Native peptide mapping – A simple method to routinely monitor higher order structure changes and relation to functional activity

Abstract: In the biopharmaceutical environment, controlling the Critical Quality Attributes (CQA) of a product is essential to prevent changes that affect its safety or efficacy. Physico-chemical techniques and bioassays are used to screen and monitor these CQAs. The higher order structure (HOS) is a CQA that is typically studied using techniques that are not commonly considered amenable to quality control laboratories. Here, we propose a peptide mapping-based method, named native peptide mapping, which could be conside… Show more

“…This report describes a workflow, based on limited proteolysis followed by mass spectrometry (MS), to assess the conformational stability of different variants of a therapeutic protein. Limited proteolysis has been demonstrated to be useful in conformation analysis of recombinant proteins in design, optimization, and development of biopharmaceuticals. − The method is based on the fact that a less stable domain is more susceptible to proteolytic degradation, and therefore the conformational stability of a domain can be evaluated from the release rate of the peptide variant in the domain. A kinetic model is established to quantitatively determine the degree of domain stabilization/destabilization.…”

Limited Proteolysis Coupled with Mass Spectrometry for Simultaneous Evaluation of a Large Number of Protein Variants for Their Impact on Conformational Stability

“…This report describes a workflow, based on limited proteolysis followed by mass spectrometry (MS), to assess the conformational stability of different variants of a therapeutic protein. Limited proteolysis has been demonstrated to be useful in conformation analysis of recombinant proteins in design, optimization, and development of biopharmaceuticals. − The method is based on the fact that a less stable domain is more susceptible to proteolytic degradation, and therefore the conformational stability of a domain can be evaluated from the release rate of the peptide variant in the domain. A kinetic model is established to quantitatively determine the degree of domain stabilization/destabilization.…”

Limited Proteolysis Coupled with Mass Spectrometry for Simultaneous Evaluation of a Large Number of Protein Variants for Their Impact on Conformational Stability

Chromatography (other than size-exclusion chromatography) and electrophoresis

A multi-angular view on the impact of protein unfolding on biophysical structural data