Improved assembly of bispecific antibodies from knob and hole half-antibodies

A process was developed for large-scale assembly of IgG(1) and IgG(4) bispecific antibodies from knob and hole half-antibodies. We optimized assembly conditions such as pH, temperature, stabilizers, and reducing agent. We also identified and exploited structural changes unique to knob and hole half-antibodies with the result of improving assembly outcome, specifically storing half-antibodies at higher pH will condition them to assemble more rapidly and produce fewer high molecular-weight species (HMWS). Application of heat to the assemblies resulted in an acceleration of assembly rate, with optimal formation of bispecific achieved at 37 degrees C. IgG(4) half-antibodies were unusually sensitive to temperature-dependent formation of HMWS in pre-assembly conditioning as well as during assembly. We selected l-histidine and Polyvinylpyrrolidone (PVP) as stabilizers to prevent HMWS formation in IgG(4), and achieved rapid and high-efficiency assemblies. Using optimized assembly conditions, we developed and scaled up a method for assembling bispecific antibody with 90% assembly efficiency over 6 h with minimal impact to product quality, generating a pool with bispecific antibody for downstream processing. (c) 2015 American Institute of Chemical Engineers Biotechnol. Prog., 31:1315-1322, 2015