Chromatography refolding of recombinant alpha-fetoprotein for high refolding productivity and intensified bioprocessing

Alpha-fetoprotein (AFP) is a commercially valuable biopharmaceutical candidate for autoimmune indications. Transgenically-derived recombinant AFP has recently successfully completed a Phase Two clinical trial study for rheumatoid arthritis indications at Merrimack Pharmaceuticals (Cambridge, MA, USA...

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Bibliographic Details
Main Author: Chen, Yu
Other Authors: Susanna Leong Su Jan
Format: Theses and Dissertations
Language:English
Published: 2011
Subjects:
Online Access:https://hdl.handle.net/10356/43987
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Institution: Nanyang Technological University
Language: English
Description
Summary:Alpha-fetoprotein (AFP) is a commercially valuable biopharmaceutical candidate for autoimmune indications. Transgenically-derived recombinant AFP has recently successfully completed a Phase Two clinical trial study for rheumatoid arthritis indications at Merrimack Pharmaceuticals (Cambridge, MA, USA). The launch of this protein on market shelves in the future will subsequently demand cheaper second-generation product when product patent expires, thus necessitating new processes that can reduce product cost. The production of AFP as inclusion bodies (IBs) in Escherichia coli (E. coli) is advantageous for process-scale commercial manufacture due to speed, simplicity and cost reasons but conversion of the inactive protein aggregate into biologically active protein requires an efficient refolding step. The use of dilution refolding in previously reported recombinant human AFP (rhAFP) laboratory processes has resulted in low refolding yields, which negatively impacts the overall process yield and productivity. A superior refolding and bioprocessing route is clearly needed to facilitate efficient and rapid product delivery to market, if a commercial process for rhAFP is to be possible. In this thesis, chromatography refolding was researched to address the poor refolding performance or rhAFP in previous ‘dilution refolding’-based rhAFP processes.