Antibody-displaying extracellular vesicles for targeted cancer therapy

Oscar P. B. Wiklander(Karolinska University Hospital), Doste R. Mamand(Karolinska University Hospital), Mohammad H. Forouzanfar(Karolinska Institutet), Wenyi Zheng(Karolinska University Hospital), Rim Jawad Wiklander(Karolinska University Hospital), Taras Sych(Science for Life Laboratory), Antje M. Zickler(Karolinska University Hospital), Xiuming Liang(Karolinska University Hospital), Heena Sharma(PsiOxus Therapeutics (United Kingdom)), Andrea S Lavado(PsiOxus Therapeutics (United Kingdom)), Jeremy Bost(Karolinska University Hospital), Samantha Roudi(Karolinska University Hospital), Giulia Corso(Karolinska University Hospital), Angus J. Lennaárd(Karolinska University Hospital), Manuchehr Abedi‐Valugerdi(Karolinska University Hospital), Imre Mäger(University of Oxford), Evren Alici(Karolinska University Hospital), Erdinç Sezgin(Science for Life Laboratory), Joel Z. Nordin(Karolinska University Hospital), Dhanu Gupta(Karolinska University Hospital), André Görgens(Karolinska University Hospital), Samir EL Andaloussi(Karolinska University Hospital)
Nature Biomedical Engineering
May 20, 2024
10.1038/s41551-024-01214-6
Cited by 117Open Access
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Abstract

Extracellular vesicles (EVs) function as natural delivery vectors and mediators of biological signals across tissues. Here, by leveraging these functionalities, we show that EVs decorated with an antibody-binding moiety specific for the fragment crystallizable (Fc) domain can be used as a modular delivery system for targeted cancer therapy. The Fc-EVs can be decorated with different types of immunoglobulin G antibody and thus be targeted to virtually any tissue of interest. Following optimization of the engineered EVs by screening Fc-binding and EV-sorting moieties, we show the targeting of EVs to cancer cells displaying the human epidermal receptor 2 or the programmed-death ligand 1, as well as lower tumour burden and extended survival of mice with subcutaneous melanoma tumours when systemically injected with EVs displaying an antibody for the programmed-death ligand 1 and loaded with the chemotherapeutic doxorubicin. EVs with Fc-binding domains may be adapted to display other Fc-fused proteins, bispecific antibodies and antibody-drug conjugates.

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