Abstract

BackgroundSite-specific coupling of toxin entities to antibodies has become a popular method of synthesis of antibody-drug conjugates (ADCs), as it leads to a homogenous product and allows a free choice of a convenient site for conjugation. MethodsWe introduced a short motif, containing a single cysteine surrounded by aromatic residues, into the N-terminal FG-loop of the CH2 domain of two model antibodies, cetuximab and trastuzumab. The extent of conjugation with toxic payload was examined with hydrophobic interaction chromatography and mass spectrometry and the activity of resulting conjugates was tested on antigen-overexpressing cell lines. ResultsAntibody mutants were amenable for rapid coupling with maleimide-based linker endowed toxin payload and the modifications did not impair their reactivity with target cell lines or negatively impact their biophysical properties. Without any previous reduction, up to 50% of the antibody preparation was found to be coupled with two toxins per molecule. After the isolation of this fraction with preparative hydrophobic interaction chromatography, the ADC could elicit a potent cytotoxic effect on the target cell lines. ConclusionBy fine-tuning the microenvironment of the reactive cysteine residue, this strategy offers a simplified protocol for production of site-selectively coupled ADCs. General significanceOur unique approach allows the generation of therapeutic ADCs with controlled chemical composition, which facilitates the optimization of their pharmacological activity. This strategy for directional coupling could in the future simplify the construction of ADCs with double payloads (“dual warheads”) introduced with orthogonal techniques.

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