Site-Specific Quantitation of Drug Conjugations on Antibody-Drug Conjugates (ADCs) Using a Protease-Assisted Drug Deconjugation and Linker-like Labeling (PADDLL) Method.

Abstract

Antibody-drug conjugates (ADCs) are biopharmaceuticals for the targeted delivery of antitumor agents. ADCs can be highly heterogeneous with various drug-to-antibody ratio (DAR) species, conjugation sites, and occupancy levels. The conjugation site can modulate the ADC stability and efficacy and therefore can be considered to be a critical quality attribute (CQA) during development. Traditional mass spectrometry (MS)-based peptide mapping methods cannot accurately quantify site-specific conjugations due to a significant ionization discrepancy between unconjugated native peptides and conjugated peptides. Here, we developed a novel protease-assisted drug deconjugation and linker-like labeling (PADDLL) method to quantify the levels of linker payload at specific conjugation sites. We utilized optimized papain digestion to deconjugate the drug payload and labeled unoccupied conjugation sites with a linker-like structure to provide comparable ionization efficiency for MS-based quantitation. This method was successfully applied on two cysteine-linked, protease-cleavable ADCs, and the method demonstrated good linearity and reliability, reaching a limit of quantitation of below 1%. The calculated DARs were comparable with the results from intact mass analysis. The lot-to-lot variation in conjugation distribution and inferior conjugation stability at HC Cys225 to other interchain cysteines were observed. This method provides a valuable tool for ADC design and product development. To the best of our knowledge, this is the first analytical method developed to accurately quantify site-specific linker-drug payload conjugations for ADCs.