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A two-step process for capture and purification of human basic fibroblast growth factor from E. coli homogenate: Yield versus endotoxin clearance.

Authors :
Sauer, Dominik Georg
Mosor, Magdalena
Frank, Anna-Carina
Weiß, Florian
Christler, Anna
Walch, Nicole
Jungbauer, Alois
Dürauer, Astrid
Source :
Protein Expression & Purification. Jan2019, Vol. 153, p70-82. 13p.
Publication Year :
2019

Abstract

Abstract A two-step purification process for human basic fibroblast growth factor (FGF-2) from clarified E. coli homogenate has been developed in which the impurity level after the second step is below the limit of quantification. Endotoxin content is cleared to 0.02 EU/μg FGF-2 and the overall yield is 67%. The performance of the cation exchanger Carboxymethyl-Sepharose Fast Flow (CM-SFF) was compared to the affinity resin Heparin-SFF regarding the impurity profile and product quality in the elution peak. The CM-SFF eluate was further purified using hydrophobic interaction resin Toyopearl-Hexyl-650C. The relative amounts of target product, host cell proteins (HCPs), dsDNA, endotoxin, monomer content, and high molecular weight impurities differed along the elution peak depending on the applied method. The bioactive monomer (>99%) was obtained with a yield of 48% for CM-SFF and 68% for Heparin-SFF. A half-load reduction in CM-SFF increased the yield up to 67% without deterioration of the impurity content. Assuming a dose of 400 μg FGF-2, endotoxin was reduced to 188 EU/dose, dsDNA <10 ng/dose, and HCP <2 ppm/dose using the cation exchanger. In the pooled eluate fractions, dsDNA was removed 4-fold (291 ng/mL) and endotoxin 14-fold (0.47 EU/μg FGF-2) more efficiently by CM-SFF than by affinity chromatography. In contrast, HCP clearance was 3-fold (13 ppm) more efficient with Heparin-SFF than CM-SFF. In contrast to process monitoring by UV 280nm or SDS-PAGE, this characterization is the basis for a Process Analytical Technology attempt when correlated with online monitored signals, as it enables knowledge-based pooling according to defined quality criteria. Highlights • Impurity ratios in the eluate fractions differ depending on the capture method. • Clearance of host cell proteins and dsDNA under limit of quantification. • Ion exchange chromatographic step fulfills criteria for clinical application. • Two step purification allows direct processing of clarified E. coli homogenate. • Hydrophobic interaction method enables endotoxin clearance without product loss. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
10465928
Volume :
153
Database :
Academic Search Index
Journal :
Protein Expression & Purification
Publication Type :
Academic Journal
Accession number :
132148802
Full Text :
https://doi.org/10.1016/j.pep.2018.08.009