Sequential STING and CD40 agonism drives massive expansion of tumor-specific T cells in liposomal peptide vaccines

Dmitrij Ostroumov; Naomi Benne; Fernando Lozano Vigario; Oscar Escalona-Rayo; Ksenia Dodz; Sarah Sauer; Lena Luisa Suhl; Hans Heiner Wedemeyer; Florian Kühnel; Bram Slütter; Thomas Christian Wirth

doi:10.1038/s41423-024-01249-4

Sequential STING and CD40 agonism drives massive expansion of tumor-specific T cells in liposomal peptide vaccines

Dmitrij Ostroumov
, Naomi Benne
, Fernando Lozano Vigario
, Oscar Escalona-Rayo
, Ksenia Dodz
, Sarah Sauer
, Lena Luisa Suhl
, Hans Heiner Wedemeyer
, Florian Kühnel
, Bram Slütter
, Thomas Christian Wirth^*

^*Corresponding author for this work

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

Abstract

The clinical use of cancer vaccines is hampered by the low magnitude of induced T-cell responses and the need for repetitive antigen stimulation. Here, we demonstrate that liposomal formulations with incorporated STING agonists are optimally suited to deliver peptide antigens to dendritic cells in vivo and to activate dendritic cells in secondary lymphoid organs. One week after liposomal priming, systemic administration of peptides and a costimulatory agonistic CD40 antibody enables ultrarapid expansion of T cells, resulting in massive expansion of tumor-specific T cells in the peripheral blood two weeks after priming. In the MC-38 colon cancer model, this synthetic prime-boost regimen induces rapid regression and cure of large established subcutaneous cancers via the use of a single tumor-specific neoantigen. These experiments demonstrate the feasibility of liposome-based heterologous vaccination regimens to increase the therapeutic efficacy of peptide vaccines in the context of immunogenic adjuvants and costimulatory booster immunizations. Our results provide a rationale for the further development of modern liposomal peptide vaccines for cancer therapy.

Original language	English
Article number	1111523
Pages (from-to)	150-160
Number of pages	11
Journal	Cellular and Molecular Immunology
Volume	22
Issue number	2
Early online date	1 Jan 2025
DOIs	https://doi.org/10.1038/s41423-024-01249-4
Publication status	Published - Feb 2025

Bibliographical note

Publisher Copyright:
© The Author(s) 2025.

Funding

This work was supported by a grant from the Deutsche Forschungsgemeinschaft (SFB TR209, Project C05). TCW holds the patent (Nr.: M1073PCT-EP) on the here described vaccination method.

Funders	Funder number
Deutsche Forschungsgemeinschaft (German Research Foundation)	SFB TR209, M1073PCT-EP
Deutsche Forschungsgemeinschaft

Keywords

Cancer
Costimulatory antibodies
Heterologous vaccines
Liposomes
STING agonist

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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s41423-024-01249-4Final published version, 1.77 MBLicence: CC BY

Cite this

Ostroumov, D., Benne, N., Lozano Vigario, F., Escalona-Rayo, O., Dodz, K., Sauer, S., Suhl, L. L., Wedemeyer, H. H., Kühnel, F., Slütter, B., & Wirth, T. C. (2025). Sequential STING and CD40 agonism drives massive expansion of tumor-specific T cells in liposomal peptide vaccines. Cellular and Molecular Immunology, 22(2), 150-160. Article 1111523. https://doi.org/10.1038/s41423-024-01249-4

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abstract = "The clinical use of cancer vaccines is hampered by the low magnitude of induced T-cell responses and the need for repetitive antigen stimulation. Here, we demonstrate that liposomal formulations with incorporated STING agonists are optimally suited to deliver peptide antigens to dendritic cells in vivo and to activate dendritic cells in secondary lymphoid organs. One week after liposomal priming, systemic administration of peptides and a costimulatory agonistic CD40 antibody enables ultrarapid expansion of T cells, resulting in massive expansion of tumor-specific T cells in the peripheral blood two weeks after priming. In the MC-38 colon cancer model, this synthetic prime-boost regimen induces rapid regression and cure of large established subcutaneous cancers via the use of a single tumor-specific neoantigen. These experiments demonstrate the feasibility of liposome-based heterologous vaccination regimens to increase the therapeutic efficacy of peptide vaccines in the context of immunogenic adjuvants and costimulatory booster immunizations. Our results provide a rationale for the further development of modern liposomal peptide vaccines for cancer therapy.",

