DNA damage repair kinase DNA-PK and cGAS synergize to induce cancer-related inflammation in glioblastoma

Clara Taffoni; Johanna Marines; Hanane Chamma; Soumyabrata Guha; Mathilde Saccas; Amel Bouzid; Ana Luiza Chaves Valadao; Clément Maghe; Jane Jardine; Mi Kyung Park; Katarzyna Polak; Mara De Martino; Claire Vanpouille-Box; Maguy Del Rio; Celine Gongora; Julie Gavard; Nicolas Bidère; Min Sup Song; Donovan Pineau; Jean Philippe Hugnot; Karima Kissa; Laura Fontenille; Fabien P. Blanchet; Isabelle Vila; Nadine Laguette

doi:10.15252/embj.2022111961

DNA damage repair kinase DNA-PK and cGAS synergize to induce cancer-related inflammation in glioblastoma

Clara Taffoni, Johanna Marines, Hanane Chamma, Soumyabrata Guha, Mathilde Saccas, Amel Bouzid, Ana Luiza Chaves Valadao, Clément Maghe, Jane Jardine, Mi Kyung Park, Katarzyna Polak, Mara De Martino, Claire Vanpouille-Box, Maguy Del Rio, Celine Gongora, Julie Gavard, Nicolas Bidère, Min Sup Song, Donovan Pineau, Jean Philippe HugnotKarima Kissa, Laura Fontenille, Fabien P. Blanchet, Isabelle Vila, Nadine Laguette

Molecular & Cellular Oncology

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

8 Scopus citations

Abstract

Cytosolic DNA promotes inflammatory responses upon detection by the cyclic GMP-AMP (cGAMP) synthase (cGAS). It has been suggested that cGAS downregulation is an immune escape strategy harnessed by tumor cells. Here, we used glioblastoma cells that show undetectable cGAS levels to address if alternative DNA detection pathways can promote pro-inflammatory signaling. We show that the DNA-PK DNA repair complex (i) drives cGAS-independent IRF3-mediated type I Interferon responses and (ii) that its catalytic activity is required for cGAS-dependent cGAMP production and optimal downstream signaling. We further show that the cooperation between DNA-PK and cGAS favors the expression of chemokines that promote macrophage recruitment in the tumor microenvironment in a glioblastoma model, a process that impairs early tumorigenesis but correlates with poor outcome in glioblastoma patients. Thus, our study supports that cGAS-dependent signaling is acquired during tumorigenesis and that cGAS and DNA-PK activities should be analyzed concertedly to predict the impact of strategies aiming to boost tumor immunogenicity.

Original language	English (US)
Article number	e111961
Journal	EMBO Journal
Volume	42
Issue number	7
DOIs	https://doi.org/10.15252/embj.2022111961
State	Published - Apr 3 2023

Keywords

cGAS
DNA-PK
inflammation
tumor immunogenicity

ASJC Scopus subject areas

General Neuroscience
Molecular Biology
General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology

Access to Document

10.15252/embj.2022111961

Cite this

Taffoni, C., Marines, J., Chamma, H., Guha, S., Saccas, M., Bouzid, A., Valadao, A. L. C., Maghe, C., Jardine, J., Park, M. K., Polak, K., De Martino, M., Vanpouille-Box, C., Del Rio, M., Gongora, C., Gavard, J., Bidère, N., Song, M. S., Pineau, D., ... Laguette, N. (2023). DNA damage repair kinase DNA-PK and cGAS synergize to induce cancer-related inflammation in glioblastoma. EMBO Journal, 42(7), Article e111961. https://doi.org/10.15252/embj.2022111961

Taffoni, C, Marines, J, Chamma, H, Guha, S, Saccas, M, Bouzid, A, Valadao, ALC, Maghe, C, Jardine, J, Park, MK, Polak, K, De Martino, M, Vanpouille-Box, C, Del Rio, M, Gongora, C, Gavard, J, Bidère, N, Song, MS, Pineau, D, Hugnot, JP, Kissa, K, Fontenille, L, Blanchet, FP, Vila, I & Laguette, N 2023, 'DNA damage repair kinase DNA-PK and cGAS synergize to induce cancer-related inflammation in glioblastoma', EMBO Journal, vol. 42, no. 7, e111961. https://doi.org/10.15252/embj.2022111961

