iScience (Aug 2023)

Engineering a versatile and retrievable cell macroencapsulation device for the delivery of therapeutic proteins

  • Julien Grogg,
  • Remi Vernet,
  • Emily Charrier,
  • Muriel Urwyler,
  • Olivier Von Rohr,
  • Valentin Saingier,
  • Fabien Courtout,
  • Aurelien Lathuiliere,
  • Nicolas Gaudenzio,
  • Adrien Engel,
  • Nicolas Mach

Journal volume & issue
Vol. 26, no. 8
p. 107372

Abstract

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Summary: Encapsulated cell therapy holds a great potential to deliver sustained levels of highly potent therapeutic proteins to patients and improve chronic disease management. A versatile encapsulation device that is biocompatible, scalable, and easy to administer, retrieve, or replace has yet to be validated for clinical applications. Here, we report on a cargo-agnostic, macroencapsulation device with optimized features for protein delivery. It is compatible with adherent and suspension cells, and can be administered and retrieved without burdensome surgical procedures. We characterized its biocompatibility and showed that different cell lines producing different therapeutic proteins can be combined in the device. We demonstrated the ability of cytokine-secreting cells encapsulated in our device and implanted in human skin to mobilize and activate antigen-presenting cells, which could potentially serve as an effective adjuvant strategy in cancer immunization therapies. We believe that our device may contribute to cell therapies for cancer, metabolic disorders, and protein-deficient diseases.

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