Abstract: A purification process to obtain coagulation factor VIII (FVIII) with high activity from human plasma was established. Based on the analysis of the size ratio between FVIII and matrix porous medium and its effect on the protein activity, a novel purification process designed was superporous ion exchange chromatography (IEC). The operating conditions of gigaporous and traditional anion exchange chromatography were optimized separately. The chromogenic substrate, gel filtration and sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) were used to monitor the bioactivity and purity of the chromatographic products. The results showed that the superporous medium could not only protect structure of macro-protein but also enhance its mass transfer, finally giving FVIII product with high activity. The yield of FVIII in superporous chromatography was about five times of commercially agarose chromatography and the specific activity was up to 154 IU/mg protein. Furthermore, we studied the regeneration process of the superporous medium, washing the column with 5 column volumes of 1 mol/L NaOH at a low flow rate, to ensure the chromatographic stability. This purification process is simple, reproducible and suitable for large-scale production.

Key words: coagulation factor VIII, plasma protein, separation and purification, gigaporous preparative ion exchange chromatography