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title = "DNA damage repair kinase DNA-PK and cGAS synergize to induce cancer-related inflammation in glioblastoma",

abstract = "Cytosolic DNA promotes inflammatory responses upon detection by the cyclic GMP-AMP (cGAMP) synthase (cGAS). It has been suggested that cGAS downregulation is an immune escape strategy harnessed by tumor cells. Here, we used glioblastoma cells that show undetectable cGAS levels to address if alternative DNA detection pathways can promote pro-inflammatory signaling. We show that the DNA-PK DNA repair complex (i) drives cGAS-independent IRF3-mediated type I Interferon responses and (ii) that its catalytic activity is required for cGAS-dependent cGAMP production and optimal downstream signaling. We further show that the cooperation between DNA-PK and cGAS favors the expression of chemokines that promote macrophage recruitment in the tumor microenvironment in a glioblastoma model, a process that impairs early tumorigenesis but correlates with poor outcome in glioblastoma patients. Thus, our study supports that cGAS-dependent signaling is acquired during tumorigenesis and that cGAS and DNA-PK activities should be analyzed concertedly to predict the impact of strategies aiming to boost tumor immunogenicity.",

keywords = "cGAS, DNA-PK, inflammation, tumor immunogenicity",

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year = "2023",

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doi = "10.15252/embj.2022111961",

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AU - Taffoni, Clara

AU - Marines, Johanna

AU - Chamma, Hanane

AU - Guha, Soumyabrata

AU - Saccas, Mathilde

AU - Bouzid, Amel

AU - Valadao, Ana Luiza Chaves

AU - Maghe, Clément

AU - Jardine, Jane

AU - Park, Mi Kyung

AU - Polak, Katarzyna

AU - De Martino, Mara

AU - Vanpouille-Box, Claire

AU - Del Rio, Maguy

AU - Gongora, Celine

AU - Gavard, Julie

AU - Bidère, Nicolas

AU - Song, Min Sup

AU - Pineau, Donovan

AU - Hugnot, Jean Philippe

AU - Kissa, Karima

AU - Fontenille, Laura

AU - Blanchet, Fabien P.

AU - Vila, Isabelle

AU - Laguette, Nadine

PY - 2023/4/3

Y1 - 2023/4/3

N2 - Cytosolic DNA promotes inflammatory responses upon detection by the cyclic GMP-AMP (cGAMP) synthase (cGAS). It has been suggested that cGAS downregulation is an immune escape strategy harnessed by tumor cells. Here, we used glioblastoma cells that show undetectable cGAS levels to address if alternative DNA detection pathways can promote pro-inflammatory signaling. We show that the DNA-PK DNA repair complex (i) drives cGAS-independent IRF3-mediated type I Interferon responses and (ii) that its catalytic activity is required for cGAS-dependent cGAMP production and optimal downstream signaling. We further show that the cooperation between DNA-PK and cGAS favors the expression of chemokines that promote macrophage recruitment in the tumor microenvironment in a glioblastoma model, a process that impairs early tumorigenesis but correlates with poor outcome in glioblastoma patients. Thus, our study supports that cGAS-dependent signaling is acquired during tumorigenesis and that cGAS and DNA-PK activities should be analyzed concertedly to predict the impact of strategies aiming to boost tumor immunogenicity.

AB - Cytosolic DNA promotes inflammatory responses upon detection by the cyclic GMP-AMP (cGAMP) synthase (cGAS). It has been suggested that cGAS downregulation is an immune escape strategy harnessed by tumor cells. Here, we used glioblastoma cells that show undetectable cGAS levels to address if alternative DNA detection pathways can promote pro-inflammatory signaling. We show that the DNA-PK DNA repair complex (i) drives cGAS-independent IRF3-mediated type I Interferon responses and (ii) that its catalytic activity is required for cGAS-dependent cGAMP production and optimal downstream signaling. We further show that the cooperation between DNA-PK and cGAS favors the expression of chemokines that promote macrophage recruitment in the tumor microenvironment in a glioblastoma model, a process that impairs early tumorigenesis but correlates with poor outcome in glioblastoma patients. Thus, our study supports that cGAS-dependent signaling is acquired during tumorigenesis and that cGAS and DNA-PK activities should be analyzed concertedly to predict the impact of strategies aiming to boost tumor immunogenicity.

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