Photothermal nanofibers enable macromolecule delivery in unstimulated human T cells

Berdecka, Dominika; Minsart, Manon; Lu, Tao; Punj, Deep; De Rycke, Riet; Nikolić, Mina; Bolea Fernandez, Eduardo; Vanhaecke, Frank; Xiong, Ranhua; De Smedt, Stefaan; Dubruel, Peter; De Vos, Winnok; Braeckmans, Kevin

Photothermal nanofibers enable macromolecule delivery in unstimulated human T cells

Dominika Berdecka (UGent) , Manon Minsart (UGent) , Tao Lu (UGent) , Deep Punj (UGent) , Riet De Rycke (UGent) , Mina Nikolić (UGent) , Eduardo Bolea Fernandez (UGent) , Frank Vanhaecke (UGent) , Ranhua Xiong (UGent) , Stefaan De Smedt (UGent) , et al.

(2023) APPLIED MATERIALS TODAY. 35.

Author

Dominika Berdecka (UGent) , Manon Minsart (UGent) , Tao Lu (UGent) , Deep Punj (UGent) , Riet De Rycke (UGent) , Mina Nikolić (UGent) , Eduardo Bolea Fernandez (UGent) , Frank Vanhaecke (UGent) , Ranhua Xiong (UGent) , Stefaan De Smedt (UGent) , Peter Dubruel (UGent) , Winnok De Vos (UGent) and Kevin Braeckmans (UGent)

Organization

Project

Abstract

Cell therapies such as adoptive T cell transfer require ex vivo modification of cells with exogenous cargo to modulate their phenotype (e.g., to express a synthetic antigen receptor) for optimal therapeutic efficacy upon reinfusion in a patient. Several studies have shown superior anti-tumor activity of minimally differentiated T cell subsets over their activated counterparts. Therefore, developing techniques for safe and efficient manipulation of these quiescent cells is important for both clinical applications and fundamental studies of T cell biology. Photoporation with photothermal electrospun nanofibers (PEN) is an efficient and minimally perturbing nonviral intracellular delivery technique for activated and expanded T cells. However, the technique has not yet been applied to unstimulated T cells. Here, we investigated the potential of PEN photoporation for delivery of macromolecules into these cells. First, we confirmed with inductively coupled plasma tandem mass spectrometry that there was no significant iron release from fibers after laser activation of PEN substrates for laser fluences up to 0.36 J/cm2. Next, we demonstrated successful intracellular delivery of 150 kDa FITC-dextran as model macromolecule in resting and pre-activated lymphocytes with 55-60 % delivery efficiency. By analyzing metabolic activity, activation surface marker presentation and extracellular cytokine release, we found that PEN treatment had no effect on cell proliferation and limited impact on T cell activation propensity for all tested irradiation energies. Thus, our findings show that PEN photoporation holds promise as a safe and efficient delivery strategy, paving the way for its use in genetic modification of minimally differentiated T cells.

Keywords

General Materials Science, T cells, Photothermal nanofibers, Photoporation, Intracellular delivery, Cell therapy, Electrospinning, INTRACELLULAR DELIVERY, VAPOR NANOBUBBLE, RNP TRANSFECTION, IN-VITRO, PHOTOPORATION, MOLECULES, NANOPARTICLES, NANOMATERIALS, DISRUPTION

Downloads

Download

(...).pdf
- full text (Published version)
- |
- UGent only
- |
- PDF
- |
- 7.50 MB

