Crystallization and liquid‐liquid phase separation of monoclonal antibodies and fc‐fusion proteins: Screening results

Abstract

Crystallization holds the potential to be used for protein purification and low-viscosity drug substance and drug product formulations. Twenty-two different proteins (20 monoclonal antibodies and two Fc-fusions) were examined to determine the breadth of applicability of crystallization to these therapeutic proteins. Vapor diffusion technique and an evaporative screening method were used to identify crystallization conditions using around a 100 initial conditions based on reagents that are generally regarded as safe (GRAS). Of 16 IgG₂s examined, at least four formed diffraction-quality crystals and four others formed crystal-like particles. At least three of the IgG₂s that crystallized well were also crystallized under the same set of operating conditions using inexpensive GRAS reagents. The crystals were formed to high-yields in a few hours and were dissolved quickly without impacting product quality. Although only a fraction of the proteins examined crystallized, all exhibited liquid-liquid phase separation (LLPS), which could be used for their concentration or possibly purification. One of the Fc-fusions, for example, was concentrated by LLPS to a self-buffering solution at 150 g/L. Crystallization and LLPS in the salting-in region were shown to be feasible. © 2011 American Institute of Chemical Engineers Biotechnol. Prog., 2011