Delivery of macromolecules in unstimulated T cells by photoporation with polydopamine nanoparticles

Ex vivo modification of T cells with exogenous cargo is a common prerequisite for the development of T cell therapies, such as chimeric antigen receptor therapy. Despite the clinical success and FDA approval of several such products, T cell manufacturing presents unique challenges related to therape...

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Published in:Journal of controlled release Vol. 354; pp. 680 - 693
Main Authors: Berdecka, Dominika, Harizaj, Aranit, Goemaere, Ilia, Punj, Deep, Goetgeluk, Glenn, De Munter, Stijn, De Keersmaecker, Herlinde, Boterberg, Veerle, Dubruel, Peter, Vandekerckhove, Bart, De Smedt, Stefaan C., De Vos, Winnok H., Braeckmans, Kevin
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-02-2023
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Summary:Ex vivo modification of T cells with exogenous cargo is a common prerequisite for the development of T cell therapies, such as chimeric antigen receptor therapy. Despite the clinical success and FDA approval of several such products, T cell manufacturing presents unique challenges related to therapeutic efficacy after adoptive cell transfer and several drawbacks of viral transduction-based manufacturing, such as high cost and safety concerns. To generate cellular products with optimal potency, engraftment potential and persistence in vivo, recent studies have shown that minimally differentiated T cell phenotypes are preferred. However, genetic engineering of quiescent T cells remains challenging. Photoporation is an upcoming alternative non-viral transfection method which makes use of photothermal nanoparticles, such as polydopamine nanoparticles (PDNPs), to induce transient membrane permeabilization by distinct photothermal effects upon laser irradiation, allowing exogenous molecules to enter cells. In this study, we analyzed the capability of PDNP-photoporation to deliver large model macromolecules (FITC-dextran 500 kDa, FD500) in unstimulated and expanded human T cells. We compared different sizes of PDNPs (150, 250 and 400 nm), concentrations of PDNPs and laser fluences and found an optimal condition that generated high delivery yields of FD500 in both T cell phenotypes. A multiparametric analysis of cell proliferation, surface activation markers and cytokine production, revealed that unstimulated T cells photoporated with 150 nm and 250 nm PDNPs retained their propensity to become activated, whereas those photoporated with 400 nm PDNPs did less. Our findings show that PDNP-photoporation is a promising strategy for transfection of quiescent T cells, but that PDNPs should be small enough to avoid excessive cell damage. [Display omitted] •Photoporation with polydopamine NPs enables efficient macromolecule delivery in both unstimulated and activated T cells.•Quiescent T cell treatment with 150 nm NPs generated favorable delivery yields with a minimal impact on cell functionality.•The size of the photothermal nanosensitizer should be tailored to the cell (pheno)type.
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content type line 23
ISSN:0168-3659
1873-4995
DOI:10.1016/j.jconrel.2023.01.047