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author = "Dmitrij Ostroumov and Naomi Benne and \{Lozano Vigario\}, Fernando and Oscar Escalona-Rayo and Ksenia Dodz and Sarah Sauer and Suhl, \{Lena Luisa\} and Wedemeyer, \{Hans Heiner\} and Florian K{\"u}hnel and Bram Sl{\"u}tter and Wirth, \{Thomas Christian\}",

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Ostroumov, D, Benne, N, Lozano Vigario, F, Escalona-Rayo, O, Dodz, K, Sauer, S, Suhl, LL, Wedemeyer, HH, Kühnel, F, Slütter, B & Wirth, TC 2025, 'Sequential STING and CD40 agonism drives massive expansion of tumor-specific T cells in liposomal peptide vaccines', Cellular and Molecular Immunology, vol. 22, no. 2, 1111523, pp. 150-160. https://doi.org/10.1038/s41423-024-01249-4

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AU - Ostroumov, Dmitrij

AU - Benne, Naomi

AU - Lozano Vigario, Fernando

AU - Escalona-Rayo, Oscar

AU - Dodz, Ksenia

AU - Sauer, Sarah

AU - Suhl, Lena Luisa

AU - Wedemeyer, Hans Heiner

AU - Kühnel, Florian

AU - Slütter, Bram

AU - Wirth, Thomas Christian

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N2 - The clinical use of cancer vaccines is hampered by the low magnitude of induced T-cell responses and the need for repetitive antigen stimulation. Here, we demonstrate that liposomal formulations with incorporated STING agonists are optimally suited to deliver peptide antigens to dendritic cells in vivo and to activate dendritic cells in secondary lymphoid organs. One week after liposomal priming, systemic administration of peptides and a costimulatory agonistic CD40 antibody enables ultrarapid expansion of T cells, resulting in massive expansion of tumor-specific T cells in the peripheral blood two weeks after priming. In the MC-38 colon cancer model, this synthetic prime-boost regimen induces rapid regression and cure of large established subcutaneous cancers via the use of a single tumor-specific neoantigen. These experiments demonstrate the feasibility of liposome-based heterologous vaccination regimens to increase the therapeutic efficacy of peptide vaccines in the context of immunogenic adjuvants and costimulatory booster immunizations. Our results provide a rationale for the further development of modern liposomal peptide vaccines for cancer therapy.

AB - The clinical use of cancer vaccines is hampered by the low magnitude of induced T-cell responses and the need for repetitive antigen stimulation. Here, we demonstrate that liposomal formulations with incorporated STING agonists are optimally suited to deliver peptide antigens to dendritic cells in vivo and to activate dendritic cells in secondary lymphoid organs. One week after liposomal priming, systemic administration of peptides and a costimulatory agonistic CD40 antibody enables ultrarapid expansion of T cells, resulting in massive expansion of tumor-specific T cells in the peripheral blood two weeks after priming. In the MC-38 colon cancer model, this synthetic prime-boost regimen induces rapid regression and cure of large established subcutaneous cancers via the use of a single tumor-specific neoantigen. These experiments demonstrate the feasibility of liposome-based heterologous vaccination regimens to increase the therapeutic efficacy of peptide vaccines in the context of immunogenic adjuvants and costimulatory booster immunizations. Our results provide a rationale for the further development of modern liposomal peptide vaccines for cancer therapy.

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KW - Costimulatory antibodies

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KW - Liposomes

KW - STING agonist

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Sequential STING and CD40 agonism drives massive expansion of tumor-specific T cells in liposomal peptide vaccines

Abstract

Bibliographical note

Funding

Keywords

UN SDGs

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