Regulatory T cells in the mouse hypothalamus control immune activation and ameliorate metabolic impairments in high-calorie environments

Maike Becker; Stefanie Kälin; Anne H. Neubig; Michael Lauber; Daria Opaleva; Hannah Hipp; Victoria K. Salb; Verena B. Ott; Beata Legutko; Roland E. Kälin; Markus Hippich; Martin G. Scherm; Lucas F. R. Nascimento; Isabelle Serr; Fabian Hosp; Alexei Nikolaev; Alma Mohebiany; Martin Krueger; Bianca Flachmeyer; Michael W. Pfaffl; Bettina Haase; Chun-Xia Yi; Sarah Dietzen; Tobias Bopp; Stephen C. Woods; Ari Waisman; Benno Weigmann; Matthias Mann; Matthias H. Tschöp; Carolin Daniel

doi:10.1038/s41467-025-57918-z

Regulatory T cells in the mouse hypothalamus control immune activation and ameliorate metabolic impairments in high-calorie environments

Maike Becker
, Stefanie Kälin
, Anne H. Neubig
, Michael Lauber
, Daria Opaleva
, Hannah Hipp
, Victoria K. Salb
, Verena B. Ott
, Beata Legutko
, Roland E. Kälin
, Markus Hippich
, Martin G. Scherm
, Lucas F. R. Nascimento
, Isabelle Serr
, Fabian Hosp
, Alexei Nikolaev
, Alma Mohebiany
, Martin Krueger
, Bianca Flachmeyer
, Michael W. Pfaffl

Bettina Haase, Chun-Xia Yi, Sarah Dietzen, Tobias Bopp, Stephen C. Woods, Ari Waisman, Benno Weigmann, Matthias Mann, Matthias H. Tschöp^*, Carolin Daniel^*

^*Corresponding author for this work

Munich Diabetes Research Group e.V. at Helmholtz Centre
German Center for Diabetes Research
Technical University of Munich
Johannes Kepler University Linz
Ludwig Maximilian University of Munich
Max Planck Institute of Biochemistry
Johannes Gutenberg University Mainz
Leipzig University
European Molecular Biology Laboratory
Amsterdam UMC - University of Amsterdam
University of Cincinnati
Friedrich-Alexander University Erlangen-Nürnberg

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

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Abstract

The hypothalamus in the central nervous system (CNS) has important functions in controlling systemic metabolism. A calorie-rich diet triggers CNS immune activation, impairing metabolic control and promoting obesity and Type 2 Diabetes (T2D), but the mechanisms driving hypothalamic immune activation remain unclear. Here we identify regulatory T cells (Tregs) as key modulators of hypothalamic immune responses. In mice, calorie-rich environments activate hypothalamic CD4+ T cells, infiltrating macrophages and microglia while reducing hypothalamic Tregs. mRNA profiling of hypothalamic CD4+ T cells reveals a Th1-like activation state, with increased Tbx21, Cxcr3 and Cd226 but decreased Ccr7 and S1pr1. Importantly, results from Treg loss-of function and gain-of-function experiments show that Tregs limit hypothalamic immune activation and reverse metabolic impairments induced by hyper-caloric feeding. Our findings thus help refine the current model of Treg-centered immune-metabolic crosstalk in the brain and may contribute to the development of precision immune modulation for obesity and diabetes.

Original language	English
Article number	2744
Journal	Nat. Commun.
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-57918-z
Publication status	Published - 1 Dec 2025

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Becker, M., Kälin, S., Neubig, A. H., Lauber, M., Opaleva, D., Hipp, H., Salb, V. K., Ott, V. B., Legutko, B., Kälin, R. E., Hippich, M., Scherm, M. G., Nascimento, L. F. R., Serr, I., Hosp, F., Nikolaev, A., Mohebiany, A., Krueger, M., Flachmeyer, B., ... Daniel, C. (2025). Regulatory T cells in the mouse hypothalamus control immune activation and ameliorate metabolic impairments in high-calorie environments. Nat. Commun., 16(1), Article 2744. https://doi.org/10.1038/s41467-025-57918-z

