Nanobody-liposomes as novel cancer vaccine platform to efficiently stimulate T cell immunity

R. G. Bouma; M. K. Nijen Twilhaar; H. J. Brink; A. J. Affandi; B. S. Mesquita; K. Olesek; J. M.A. van Dommelen; R. Heukers; A. M. de Haas; H. Kalay; M. Ambrosini; J. M. Metselaar; A. van Rooijen; G. Storm; S. Oliveira; Y. van Kooyk; J. M.M. den Haan

doi:10.1016/j.ijpharm.2024.124254

Nanobody-liposomes as novel cancer vaccine platform to efficiently stimulate T cell immunity

R. G. Bouma
, M. K. Nijen Twilhaar
, H. J. Brink
, A. J. Affandi
, B. S. Mesquita
, K. Olesek
, J. M.A. van Dommelen
, R. Heukers
, A. M. de Haas
, H. Kalay
, M. Ambrosini
, J. M. Metselaar
, A. van Rooijen
, G. Storm
, S. Oliveira
, Y. van Kooyk
, J. M.M. den Haan^*

^*Corresponding author for this work

Vrije Universiteit Amsterdam
Amsterdam Institute for Immunology and Infectious Diseases
Amsterdam UMC
Utrecht University
QVQ Holding BV
Liposoma B.V
RWTH Aachen University
University of Twente
National University of Singapore

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

Cancer vaccines can be utilized in combination with checkpoint inhibitors to optimally stimulate the anti-tumor immune response. Uptake of vaccine antigen by antigen presenting cells (APCs) is a prerequisite for T cell priming, but often relies on non-specific mechanisms. Here, we have developed a novel vaccination strategy consisting of cancer antigen-containing liposomes conjugated with CD169- or DC-SIGN-specific nanobodies (single domain antibodies) to achieve specific uptake by APCs. Our studies demonstrate efficient nanobody liposome uptake by human and murine CD169⁺ and DC-SIGN⁺ APCs in vitro and in vivo when compared to control liposomes or liposomes with natural ligands for CD169 and DC-SIGN. Uptake of CD169 nanobody liposomes resulted in increased T cell activation by human APCs and stimulated naive T cell priming in mouse models. In conclusion, while nanobody liposomes have previously been utilized to direct drugs to tumors, here we show that nanobody liposomes can be applied as vaccination strategy that can be extended to other receptors on APCs in order to elicit a potent immune response against tumor antigens.

Original language	English
Article number	124254
Journal	International journal of pharmaceutics
Volume	660
DOIs	https://doi.org/10.1016/j.ijpharm.2024.124254
Publication status	Published - 20 Jul 2024

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SDG 3 Good Health and Well-being

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Nanobody-liposomes-as-novel-cancer-vaccine-platform-to-efficiently-stimulate-t-cell-immunity.pdfFinal published version, 3.88 MBLicence: CC BY

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Bouma, R. G., Nijen Twilhaar, M. K., Brink, H. J., Affandi, A. J., Mesquita, B. S., Olesek, K., van Dommelen, J. M. A., Heukers, R., de Haas, A. M., Kalay, H., Ambrosini, M., Metselaar, J. M., van Rooijen, A., Storm, G., Oliveira, S., van Kooyk, Y., & den Haan, J. M. M. (2024). Nanobody-liposomes as novel cancer vaccine platform to efficiently stimulate T cell immunity. International journal of pharmaceutics, 660, Article 124254. https://doi.org/10.1016/j.ijpharm.2024.124254

@article{72606c0c6a1f452baf80f70ac2d68cc0,

title = "Nanobody-liposomes as novel cancer vaccine platform to efficiently stimulate T cell immunity",

abstract = "Cancer vaccines can be utilized in combination with checkpoint inhibitors to optimally stimulate the anti-tumor immune response. Uptake of vaccine antigen by antigen presenting cells (APCs) is a prerequisite for T cell priming, but often relies on non-specific mechanisms. Here, we have developed a novel vaccination strategy consisting of cancer antigen-containing liposomes conjugated with CD169- or DC-SIGN-specific nanobodies (single domain antibodies) to achieve specific uptake by APCs. Our studies demonstrate efficient nanobody liposome uptake by human and murine CD169+ and DC-SIGN+ APCs in vitro and in vivo when compared to control liposomes or liposomes with natural ligands for CD169 and DC-SIGN. Uptake of CD169 nanobody liposomes resulted in increased T cell activation by human APCs and stimulated naive T cell priming in mouse models. In conclusion, while nanobody liposomes have previously been utilized to direct drugs to tumors, here we show that nanobody liposomes can be applied as vaccination strategy that can be extended to other receptors on APCs in order to elicit a potent immune response against tumor antigens.",

