Litcius/Paper detail

Optimization of a pendant-shaped PEGylated linker for antibody-drug conjugates

Tommaso Tedeschini, Benedetta Campara, Antonella Grigoletto, Ilaria Zanotto, Laura Cannella, Daniela Gabbia, Y. Matsuno, Akira Suzuki, Hiroki Yoshioka, Andrea Armirotti, Sara De Martin, Gianfranco Pasut

2024Journal of Controlled Release12 citationsDOIOpen Access PDF

Abstract

In this work, we conceived and developed antibody-drug conjugates (ADCs) that could efficiently release the drug after enzymatic cleavage of the linker moiety by tumoral proteases. The antibody-drug linkers we used are the result of a rational optimization of a previously reported PEGylated linker, PUREBRIGHT® MA-P12-PS, which showed excellent drug loading capacities but lacked an inbuilt drug discharge mechanism, thus limiting the potency of the resulting ADCs. To address this limitation, we chose to incorporate a protease-sensitive trigger into the linker to favor the release of a "PEGless" drug inside the tumor cells and, therefore, obtain potent ADCs. Currently, most marketed ADCs are based on the Val-Cit dipeptide followed by a self-immolative spacer for releasing the drug in its unmodified form. Here, we selected two untraditional peptide sequences, a Phe-Gly dipeptide and a Val-Ala-Gly tripeptide and placed one or the other in between the drug on one side (N-terminus) and the rest of the linker, including the PEG moiety, on the other side (C-terminus), without a self-immolative group. We found that both linkers responded to cathepsin B, a reference lysosomal enzyme, and liberated a PEG-free drug catabolite, as desired. We then used the two linkers to generate ADCs based on trastuzumab (a HER2-targeting antibody) and DM1 (a microtubule-targeted cytotoxic agent) with an average drug-to-antibody ratio (DAR) of 4 or 8. The ADCs showed restored cytotoxicity in vitro, which was proportional to the DM1 loading and generally higher for the ADCs bearing Val-Ala-Gly in their structure. In an ovarian cancer mouse model, the DAR 8 ADC based on Val-Ala-Gly behaved better than Kadcyla® (an approved ADC of DAR 3.5 used as control throughout this study), leading to a higher tumor volume reduction and more prolonged median survival. Taken together, our results depict a successful linker optimization process and encourage the application of the Val-Ala-Gly tripeptide as an alternative to other existing protease-sensitive triggers for ADCs.

Topics & Concepts

LinkerChemistryDipeptideConjugateMoietyTripeptidePeptideCytotoxicityPEG ratioCombinatorial chemistryDrugProteaseStereochemistryIn vitroBiochemistryEnzymePharmacologyBiologyOperating systemFinanceMathematical analysisMathematicsEconomicsComputer scienceHER2/EGFR in Cancer ResearchMonoclonal and Polyclonal Antibodies ResearchPeptidase Inhibition and Analysis
Optimization of a pendant-shaped PEGylated linker for antibody-drug conjugates | Litcius