). This non-enzymatic post-translational modification occurs spontaneously in proteins and plays a role in aging, autoimmune response, cancer, neurodegeneration, and other diseases. Formation of isoAsp is also a significant issue for recombinant monoclonal antibody based protein therapeutics particularly when isomerization occurs in a complementarity-determining region due to potential impact to the clinical efficacy. Here, we present and compare three analytical methods to monitor and/or quantify isoAsp formation in a monoclonal antibody. The methods include two peptide map based technologies with quantitation from either UV integration or total ion peak areas, as well as an alternative approach using IdeS digestion to generate Fc/2 and Fab’2 regions, followed by hydrophobic interaction chromatography (HIC) to separate the population of Fab’2 containing an isoAsp. The level of isoAsp detected by the peptide map and the digested-HIC methods presented here show similar trends although sample throughput varies by method.

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Quinacrine binds to the lipid-protein interface of the Torpedo acetylcholine receptor: a fluorescence study.

Valenzuela

Kerr

Johnson

1992

Journal of Biological Chemistry

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Design and optimization of a series of novel 2-cyano-pyrimidines as cathepsin K inhibitors

Rankovic¹,

Cai²,

Kerr³

et al. 2010

Bioorganic & Medicinal Chemistry Letters

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Photochemical degradation of citrate buffers leads to covalent acetonation of recombinant protein therapeutics

et al. 2010

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Novel acetone and aldimine covalent adducts were identified on the N-termini and lysine side chains of recombinant monoclonal antibodies. Photochemical degradation of citrate buffers, in the presence of trace levels of iron, is demonstrated as the source of these modifications. The link between degradation of citrate and the observed protein modifications was conclusively established by tracking the citrate decomposition products and protein adducts resulting from photochemical degradation of isotope labeled 13 C citrate by mass spectrometry. The structure of the acetone modification was determined by nuclear magnetic resonance (NMR) spectroscopy on modified-free glycine and found to correspond to acetone linked to the N-terminus of the amino acid through a methyl carbon. Results from mass spectrometric fragmentation of glycine modified with an acetone adduct derived from 13 C labeled citrate indicated that the three central carbons of citrate are incorporated onto protein amines in the presence of iron and light. While citrate is known to stoichiometrically decompose to acetone and CO 2 through various intermediates in photochemical systems, it has never been shown to be a causative agent in protein carbonylation. Our results point to a previously unknown source for the generation of reactive carbonyl species. This work also highlights the potential deleterious impact of trace metals on recombinant protein therapeutics formulated in citrate buffers.

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Trifluoromethylphenyl as P2 for ketoamide-based cathepsin S inhibitors

Cai

Robinson

Belshaw

et al. 2010

Bioorganic & Medicinal Chemistry Letters

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Jennifer Kerr

Assessing analytical methods to monitor isoAsp formation in monoclonal antibodies

Quinacrine binds to the lipid-protein interface of the Torpedo acetylcholine receptor: a fluorescence study.

Design and optimization of a series of novel 2-cyano-pyrimidines as cathepsin K inhibitors

Photochemical degradation of citrate buffers leads to covalent acetonation of recombinant protein therapeutics

Trifluoromethylphenyl as P2 for ketoamide-based cathepsin S inhibitors

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