1. Academic Validation
  2. Optimization of a pendant-shaped PEGylated linker for antibody-drug conjugates

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

  • J Control Release. 2024 Nov:375:74-89. doi: 10.1016/j.jconrel.2024.08.049.
T Tedeschini 1 B Campara 2 A Grigoletto 2 I Zanotto 2 L Cannella 2 D Gabbia 2 Y Matsuno 3 A Suzuki 3 H Yoshioka 3 A Armirotti 4 S De Martin 2 G Pasut 5
Affiliations

Affiliations

  • 1 University of Padova, Dept. Pharmaceutical and Pharmacological Sciences, Via Marzolo 5, 35131 Padova, Italy. Electronic address: tommaso.tedeschini@iit.it.
  • 2 University of Padova, Dept. Pharmaceutical and Pharmacological Sciences, Via Marzolo 5, 35131 Padova, Italy.
  • 3 NOF CORPORATION, Life Science Research Laboratory, 3-3 Chidori-Cho, Kawasaki-Ku, Kawasaki, Kanagawa 210-0865, Japan.
  • 4 Analytical Chemistry Facility, Istituto Italiano di Tecnologia, 16163 Genova, Italy.
  • 5 University of Padova, Dept. Pharmaceutical and Pharmacological Sciences, Via Marzolo 5, 35131 Padova, Italy. Electronic address: gianfranco.pasut@unipd.it.
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.

Keywords

Antibody-drug conjugate; Anticancer therapy; Cleavable peptide linker; Drug delivery; Optimization; PEG.

Figures
Products