Metabolic reprogramming of interleukin-17-producing γδ T cells promotes ACC1-mediated de novo lipogenesis under psoriatic conditions

Yu San Kao; Mario Lauterbach; Aleksandra Lopez Krol; Ute Distler; Gloria Janet Godoy; Matthias Klein; Rafael Jose Argüello; Fatima Boukhallouk; Sara Vallejo Fuente; Kathrin Luise Braband; Assel Nurbekova; Monica Romero; Panagiota Mamareli; Luana Silva; Luis Eduardo Alves Damasceno; Francesca Rampoldi; Luciana Berod; Lydia Lynch; Karsten Hiller; Tim Sparwasser

doi:10.1038/s42255-025-01276-z

Metabolic reprogramming of interleukin-17-producing γδ T cells promotes ACC1-mediated de novo lipogenesis under psoriatic conditions

Yu San Kao, Mario Lauterbach, Aleksandra Lopez Krol, Ute Distler, Gloria Janet Godoy, Matthias Klein, Rafael Jose Argüello, Fatima Boukhallouk, Sara Vallejo Fuente, Kathrin Luise Braband, Assel Nurbekova, Monica Romero, Panagiota Mamareli, Luana Silva, Luis Eduardo Alves Damasceno, Francesca Rampoldi, Luciana Berod, Lydia Lynch, Karsten Hiller, Tim Sparwasser

Molecular Biology

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

Abstract

Metabolic reprogramming determines γδ T cell fate during thymic development; however, the metabolic requirements of interleukin (IL)-17A-producing γδ T cells (γδT17 cells) under psoriatic conditions are unclear. Combining high-throughput techniques, including RNA sequencing, SCENITH, proteomics and stable isotope tracing, we demonstrated that psoriatic inflammation caused γδT17 cells to switch toward aerobic glycolysis. Under psoriatic conditions, γδT17 cells upregulated ATP-citrate synthase to convert citrate to acetyl-CoA, linking carbohydrate metabolism and fatty acid synthesis (FAS). Accordingly, we used a pharmacological inhibitor, Soraphen A, which blocks acetyl-CoA carboxylase (ACC), to impair FAS in γδT17 cells, reducing their intracellular lipid stores and ability to produce IL-17A under psoriatic conditions in vitro. We pinpointed the pathogenic role of ACC1 in γδT17 cells in vivo by genetic ablation, ameliorating inflammation in a psoriatic mouse model. Furthermore, ACC inhibition limited human IL-17A-producing γδT17 cells. Targeting ACC1 to attenuate pathogenic γδT17 cell function has important implications for psoriasis management.

Original language	English (US)
Article number	e20191397
Pages (from-to)	966-984
Number of pages	19
Journal	Nature Metabolism
Volume	7
Issue number	5
DOIs	https://doi.org/10.1038/s42255-025-01276-z
State	Published - May 2025

All Science Journal Classification (ASJC) codes

Internal Medicine
Endocrinology, Diabetes and Metabolism
Physiology (medical)
Cell Biology

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10.1038/s42255-025-01276-z

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Kao, Y. S., Lauterbach, M., Lopez Krol, A., Distler, U., Godoy, G. J., Klein, M., Argüello, R. J., Boukhallouk, F., Vallejo Fuente, S., Braband, K. L., Nurbekova, A., Romero, M., Mamareli, P., Silva, L., Damasceno, L. E. A., Rampoldi, F., Berod, L., Lynch, L., Hiller, K., & Sparwasser, T. (2025). Metabolic reprogramming of interleukin-17-producing γδ T cells promotes ACC1-mediated de novo lipogenesis under psoriatic conditions. Nature Metabolism, 7(5), 966-984. Article e20191397. https://doi.org/10.1038/s42255-025-01276-z

@article{85bf9a31f6044bfaab259068b889b183,

title = "Metabolic reprogramming of interleukin-17-producing γδ T cells promotes ACC1-mediated de novo lipogenesis under psoriatic conditions",

abstract = "Metabolic reprogramming determines γδ T cell fate during thymic development; however, the metabolic requirements of interleukin (IL)-17A-producing γδ T cells (γδT17 cells) under psoriatic conditions are unclear. Combining high-throughput techniques, including RNA sequencing, SCENITH, proteomics and stable isotope tracing, we demonstrated that psoriatic inflammation caused γδT17 cells to switch toward aerobic glycolysis. Under psoriatic conditions, γδT17 cells upregulated ATP-citrate synthase to convert citrate to acetyl-CoA, linking carbohydrate metabolism and fatty acid synthesis (FAS). Accordingly, we used a pharmacological inhibitor, Soraphen A, which blocks acetyl-CoA carboxylase (ACC), to impair FAS in γδT17 cells, reducing their intracellular lipid stores and ability to produce IL-17A under psoriatic conditions in vitro. We pinpointed the pathogenic role of ACC1 in γδT17 cells in vivo by genetic ablation, ameliorating inflammation in a psoriatic mouse model. Furthermore, ACC inhibition limited human IL-17A-producing γδT17 cells. Targeting ACC1 to attenuate pathogenic γδT17 cell function has important implications for psoriasis management.",

