Expanded bed adsorption for recovery of renatured human recombinant interleukin 8 from Escherichia coli inclusion bodies.

Expanded bed adsorption is a chromatography technique based on stable fluidization, designed for large scale recovery of proteins directly from particulate-containing feedstocks. Described in this article is the use of expanded bed adsorption for recovery of renatured recombinant human interleukin 8 from Escherichia coli inclusion bodies, using a cation exchange adsorbent. The yield of interleukin 8 from the expanded bed was approximately 100% and the purification factor was approximately 4. Following each interleukin 8 purification a cleaning in place procedure was performed with a commercial cleaner. The results show that the adsorbent can be used at least 50 times without any significant loss of function.

Pilot scale recovery of recombinant annexin V from unclarified escherichia coli homogenate using expanded bed adsorption.

Expanded bed adsorption is a new downstream processing technique forcapture of proteins directly from unclarified feedstocks. Expanded bed adsorption reduces the number of operations in purification processes by combining clarification, concentration, and capture into one operation. It is based on stable fluidization and uses adsorbent particles with well-defined size and density distributions, together with columns designed to giveeven liquid flow distribution. The bed expands as the adsorbent particles are lifted by an upward liquid flow through the column. The behavior of the expanded bed is similar to a packed chromatography bed due to very little back-mixing of the adsorbent particles. The major benefit of using anexpanded bed is that adsorption can be carried out with unclarified feedstocks; there is no need for centrifugation or filtration to remove cells and debris. When the feedstock is applied, the target protein is captured by the adsorbent while cells and debris pass through the column unhindered. Washing is performed with the bed in an expanded mode, followed by elution of bound protein in a sedimented mode with downward flowDescribed in this article is the use of expanded bed adsorption for pilot scale recovery of recombinant human placental annexin V from an Escherichia coli ho mogenate. The description includes the whole procedure, from small-scale method optimization to pilot scale. The recovery of annexin V was approximately 95% at both lab scale and pilot scale. During the trials, it was discovered that the expanded bed was affected by the biomass content and viscosity of the homogenate. The upper limits for these parameters were therefore investigated further. For the E. coli used in the application described here, homogenates with biomass dry weightup to 5% and viscosities up to 10 mPa s (at a shear rate of 1 s(-1)) worked best. It was, however, feasible to use homogenates with dry weight up to 7-8% and viscosities up to 50 mPa s (1 s(-1)). (c) 1994 John Wiley & Sons, Inc.