Profiling antibody drug conjugate positional isomers: a system-of-equations approach.

Antibody drug conjugates enable the targeted delivery of potent chemotherapeutic agents directly to cancerous cells. They are made by the chemical conjugation of cytotoxins to monoclonal antibodies, which can be achieved by first reducing interchain disulfide bonds followed by conjugation of the resulting free thiols with drugs. This process yields a controlled, but heterogeneous, population of conjugated products that contains species with various numbers of drugs linked to different former interchain disulfide cysteine residues on the antibodies. We have developed a mathematical approach using inputs from capillary electrophoresis and hydrophobic interaction chromatography to determine the positional isomer distribution within a population of antibody drug conjugates. The results are confirmed by analyzing isolated samples of specific drug-to-antibody ratio species. The procedure is amenable to rapid determination of positional isomer distributions and features low material requirements. A survey of sev...