Litcius/Paper detail

Photoporation with Biodegradable Polydopamine Nanosensitizers Enables Safe and Efficient Delivery of mRNA in Human T Cells

Aranit Harizaj, Mike Wels, Laurens Raes, Stephan Stremersch, Glenn Goetgeluk, Toon Brans, Bart Vandekerckhove, Félix Sauvage, Stefaan C. De Smedt, Ine Lentacker, Kevin Braeckmans

2021Advanced Functional Materials51 citationsDOIOpen Access PDF

Abstract

Abstract Safe and efficient production of chimeric antigen receptor (CAR)‐T cells is of crucial importance for cell‐based cancer immunotherapy. Physical transfection methods have quickly gained in importance in the context of transfecting T‐cells, since they are readily compatible with different cell types and a broad variety of cargo molecules. In particular, nanoparticle‐sensitized photoporation has been introduced in recent years as a gentle yet efficient method to transiently permeabilize cells, allowing subsequent entry of external cargo molecules into the cells. Gold nanoparticles (AuNPs) have been used the most as photothermal sensitizers because they can easily form laser‐induced vapor nanobubbles, a photothermal phenomenon that is shown to be particularly efficient for permeabilizing cells. However, as AuNPs are not biodegradable, clinical translation is hampered. Here, for the first time, the possibility to form laser‐induced vapor nanobubbles from biocompatible polymeric nanoparticles is reported. Compared to electroporation, the most used physical transfection method for T cells, 2.5 times more living mRNA transfected human T cells are obtained via photoporation sensitized by polydopamine nanoparticles. This shows that photoporation is a viable approach for efficiently producing therapeutic engineered T‐cells at a throughput easily exceeding 10 5 cells per second.

Topics & Concepts

Photothermal therapyElectroporationTransfectionMaterials scienceNanotechnologyContext (archaeology)Cancer cellCancer immunotherapyNanoparticleColloidal goldBiophysicsImmunotherapyCell cultureCancerChemistryBiologyImmune systemBiochemistryImmunologyGeneticsGenePaleontologyCAR-T cell therapy researchNanowire Synthesis and ApplicationsRNA Interference and Gene Delivery