Litcius/Paper detail

Targeting antibodies dissociate from drug delivery liposomes during blood circulation

Unnur Jóna Björgvinsdóttir, Jannik B. Larsen, Martin Bak, Thomas L. Andresen, Rasmus Münter

2025Journal of Controlled Release18 citationsDOIOpen Access PDF

Abstract

Despite three decades of intense research, active targeting of liposomes have not been successfully achieved in a clinical setting. A potential explanation is that the clinically used liposomes lose their targeting abilities upon circulation. Here, we investigated if DSPE-PEG anchored antibody-based targeting ligands dissociate from clinically relevant drug delivery liposomes during circulation in mice. We found that during 4 h of circulation, a significant fraction of the liposomes lose all targeting ligands, while the liposomes with some targeting ligands remaining on their surface, show a > 50 % reduction in surface density of ligands. This was detected irrespective of antibody format (IgG, Fab, F(ab’)2), ability to interact with Fc receptors or linking chemistry. Dissociation of targeting antibodies did however not take place when incubating liposomes in serum, but required an in vivo setup, demonstrating that in vitro setups are unsuitable for quantifying such liposome disassembly processes. The observation unravels a problem that researchers developing targeted drug delivery vehicles should take into account when designing novel formulations. • Association of targeting ligands with stealth liposomes was studied using a single particle assay. • Roughly half of the targeting ligands dissociated from liposomes after 4 h blood circulation. • Size of the ligand had limited impact on the extent of dissociation.

Topics & Concepts

LiposomeDrug deliveryChemistryDrugAntibodyCirculation (fluid dynamics)Blood circulationTargeted drug deliveryPharmacologyMedicineImmunologyBiochemistryTraditional medicinePhysicsThermodynamicsOrganic chemistryMonoclonal and Polyclonal Antibodies ResearchNanoparticle-Based Drug DeliveryProtein purification and stability