Structural study of a light chain mispaired bispecific predicts mechanism of downstream separation

Abstract

Bispecific antibodies expressed and assembled from a single upstream culture require the correct balance and pairing of four different heavy and light chains (HC and LC). The increased potential for chain-mispaired species challenges the downstream purification of this new format. While clearance of HC-mispaired species, including homodimers and half-antibodies, has been assessed, removal of LC mispairs requires a more stringent approach. Here, we report two case studies in which separation is achieved, as well as the structural basis of these separations: (A) In the first case, a main species with a positively charged patch in the correctly formed variable fragment (Fv) is disrupted when paired with the wrong LC. This LC-mispaired variant binds more weakly to a cation exchange resin and can be washed off in a chromatography step. (B) A second molecule whose LC mispair introduces a negative-charge patch and hydrophobic patch in close proximity, presenting increased binding to a multimodal anion exchange resin. This LC-mispaired variant can be retained on the column under conditions in which the bispecific is recovered. In both case studies, the molecular structural analysis by protein surface properties models correlated well with the chromatography experiments. The comprehensive interpretation of experimental and computational results has provided a better understanding of strategies and potential applications for predicting the downstream purification of complex molecules.