posted on 2024-10-11, 14:36authored byYue Huang, Hui Yin Tan, Jiaqi Yuan, Ruipeng Mu, Junyan Yang, Kathryn Ball, Balakumar Vijayakrishnan, Luke Masterson, Krista Kinneer, Nadia Luheshi, Meina Liang, Anton I. Rosenbaum
What happens to macromolecules in vivo? What drives
the structure–activity relationship and in vivo stability for antibody-drug conjugates (ADCs)? These interrelated
questions are increasingly relevant due to the re-emerging importance
of ADCs as an impactful therapeutic modality and the gaps that exist
in our understanding of ADC structural determinants that underlie
ADC in vivo stability. Complex macromolecules, such
as ADCs, may undergo changes in vivo due to their
intricate structure as biotransformations may occur on the linker,
the payload, and/or at the modified conjugation site. Furthermore,
the dissection of ADC metabolism presents a substantial analytical
challenge due to the difficulty in the identification or quantification
of minor changes on a large macromolecule. We employed immunocapture-LCMS
methods to evaluate in vivo changes in the drug-antibody
ratio (DAR) profile in four different lead ADCs. This comprehensive
characterization revealed that a critical structural determinant contributing
to the ADC design was the linker, and competition of the thio-succinimide
hydrolysis reaction over retro-Michael deconjugation can result in
superb conjugation stability in vivo. These data, in conjunction with
additional factors, informed the selection of AZD8205, puxitatug samrotecan,
a B7-H4-directed cysteine-conjugated ADC bearing a novel topoisomerase
I inhibitor payload, with durable DAR, currently being studied in
the clinic for the potential treatment of solid malignancies (NCT05123482).
These results highlight the relevance of studying macromolecule biotransformation
and elucidating the ADC structure–in vivo stability
relationship. The comprehensive nature of this work increases our
confidence in the understanding of these processes. We hope this analytical
approach can inform future development of bioconjugate drug candidates.