Chemically generated IgG2 bispecific antibodies through disulfide bridging

[Display omitted] Bispecific antibodies (BsAbs) are designed to engage two antigens simultaneously, thus, effectively expanding the ability of antibody-based therapeutics to target multiple pathways within the same cell, engage two separate soluble antigens, bind the same antigen with distinct paratopes, or crosslink two different cell types. Many recombinant BsAb formats have emerged, however, expression and purification of such constructs can often be challenging. To this end, we have developed a chemical strategy for generating BsAbs using native IgG2 architecture. Full-length antibodies can be conjugated via disulfide bridging with linkers bearing orthogonal groups to produce BsAbs. We report that an αHER2/EGFR BsAb was successfully generated by this approach and retained the ability to bind both antigens with no significant loss of potency.