author = "Kao, {Yu San} and Mario Lauterbach and {Lopez Krol}, Aleksandra and Ute Distler and Godoy, {Gloria Janet} and Matthias Klein and Arg{\"u}ello, {Rafael Jose} and Fatima Boukhallouk and {Vallejo Fuente}, Sara and Braband, {Kathrin Luise} and Assel Nurbekova and Monica Romero and Panagiota Mamareli and Luana Silva and Damasceno, {Luis Eduardo Alves} and Francesca Rampoldi and Luciana Berod and Lydia Lynch and Karsten Hiller and Tim Sparwasser",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

month = may,

doi = "10.1038/s42255-025-01276-z",

language = "English (US)",

volume = "7",

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Kao, YS, Lauterbach, M, Lopez Krol, A, Distler, U, Godoy, GJ, Klein, M, Argüello, RJ, Boukhallouk, F, Vallejo Fuente, S, Braband, KL, Nurbekova, A, Romero, M, Mamareli, P, Silva, L, Damasceno, LEA, Rampoldi, F, Berod, L, Lynch, L, Hiller, K & Sparwasser, T 2025, 'Metabolic reprogramming of interleukin-17-producing γδ T cells promotes ACC1-mediated de novo lipogenesis under psoriatic conditions', Nature Metabolism, vol. 7, no. 5, e20191397, pp. 966-984. https://doi.org/10.1038/s42255-025-01276-z

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T1 - Metabolic reprogramming of interleukin-17-producing γδ T cells promotes ACC1-mediated de novo lipogenesis under psoriatic conditions

AU - Kao, Yu San

AU - Lauterbach, Mario

AU - Lopez Krol, Aleksandra

AU - Distler, Ute

AU - Godoy, Gloria Janet

AU - Klein, Matthias

AU - Argüello, Rafael Jose

AU - Boukhallouk, Fatima

AU - Vallejo Fuente, Sara

AU - Braband, Kathrin Luise

AU - Nurbekova, Assel

AU - Romero, Monica

AU - Mamareli, Panagiota

AU - Silva, Luana

AU - Damasceno, Luis Eduardo Alves

AU - Rampoldi, Francesca

AU - Berod, Luciana

AU - Lynch, Lydia

AU - Hiller, Karsten

AU - Sparwasser, Tim

PY - 2025/5

Y1 - 2025/5

N2 - Metabolic reprogramming determines γδ T cell fate during thymic development; however, the metabolic requirements of interleukin (IL)-17A-producing γδ T cells (γδT17 cells) under psoriatic conditions are unclear. Combining high-throughput techniques, including RNA sequencing, SCENITH, proteomics and stable isotope tracing, we demonstrated that psoriatic inflammation caused γδT17 cells to switch toward aerobic glycolysis. Under psoriatic conditions, γδT17 cells upregulated ATP-citrate synthase to convert citrate to acetyl-CoA, linking carbohydrate metabolism and fatty acid synthesis (FAS). Accordingly, we used a pharmacological inhibitor, Soraphen A, which blocks acetyl-CoA carboxylase (ACC), to impair FAS in γδT17 cells, reducing their intracellular lipid stores and ability to produce IL-17A under psoriatic conditions in vitro. We pinpointed the pathogenic role of ACC1 in γδT17 cells in vivo by genetic ablation, ameliorating inflammation in a psoriatic mouse model. Furthermore, ACC inhibition limited human IL-17A-producing γδT17 cells. Targeting ACC1 to attenuate pathogenic γδT17 cell function has important implications for psoriasis management.

AB - Metabolic reprogramming determines γδ T cell fate during thymic development; however, the metabolic requirements of interleukin (IL)-17A-producing γδ T cells (γδT17 cells) under psoriatic conditions are unclear. Combining high-throughput techniques, including RNA sequencing, SCENITH, proteomics and stable isotope tracing, we demonstrated that psoriatic inflammation caused γδT17 cells to switch toward aerobic glycolysis. Under psoriatic conditions, γδT17 cells upregulated ATP-citrate synthase to convert citrate to acetyl-CoA, linking carbohydrate metabolism and fatty acid synthesis (FAS). Accordingly, we used a pharmacological inhibitor, Soraphen A, which blocks acetyl-CoA carboxylase (ACC), to impair FAS in γδT17 cells, reducing their intracellular lipid stores and ability to produce IL-17A under psoriatic conditions in vitro. We pinpointed the pathogenic role of ACC1 in γδT17 cells in vivo by genetic ablation, ameliorating inflammation in a psoriatic mouse model. Furthermore, ACC inhibition limited human IL-17A-producing γδT17 cells. Targeting ACC1 to attenuate pathogenic γδT17 cell function has important implications for psoriasis management.

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SN - 2522-5812

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JO - Nature Metabolism

JF - Nature Metabolism

IS - 5

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ER -

Metabolic reprogramming of interleukin-17-producing γδ T cells promotes ACC1-mediated de novo lipogenesis under psoriatic conditions

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