Citation

Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-01HHJDZB4MTW4GD96ZYF9MPBQD

MLA: Berdecka, Dominika, et al. “Photothermal Nanofibers Enable Macromolecule Delivery in Unstimulated Human T Cells.” APPLIED MATERIALS TODAY, vol. 35, 2023, doi:10.1016/j.apmt.2023.101991.
APA: Berdecka, D., Minsart, M., Lu, T., Punj, D., De Rycke, R., Nikolić, M., … Braeckmans, K. (2023). Photothermal nanofibers enable macromolecule delivery in unstimulated human T cells. APPLIED MATERIALS TODAY, 35. https://doi.org/10.1016/j.apmt.2023.101991
Chicago author-date: Berdecka, Dominika, Manon Minsart, Tao Lu, Deep Punj, Riet De Rycke, Mina Nikolić, Eduardo Bolea Fernandez, et al. 2023. “Photothermal Nanofibers Enable Macromolecule Delivery in Unstimulated Human T Cells.” APPLIED MATERIALS TODAY 35. https://doi.org/10.1016/j.apmt.2023.101991.
Chicago author-date (all authors): Berdecka, Dominika, Manon Minsart, Tao Lu, Deep Punj, Riet De Rycke, Mina Nikolić, Eduardo Bolea Fernandez, Frank Vanhaecke, Ranhua Xiong, Stefaan De Smedt, Peter Dubruel, Winnok De Vos, and Kevin Braeckmans. 2023. “Photothermal Nanofibers Enable Macromolecule Delivery in Unstimulated Human T Cells.” APPLIED MATERIALS TODAY 35. doi:10.1016/j.apmt.2023.101991.
Vancouver: 1.
Berdecka D, Minsart M, Lu T, Punj D, De Rycke R, Nikolić M, et al. Photothermal nanofibers enable macromolecule delivery in unstimulated human T cells. APPLIED MATERIALS TODAY. 2023;35.
IEEE: [1]
D. Berdecka et al., “Photothermal nanofibers enable macromolecule delivery in unstimulated human T cells,” APPLIED MATERIALS TODAY, vol. 35, 2023.

@article{01HHJDZB4MTW4GD96ZYF9MPBQD,
  abstract     = {{Cell therapies such as adoptive T cell transfer require ex vivo modification of cells with exogenous cargo to modulate their phenotype (e.g., to express a synthetic antigen receptor) for optimal therapeutic efficacy upon reinfusion in a patient. Several studies have shown superior anti-tumor activity of minimally differentiated T cell subsets over their activated counterparts. Therefore, developing techniques for safe and efficient manipulation of these quiescent cells is important for both clinical applications and fundamental studies of T cell biology. Photoporation with photothermal electrospun nanofibers (PEN) is an efficient and minimally perturbing nonviral intracellular delivery technique for activated and expanded T cells. However, the technique has not yet been applied to unstimulated T cells. Here, we investigated the potential of PEN photoporation for delivery of macromolecules into these cells. First, we confirmed with inductively coupled plasma tandem mass spectrometry that there was no significant iron release from fibers after laser activation of PEN substrates for laser fluences up to 0.36 J/cm2. Next, we demonstrated successful intracellular delivery of 150 kDa FITC-dextran as model macromolecule in resting and pre-activated lymphocytes with 55-60 % delivery efficiency. By analyzing metabolic activity, activation surface marker presentation and extracellular cytokine release, we found that PEN treatment had no effect on cell proliferation and limited impact on T cell activation propensity for all tested irradiation energies. Thus, our findings show that PEN photoporation holds promise as a safe and efficient delivery strategy, paving the way for its use in genetic modification of minimally differentiated T cells.}},
  articleno    = {{101991}},
  author       = {{Berdecka, Dominika and Minsart, Manon and Lu, Tao and Punj, Deep and De Rycke, Riet and Nikolić, Mina and Bolea Fernandez, Eduardo and Vanhaecke, Frank and Xiong, Ranhua and De Smedt, Stefaan and Dubruel, Peter and De Vos, Winnok and Braeckmans, Kevin}},
  issn         = {{2352-9407}},
  journal      = {{APPLIED MATERIALS TODAY}},
  keywords     = {{General Materials Science,T cells,Photothermal nanofibers,Photoporation,Intracellular delivery,Cell therapy,Electrospinning,INTRACELLULAR DELIVERY,VAPOR NANOBUBBLE,RNP TRANSFECTION,IN-VITRO,PHOTOPORATION,MOLECULES,NANOPARTICLES,NANOMATERIALS,DISRUPTION}},
  language     = {{eng}},
  pages        = {{14}},
  title        = {{Photothermal nanofibers enable macromolecule delivery in unstimulated human T cells}},
  url          = {{http://doi.org/10.1016/j.apmt.2023.101991}},
  volume       = {{35}},
  year         = {{2023}},
}

Altmetric: View in Altmetric
Web of Science: Times cited:

Academic Bibliography

Photothermal nanofibers enable macromolecule delivery in unstimulated human T cells

Downloads

Citation

Contents

Support

Contact