1 research outputs found
Modulating Antibody–Drug Conjugate Payload Metabolism by Conjugation Site and Linker Modification
Previous investigations
on antibody-drug conjugate (ADC) stability
have focused on drug release by linker-deconjugation due to the relatively stable payloads such
as maytansines. Recent development of ADCs has been focused on exploring
technologies to produce homogeneous ADCs and new classes of payloads
to expand the mechanisms of action of the delivered drugs. Certain
new ADC payloads could undergo metabolism in circulation while attached
to antibodies and thus affect ADC stability, pharmacokinetics, and
efficacy and toxicity profiles. Herein, we investigate payload stability
specifically and seek general guidelines to address payload metabolism
and therefore increase the overall ADC stability. Investigation was
performed on various payloads with different functionalities (e.g.,
PNU-159682 analog, tubulysin, cryptophycin, and taxoid) using different
conjugation sites (HC-A118C, LC-K149C, and HC-A140C) on THIOMAB antibodies.
We were able to reduce metabolism and inactivation of a broad range
of payloads of THIOMAB antibody-drug conjugates by employing optimal
conjugation sites (LC-K149C and HC-A140C). Additionally, further payload
stability was achieved by optimizing the linkers. Coupling relatively
stable sites with optimized linkers provided optimal stability and
reduction of payloads metabolism in circulation in vivo