HER2-targeted, enzyme-activated liposomes show superior in vivo efficacy in an ovarian cancer model

Christian Ammitzbøll Juul, Trine Bjørnbo Engel, Frederikke Petrine Fliedner, Lars Ringgaard, Rasmus Eliasen, Fredrik Melander, Martin Bak, Andreas Kjær, Jonas Rosager Henriksen, Dennis Ringkjøbing Elema, Anders Elias Hansen, Thomas Lars Andresen*

*Corresponding author for this work

Research output: Contribution to journalJournal articleResearchpeer-review

Abstract

Liposomes carrying chemotherapeutic drugs can accumulate passively in solid tumors at high levels. However, additional targeting of the liposomes towards e.g. receptors expressed on cancer cells may improve their interaction and therapeutic properties. In this study, we designed a liposomal delivery system, which utilizes the intrinsic characteristics of HER2-positive tumors to ensure efficient delivery of oxaliplatin to the cancer cells. On the liposome surface, trastuzumab, an antibody specific to the HER2 receptor, was shown to facilitate internalization by the cancer cells. A polyethylene glycol (PEG) layer on the liposome surface provides protection from mononuclear phagocyte system uptake. To optimize the interaction between liposomes and cancer cells, a protease-sensitive cleavable peptide linker was inserted at the base of each PEG. The PEG layer is then cleaved off by intra- and extracellular matrix metalloproteinases (MMPs) upon accumulation in the tumor. Our data demonstrate that the removal of PEG significantly destabilizes the liposomes and leads to substantial oxaliplatin release. The proposed beneficial effect of combining antibody-mediated internalization with MMP sensitivity was confirmed in a series of in vivo studies using ovarian cancer xenograft models. The results demonstrated that HER2-targeted MMP-sensitive liposomes have superior anticancer activity compared to non-targeted and non-cleavable liposomes.

Original languageEnglish
JournalJournal of controlled release
Volume371
Pages (from-to)288-297
ISSN0168-3659
DOIs
Publication statusPublished - 2024

Keywords

  • Cancer
  • HER2
  • Liposomes
  • Matrix metalloproteinase
  • Targeting

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