author = "Bouma, \{R. G.\} and \{Nijen Twilhaar\}, \{M. K.\} and Brink, \{H. J.\} and Affandi, \{A. J.\} and Mesquita, \{B. S.\} and K. Olesek and \{van Dommelen\}, \{J. M.A.\} and R. Heukers and \{de Haas\}, \{A. M.\} and H. Kalay and M. Ambrosini and Metselaar, \{J. M.\} and \{van Rooijen\}, A. and G. Storm and S. Oliveira and \{van Kooyk\}, Y. and \{den Haan\}, \{J. M.M.\}",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s)",

year = "2024",

month = jul,

day = "20",

doi = "10.1016/j.ijpharm.2024.124254",

language = "English",

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Bouma, RG, Nijen Twilhaar, MK, Brink, HJ, Affandi, AJ, Mesquita, BS, Olesek, K, van Dommelen, JMA, Heukers, R, de Haas, AM, Kalay, H, Ambrosini, M, Metselaar, JM, van Rooijen, A, Storm, G, Oliveira, S, van Kooyk, Y & den Haan, JMM 2024, 'Nanobody-liposomes as novel cancer vaccine platform to efficiently stimulate T cell immunity', International journal of pharmaceutics, vol. 660, 124254. https://doi.org/10.1016/j.ijpharm.2024.124254

TY - JOUR

T1 - Nanobody-liposomes as novel cancer vaccine platform to efficiently stimulate T cell immunity

AU - Bouma, R. G.

AU - Nijen Twilhaar, M. K.

AU - Brink, H. J.

AU - Affandi, A. J.

AU - Mesquita, B. S.

AU - Olesek, K.

AU - van Dommelen, J. M.A.

AU - Heukers, R.

AU - de Haas, A. M.

AU - Kalay, H.

AU - Ambrosini, M.

AU - Metselaar, J. M.

AU - van Rooijen, A.

AU - Storm, G.

AU - Oliveira, S.

AU - van Kooyk, Y.

AU - den Haan, J. M.M.

PY - 2024/7/20

Y1 - 2024/7/20

N2 - Cancer vaccines can be utilized in combination with checkpoint inhibitors to optimally stimulate the anti-tumor immune response. Uptake of vaccine antigen by antigen presenting cells (APCs) is a prerequisite for T cell priming, but often relies on non-specific mechanisms. Here, we have developed a novel vaccination strategy consisting of cancer antigen-containing liposomes conjugated with CD169- or DC-SIGN-specific nanobodies (single domain antibodies) to achieve specific uptake by APCs. Our studies demonstrate efficient nanobody liposome uptake by human and murine CD169+ and DC-SIGN+ APCs in vitro and in vivo when compared to control liposomes or liposomes with natural ligands for CD169 and DC-SIGN. Uptake of CD169 nanobody liposomes resulted in increased T cell activation by human APCs and stimulated naive T cell priming in mouse models. In conclusion, while nanobody liposomes have previously been utilized to direct drugs to tumors, here we show that nanobody liposomes can be applied as vaccination strategy that can be extended to other receptors on APCs in order to elicit a potent immune response against tumor antigens.

AB - Cancer vaccines can be utilized in combination with checkpoint inhibitors to optimally stimulate the anti-tumor immune response. Uptake of vaccine antigen by antigen presenting cells (APCs) is a prerequisite for T cell priming, but often relies on non-specific mechanisms. Here, we have developed a novel vaccination strategy consisting of cancer antigen-containing liposomes conjugated with CD169- or DC-SIGN-specific nanobodies (single domain antibodies) to achieve specific uptake by APCs. Our studies demonstrate efficient nanobody liposome uptake by human and murine CD169+ and DC-SIGN+ APCs in vitro and in vivo when compared to control liposomes or liposomes with natural ligands for CD169 and DC-SIGN. Uptake of CD169 nanobody liposomes resulted in increased T cell activation by human APCs and stimulated naive T cell priming in mouse models. In conclusion, while nanobody liposomes have previously been utilized to direct drugs to tumors, here we show that nanobody liposomes can be applied as vaccination strategy that can be extended to other receptors on APCs in order to elicit a potent immune response against tumor antigens.

UR - https://www.scopus.com/pages/publications/85195462707

U2 - 10.1016/j.ijpharm.2024.124254

DO - 10.1016/j.ijpharm.2024.124254

M3 - Article

C2 - 38795934

SN - 0378-5173

VL - 660

JO - International journal of pharmaceutics

JF - International journal of pharmaceutics

M1 - 124254

ER -

Nanobody-liposomes as novel cancer vaccine platform to efficiently stimulate T cell immunity

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