1. Optimization of protein G chromatography for bio pharmaceutical monoclonal antibodies
- Author
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Eberhard Bill, Britt-Marie Karlsson, Ulrike Lutz, Marianne Sparrman, and Hermann Allgaier
- Subjects
medicine.drug_class ,Fast flow ,Ligands ,Monoclonal antibody ,Chromatography, Affinity ,Sepharose ,Matrix (chemical analysis) ,Acetic acid ,chemistry.chemical_compound ,Bacterial Proteins ,Structural Biology ,medicine ,Humans ,Molecular Biology ,Chromatography ,biology ,Elution ,Regeneration (biology) ,Antibodies, Monoclonal ,Streptococcus ,Molecular Weight ,chemistry ,Immunoglobulin G ,biology.protein ,Electrophoresis, Polyacrylamide Gel ,Indicators and Reagents ,Protein G - Abstract
Compared to more stable chromatographic media the use of affinity media with biological ligands such as Protein G Sepharose® 4 Fast Flow poses special challenges regarding regeneration and sanitization. This is especially critical for the purification of pharmaceutical proteins, where complete regeneration of the column between runs is of paramount importance. Here, the problems encountered during process development and up scaling of regeneration methods for a protein G Sepharose Fast Flow column intended for the large-scale purification of pharmaceutical monoclonal anitbiodies are reported. The initially chosen alkaline regeneration buffer led to an increase in the affinity of Protein G towards antibodies which made elution increasingly difficult. A combination of urea and acetic acid was selected to ensure efficient cleaning of the matrix without affecting ligand properties. Validation experiments were done to demonstrate the functional integrity of the matrix after repeated cycles of use and regeneration, as well as the efficiency of the cleaning process.
- Published
- 1995
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