NaCl enhances CD8+ T cell effector functions in cancer immunotherapy

Caterina Scirgolea; Rosa Sottile; Marco De Luca; Alberto Susana; Silvia Carnevale; Simone Puccio; Valentina Ferrari; Veronica Lise; Giorgia Contarini; Alice Scarpa; Eloise Scamardella; Simona Feno; Chiara Camisaschi; Gabriele De Simone; Gianluca Basso; Desiree Giuliano; Emilia Maria Cristina Mazza; Luca Gattinoni; Rahul Roychoudhuri; Emanuele Voulaz; Diletta Di Mitri; Matteo Simonelli; Agnese Losurdo; Davide Pozzi; Carlson Tsui; Axel Kallies; Sara Timo; Giuseppe Martano; Elettra Barberis; Marcello Manfredi; Maria Rescigno; Sebastien Jaillon; Enrico Lugli

doi:10.1038/s41590-024-01923-9

NaCl enhances CD8⁺ T cell effector functions in cancer immunotherapy

Caterina Scirgolea, Rosa Sottile, Marco De Luca, Alberto Susana, Silvia Carnevale, Simone Puccio, Valentina Ferrari, Veronica Lise, Giorgia Contarini, Alice Scarpa, Eloise Scamardella, Simona Feno, Chiara Camisaschi, Gabriele De Simone, Gianluca Basso, Desiree Giuliano, Emilia Maria Cristina Mazza, Luca Gattinoni, Rahul Roychoudhuri, Emanuele VoulazDiletta Di Mitri, Matteo Simonelli, Agnese Losurdo, Davide Pozzi, Carlson Tsui, Axel Kallies, Sara Timo, Giuseppe Martano, Elettra Barberis, Marcello Manfredi, Maria Rescigno, Sebastien Jaillon, Enrico Lugli

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

Abstract

CD8⁺ T cells control tumors but inevitably become dysfunctional in the tumor microenvironment. Here, we show that sodium chloride (NaCl) counteracts T cell dysfunction to promote cancer regression. NaCl supplementation during CD8⁺ T cell culture induced effector differentiation, IFN-γ production and cytotoxicity while maintaining the gene networks responsible for stem-like plasticity. Accordingly, adoptive transfer of tumor-specific T cells resulted in superior anti-tumor immunity in a humanized mouse model. In mice, a high-salt diet reduced the growth of experimental tumors in a CD8⁺ T cell-dependent manner by inhibiting terminal differentiation and enhancing the effector potency of CD8⁺ T cells. Mechanistically, NaCl enhanced glutamine consumption, which was critical for transcriptional, epigenetic and functional reprogramming. In humans, CD8⁺ T cells undergoing antigen recognition in tumors and predicting favorable responses to checkpoint blockade immunotherapy resembled those induced by NaCl. Thus, NaCl metabolism is a regulator of CD8⁺ T cell effector function, with potential implications for cancer immunotherapy.

Original language	English
Pages (from-to)	1845-1857
Number of pages	13
Journal	Nature Immunology
Volume	25
Issue number	10
DOIs	https://doi.org/10.1038/s41590-024-01923-9
Publication status	Published - Oct 2024

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10.1038/s41590-024-01923-9

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Scirgolea, C., Sottile, R., De Luca, M., Susana, A., Carnevale, S., Puccio, S., Ferrari, V., Lise, V., Contarini, G., Scarpa, A., Scamardella, E., Feno, S., Camisaschi, C., De Simone, G., Basso, G., Giuliano, D., Mazza, E. M. C., Gattinoni, L., Roychoudhuri, R., ... Lugli, E. (2024). NaCl enhances CD8⁺ T cell effector functions in cancer immunotherapy. Nature Immunology, 25(10), 1845-1857. https://doi.org/10.1038/s41590-024-01923-9

@article{181848c7cccb46bfbac0357b95e90a44,

title = "NaCl enhances CD8+ T cell effector functions in cancer immunotherapy",

abstract = "CD8+ T cells control tumors but inevitably become dysfunctional in the tumor microenvironment. Here, we show that sodium chloride (NaCl) counteracts T cell dysfunction to promote cancer regression. NaCl supplementation during CD8+ T cell culture induced effector differentiation, IFN-γ production and cytotoxicity while maintaining the gene networks responsible for stem-like plasticity. Accordingly, adoptive transfer of tumor-specific T cells resulted in superior anti-tumor immunity in a humanized mouse model. In mice, a high-salt diet reduced the growth of experimental tumors in a CD8+ T cell-dependent manner by inhibiting terminal differentiation and enhancing the effector potency of CD8+ T cells. Mechanistically, NaCl enhanced glutamine consumption, which was critical for transcriptional, epigenetic and functional reprogramming. In humans, CD8+ T cells undergoing antigen recognition in tumors and predicting favorable responses to checkpoint blockade immunotherapy resembled those induced by NaCl. Thus, NaCl metabolism is a regulator of CD8+ T cell effector function, with potential implications for cancer immunotherapy.",

