Oleic acid triggers metabolic rewiring of T cells poising them for T helper 9 differentiation

Nathalie A. Reilly; Friederike Sonnet; Koen F. Dekkers; Joanneke C. Kwekkeboom; Lucy Sinke; Stan Hilt; Hayat M. Suleiman; Marten A. Hoeksema; Hailiang Mei; Erik W. van Zwet; Bart Everts; Andreea Ioan-Facsinay; J. Wouter Jukema; Bastiaan T. Heijmans

doi:10.1016/j.isci.2024.109496

Oleic acid triggers metabolic rewiring of T cells poising them for T helper 9 differentiation

Nathalie A. Reilly, Friederike Sonnet, Koen F. Dekkers, Joanneke C. Kwekkeboom, Lucy Sinke, Stan Hilt, Hayat M. Suleiman, Marten A. Hoeksema, Hailiang Mei, Erik W. van Zwet, Bart Everts, Andreea Ioan-Facsinay, J. Wouter Jukema, Bastiaan T. Heijmans

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

Abstract

T cells are the most common immune cells in atherosclerotic plaques, and the function of T cells can be altered by fatty acids. Here, we show that pre-exposure of CD4+ T cells to oleic acid, an abundant fatty acid linked to cardiovascular events, upregulates core metabolic pathways and promotes differentiation into interleukin-9 (IL-9)-producing cells upon activation. RNA sequencing of non-activated T cells reveals that oleic acid upregulates genes encoding key enzymes responsible for cholesterol and fatty acid biosynthesis. Transcription footprint analysis links these expression changes to the differentiation toward TH9 cells, a pro-atherogenic subset. Spectral flow cytometry shows that pre-exposure to oleic acid results in a skew toward IL-9+-producing T cells upon activation. Importantly, pharmacological inhibition of either cholesterol or fatty acid biosynthesis abolishes this effect, suggesting a beneficial role for statins beyond cholesterol lowering. Taken together, oleic acid may affect inflammatory diseases like atherosclerosis by rewiring T cell metabolism.

Original language	English
Article number	109496
Journal	iScience
Volume	27
Issue number	4
DOIs	https://doi.org/10.1016/j.isci.2024.109496
Publication status	Published - 19 Apr 2024

Keywords

Cell biology
Human metabolism
Immunology
Physiology
Transcriptomics

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10.1016/j.isci.2024.109496

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Reilly, N. A., Sonnet, F., Dekkers, K. F., Kwekkeboom, J. C., Sinke, L., Hilt, S., Suleiman, H. M., Hoeksema, M. A., Mei, H., van Zwet, E. W., Everts, B., Ioan-Facsinay, A., Jukema, J. W., & Heijmans, B. T. (2024). Oleic acid triggers metabolic rewiring of T cells poising them for T helper 9 differentiation. iScience, 27(4), Article 109496. https://doi.org/10.1016/j.isci.2024.109496

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abstract = "T cells are the most common immune cells in atherosclerotic plaques, and the function of T cells can be altered by fatty acids. Here, we show that pre-exposure of CD4+ T cells to oleic acid, an abundant fatty acid linked to cardiovascular events, upregulates core metabolic pathways and promotes differentiation into interleukin-9 (IL-9)-producing cells upon activation. RNA sequencing of non-activated T cells reveals that oleic acid upregulates genes encoding key enzymes responsible for cholesterol and fatty acid biosynthesis. Transcription footprint analysis links these expression changes to the differentiation toward TH9 cells, a pro-atherogenic subset. Spectral flow cytometry shows that pre-exposure to oleic acid results in a skew toward IL-9+-producing T cells upon activation. Importantly, pharmacological inhibition of either cholesterol or fatty acid biosynthesis abolishes this effect, suggesting a beneficial role for statins beyond cholesterol lowering. Taken together, oleic acid may affect inflammatory diseases like atherosclerosis by rewiring T cell metabolism.",

keywords = "Cell biology, Human metabolism, Immunology, Physiology, Transcriptomics",

author = "Reilly, {Nathalie A.} and Friederike Sonnet and Dekkers, {Koen F.} and Kwekkeboom, {Joanneke C.} and Lucy Sinke and Stan Hilt and Suleiman, {Hayat M.} and Hoeksema, {Marten A.} and Hailiang Mei and {van Zwet}, {Erik W.} and Bart Everts and Andreea Ioan-Facsinay and Jukema, {J. Wouter} and Heijmans, {Bastiaan T.}",

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doi = "10.1016/j.isci.2024.109496",

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AU - Reilly, Nathalie A.

AU - Sonnet, Friederike

AU - Dekkers, Koen F.

AU - Kwekkeboom, Joanneke C.

AU - Sinke, Lucy

AU - Hilt, Stan

AU - Suleiman, Hayat M.

AU - Hoeksema, Marten A.

AU - Mei, Hailiang

AU - van Zwet, Erik W.

AU - Everts, Bart

AU - Ioan-Facsinay, Andreea

AU - Jukema, J. Wouter

AU - Heijmans, Bastiaan T.

PY - 2024/4/19

Y1 - 2024/4/19

N2 - T cells are the most common immune cells in atherosclerotic plaques, and the function of T cells can be altered by fatty acids. Here, we show that pre-exposure of CD4+ T cells to oleic acid, an abundant fatty acid linked to cardiovascular events, upregulates core metabolic pathways and promotes differentiation into interleukin-9 (IL-9)-producing cells upon activation. RNA sequencing of non-activated T cells reveals that oleic acid upregulates genes encoding key enzymes responsible for cholesterol and fatty acid biosynthesis. Transcription footprint analysis links these expression changes to the differentiation toward TH9 cells, a pro-atherogenic subset. Spectral flow cytometry shows that pre-exposure to oleic acid results in a skew toward IL-9+-producing T cells upon activation. Importantly, pharmacological inhibition of either cholesterol or fatty acid biosynthesis abolishes this effect, suggesting a beneficial role for statins beyond cholesterol lowering. Taken together, oleic acid may affect inflammatory diseases like atherosclerosis by rewiring T cell metabolism.

AB - T cells are the most common immune cells in atherosclerotic plaques, and the function of T cells can be altered by fatty acids. Here, we show that pre-exposure of CD4+ T cells to oleic acid, an abundant fatty acid linked to cardiovascular events, upregulates core metabolic pathways and promotes differentiation into interleukin-9 (IL-9)-producing cells upon activation. RNA sequencing of non-activated T cells reveals that oleic acid upregulates genes encoding key enzymes responsible for cholesterol and fatty acid biosynthesis. Transcription footprint analysis links these expression changes to the differentiation toward TH9 cells, a pro-atherogenic subset. Spectral flow cytometry shows that pre-exposure to oleic acid results in a skew toward IL-9+-producing T cells upon activation. Importantly, pharmacological inhibition of either cholesterol or fatty acid biosynthesis abolishes this effect, suggesting a beneficial role for statins beyond cholesterol lowering. Taken together, oleic acid may affect inflammatory diseases like atherosclerosis by rewiring T cell metabolism.

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JO - iScience

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ER -

Oleic acid triggers metabolic rewiring of T cells poising them for T helper 9 differentiation

Abstract

Keywords

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