Acidovorax temperans skews neutrophil maturation and polarizes Th17 cells to promote lung adenocarcinoma development

Joshua K. Stone; Natalia von Muhlinen; Chenran Zhang; Ana I. Robles; Amy L. Flis; Eleazar Vega-Valle; Akihiko Miyanaga; Masaru Matsumoto; K. Leigh Greathouse; Tomer Cooks; Giorgio Trinchieri; Curtis C. Harris

doi:10.1038/s41389-024-00513-6

Acidovorax temperans skews neutrophil maturation and polarizes Th17 cells to promote lung adenocarcinoma development

Joshua K. Stone, Natalia von Muhlinen, Chenran Zhang, Ana I. Robles, Amy L. Flis, Eleazar Vega-Valle, Akihiko Miyanaga, Masaru Matsumoto, K. Leigh Greathouse, Tomer Cooks, Giorgio Trinchieri, Curtis C. Harris

The Shraga Segal Department of Microbiology and Immunology

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

5 Scopus citations

Abstract

Change within the intratumoral microbiome is a common feature in lung and other cancers and may influence inflammation and immunity in the tumor microenvironment, affecting growth and metastases. We previously characterized the lung cancer microbiome in patients and identified Acidovorax temperans as enriched in tumors. Here, we instilled A. temperans in an animal model driven by mutant K-ras and Tp53. This revealed A. temperans accelerates tumor development and burden through infiltration of proinflammatory cells. Neutrophils exposed to A. temperans displayed a mature, pro-tumorigenic phenotype with increased cytokine signaling, with a global shift away from IL-1β signaling. Neutrophil to monocyte and macrophage signaling upregulated MHC II to activate CD4⁺ T cells, polarizing them to an IL-17A⁺ phenotype detectable in CD4⁺ and γδ populations (T17). These T17 cells shared a common gene expression program predictive of poor survival in human LUAD. These data indicate bacterial exposure promotes tumor growth by modulating inflammation. (Figure presented.).

Original language	English
Article number	13
Journal	Oncogenesis
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41389-024-00513-6
State	Published - 1 Dec 2024

ASJC Scopus subject areas

Molecular Biology
Cancer Research

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

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10.1038/s41389-024-00513-6

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Stone, J. K., von Muhlinen, N., Zhang, C., Robles, A. I., Flis, A. L., Vega-Valle, E., Miyanaga, A., Matsumoto, M., Greathouse, K. L., Cooks, T., Trinchieri, G., & Harris, C. C. (2024). Acidovorax temperans skews neutrophil maturation and polarizes Th17 cells to promote lung adenocarcinoma development. Oncogenesis, 13(1), Article 13. https://doi.org/10.1038/s41389-024-00513-6

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title = "Acidovorax temperans skews neutrophil maturation and polarizes Th17 cells to promote lung adenocarcinoma development",

abstract = "Change within the intratumoral microbiome is a common feature in lung and other cancers and may influence inflammation and immunity in the tumor microenvironment, affecting growth and metastases. We previously characterized the lung cancer microbiome in patients and identified Acidovorax temperans as enriched in tumors. Here, we instilled A. temperans in an animal model driven by mutant K-ras and Tp53. This revealed A. temperans accelerates tumor development and burden through infiltration of proinflammatory cells. Neutrophils exposed to A. temperans displayed a mature, pro-tumorigenic phenotype with increased cytokine signaling, with a global shift away from IL-1β signaling. Neutrophil to monocyte and macrophage signaling upregulated MHC II to activate CD4+ T cells, polarizing them to an IL-17A+ phenotype detectable in CD4+ and γδ populations (T17). These T17 cells shared a common gene expression program predictive of poor survival in human LUAD. These data indicate bacterial exposure promotes tumor growth by modulating inflammation. (Figure presented.).",

author = "Stone, {Joshua K.} and {von Muhlinen}, Natalia and Chenran Zhang and Robles, {Ana I.} and Flis, {Amy L.} and Eleazar Vega-Valle and Akihiko Miyanaga and Masaru Matsumoto and Greathouse, {K. Leigh} and Tomer Cooks and Giorgio Trinchieri and Harris, {Curtis C.}",

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AU - Stone, Joshua K.

AU - von Muhlinen, Natalia

AU - Zhang, Chenran

AU - Robles, Ana I.

AU - Flis, Amy L.

AU - Vega-Valle, Eleazar

AU - Miyanaga, Akihiko

AU - Matsumoto, Masaru

AU - Greathouse, K. Leigh

AU - Cooks, Tomer

AU - Trinchieri, Giorgio

AU - Harris, Curtis C.

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N2 - Change within the intratumoral microbiome is a common feature in lung and other cancers and may influence inflammation and immunity in the tumor microenvironment, affecting growth and metastases. We previously characterized the lung cancer microbiome in patients and identified Acidovorax temperans as enriched in tumors. Here, we instilled A. temperans in an animal model driven by mutant K-ras and Tp53. This revealed A. temperans accelerates tumor development and burden through infiltration of proinflammatory cells. Neutrophils exposed to A. temperans displayed a mature, pro-tumorigenic phenotype with increased cytokine signaling, with a global shift away from IL-1β signaling. Neutrophil to monocyte and macrophage signaling upregulated MHC II to activate CD4+ T cells, polarizing them to an IL-17A+ phenotype detectable in CD4+ and γδ populations (T17). These T17 cells shared a common gene expression program predictive of poor survival in human LUAD. These data indicate bacterial exposure promotes tumor growth by modulating inflammation. (Figure presented.).

AB - Change within the intratumoral microbiome is a common feature in lung and other cancers and may influence inflammation and immunity in the tumor microenvironment, affecting growth and metastases. We previously characterized the lung cancer microbiome in patients and identified Acidovorax temperans as enriched in tumors. Here, we instilled A. temperans in an animal model driven by mutant K-ras and Tp53. This revealed A. temperans accelerates tumor development and burden through infiltration of proinflammatory cells. Neutrophils exposed to A. temperans displayed a mature, pro-tumorigenic phenotype with increased cytokine signaling, with a global shift away from IL-1β signaling. Neutrophil to monocyte and macrophage signaling upregulated MHC II to activate CD4+ T cells, polarizing them to an IL-17A+ phenotype detectable in CD4+ and γδ populations (T17). These T17 cells shared a common gene expression program predictive of poor survival in human LUAD. These data indicate bacterial exposure promotes tumor growth by modulating inflammation. (Figure presented.).

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Acidovorax temperans skews neutrophil maturation and polarizes Th17 cells to promote lung adenocarcinoma development

Abstract

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