author = "Caterina Scirgolea and Rosa Sottile and {De Luca}, Marco and Alberto Susana and Silvia Carnevale and Simone Puccio and Valentina Ferrari and Veronica Lise and Giorgia Contarini and Alice Scarpa and Eloise Scamardella and Simona Feno and Chiara Camisaschi and {De Simone}, Gabriele and Gianluca Basso and Desiree Giuliano and Mazza, {Emilia Maria Cristina} and Luca Gattinoni and Rahul Roychoudhuri and Emanuele Voulaz and {Di Mitri}, Diletta and Matteo Simonelli and Agnese Losurdo and Davide Pozzi and Carlson Tsui and Axel Kallies and Sara Timo and Giuseppe Martano and Elettra Barberis and Marcello Manfredi and Maria Rescigno and Sebastien Jaillon and Enrico Lugli",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive licence to Springer Nature America, Inc. 2024.",

year = "2024",

month = oct,

doi = "10.1038/s41590-024-01923-9",

language = "English",

volume = "25",

pages = "1845--1857",

journal = "Nature Immunology",

issn = "1529-2908",

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Scirgolea, C, Sottile, R, De Luca, M, Susana, A, Carnevale, S, Puccio, S, Ferrari, V, Lise, V, Contarini, G, Scarpa, A, Scamardella, E, Feno, S, Camisaschi, C, De Simone, G, Basso, G, Giuliano, D, Mazza, EMC, Gattinoni, L, Roychoudhuri, R, Voulaz, E, Di Mitri, D, Simonelli, M, Losurdo, A, Pozzi, D, Tsui, C, Kallies, A, Timo, S, Martano, G, Barberis, E , Manfredi, M, Rescigno, M, Jaillon, S & Lugli, E 2024, 'NaCl enhances CD8⁺ T cell effector functions in cancer immunotherapy', Nature Immunology, vol. 25, no. 10, pp. 1845-1857. https://doi.org/10.1038/s41590-024-01923-9

TY - JOUR

T1 - NaCl enhances CD8+ T cell effector functions in cancer immunotherapy

AU - Scirgolea, Caterina

AU - Sottile, Rosa

AU - De Luca, Marco

AU - Susana, Alberto

AU - Carnevale, Silvia

AU - Puccio, Simone

AU - Ferrari, Valentina

AU - Lise, Veronica

AU - Contarini, Giorgia

AU - Scarpa, Alice

AU - Scamardella, Eloise

AU - Feno, Simona

AU - Camisaschi, Chiara

AU - De Simone, Gabriele

AU - Basso, Gianluca

AU - Giuliano, Desiree

AU - Mazza, Emilia Maria Cristina

AU - Gattinoni, Luca

AU - Roychoudhuri, Rahul

AU - Voulaz, Emanuele

AU - Di Mitri, Diletta

AU - Simonelli, Matteo

AU - Losurdo, Agnese

AU - Pozzi, Davide

AU - Tsui, Carlson

AU - Kallies, Axel

AU - Timo, Sara

AU - Martano, Giuseppe

AU - Barberis, Elettra

AU - Manfredi, Marcello

AU - Rescigno, Maria

AU - Jaillon, Sebastien

AU - Lugli, Enrico

PY - 2024/10

Y1 - 2024/10

N2 - CD8+ T cells control tumors but inevitably become dysfunctional in the tumor microenvironment. Here, we show that sodium chloride (NaCl) counteracts T cell dysfunction to promote cancer regression. NaCl supplementation during CD8+ T cell culture induced effector differentiation, IFN-γ production and cytotoxicity while maintaining the gene networks responsible for stem-like plasticity. Accordingly, adoptive transfer of tumor-specific T cells resulted in superior anti-tumor immunity in a humanized mouse model. In mice, a high-salt diet reduced the growth of experimental tumors in a CD8+ T cell-dependent manner by inhibiting terminal differentiation and enhancing the effector potency of CD8+ T cells. Mechanistically, NaCl enhanced glutamine consumption, which was critical for transcriptional, epigenetic and functional reprogramming. In humans, CD8+ T cells undergoing antigen recognition in tumors and predicting favorable responses to checkpoint blockade immunotherapy resembled those induced by NaCl. Thus, NaCl metabolism is a regulator of CD8+ T cell effector function, with potential implications for cancer immunotherapy.

AB - CD8+ T cells control tumors but inevitably become dysfunctional in the tumor microenvironment. Here, we show that sodium chloride (NaCl) counteracts T cell dysfunction to promote cancer regression. NaCl supplementation during CD8+ T cell culture induced effector differentiation, IFN-γ production and cytotoxicity while maintaining the gene networks responsible for stem-like plasticity. Accordingly, adoptive transfer of tumor-specific T cells resulted in superior anti-tumor immunity in a humanized mouse model. In mice, a high-salt diet reduced the growth of experimental tumors in a CD8+ T cell-dependent manner by inhibiting terminal differentiation and enhancing the effector potency of CD8+ T cells. Mechanistically, NaCl enhanced glutamine consumption, which was critical for transcriptional, epigenetic and functional reprogramming. In humans, CD8+ T cells undergoing antigen recognition in tumors and predicting favorable responses to checkpoint blockade immunotherapy resembled those induced by NaCl. Thus, NaCl metabolism is a regulator of CD8+ T cell effector function, with potential implications for cancer immunotherapy.

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U2 - 10.1038/s41590-024-01923-9

DO - 10.1038/s41590-024-01923-9

M3 - Article

SN - 1529-2908

VL - 25

SP - 1845

EP - 1857

JO - Nature Immunology

JF - Nature Immunology

IS - 10

ER -

NaCl enhances CD8⁺ T cell effector functions in cancer immunotherapy

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