@article{4d5d1304ad8e482982858bf35df9c774,

title = "Regulatory T cells in the mouse hypothalamus control immune activation and ameliorate metabolic impairments in high-calorie environments",

abstract = "The hypothalamus in the central nervous system (CNS) has important functions in controlling systemic metabolism. A calorie-rich diet triggers CNS immune activation, impairing metabolic control and promoting obesity and Type 2 Diabetes (T2D), but the mechanisms driving hypothalamic immune activation remain unclear. Here we identify regulatory T cells (Tregs) as key modulators of hypothalamic immune responses. In mice, calorie-rich environments activate hypothalamic CD4+ T cells, infiltrating macrophages and microglia while reducing hypothalamic Tregs. mRNA profiling of hypothalamic CD4+ T cells reveals a Th1-like activation state, with increased Tbx21, Cxcr3 and Cd226 but decreased Ccr7 and S1pr1. Importantly, results from Treg loss-of function and gain-of-function experiments show that Tregs limit hypothalamic immune activation and reverse metabolic impairments induced by hyper-caloric feeding. Our findings thus help refine the current model of Treg-centered immune-metabolic crosstalk in the brain and may contribute to the development of precision immune modulation for obesity and diabetes.",

author = "Maike Becker and Stefanie K{\"a}lin and Neubig, \{Anne H.\} and Michael Lauber and Daria Opaleva and Hannah Hipp and Salb, \{Victoria K.\} and Ott, \{Verena B.\} and Beata Legutko and K{\"a}lin, \{Roland E.\} and Markus Hippich and Scherm, \{Martin G.\} and Nascimento, \{Lucas F. R.\} and Isabelle Serr and Fabian Hosp and Alexei Nikolaev and Alma Mohebiany and Martin Krueger and Bianca Flachmeyer and Pfaffl, \{Michael W.\} and Bettina Haase and Chun-Xia Yi and Sarah Dietzen and Tobias Bopp and Woods, \{Stephen C.\} and Ari Waisman and Benno Weigmann and Matthias Mann and Tsch{\"o}p, \{Matthias H.\} and Carolin Daniel",

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

year = "2025",

month = dec,

day = "1",

doi = "10.1038/s41467-025-57918-z",

language = "English",

volume = "16",

journal = "Nat. Commun.",

issn = "2041-1723",

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Becker, M, Kälin, S, Neubig, AH, Lauber, M, Opaleva, D, Hipp, H, Salb, VK, Ott, VB, Legutko, B, Kälin, RE, Hippich, M, Scherm, MG, Nascimento, LFR, Serr, I, Hosp, F, Nikolaev, A, Mohebiany, A, Krueger, M, Flachmeyer, B, Pfaffl, MW, Haase, B, Yi, C-X, Dietzen, S, Bopp, T, Woods, SC, Waisman, A, Weigmann, B, Mann, M, Tschöp, MH & Daniel, C 2025, 'Regulatory T cells in the mouse hypothalamus control immune activation and ameliorate metabolic impairments in high-calorie environments', Nat. Commun., vol. 16, no. 1, 2744. https://doi.org/10.1038/s41467-025-57918-z

TY - JOUR

T1 - Regulatory T cells in the mouse hypothalamus control immune activation and ameliorate metabolic impairments in high-calorie environments

AU - Becker, Maike

AU - Kälin, Stefanie

AU - Neubig, Anne H.

AU - Lauber, Michael

AU - Opaleva, Daria

AU - Hipp, Hannah

AU - Salb, Victoria K.

AU - Ott, Verena B.

AU - Legutko, Beata

AU - Kälin, Roland E.

AU - Hippich, Markus

AU - Scherm, Martin G.

AU - Nascimento, Lucas F. R.

AU - Serr, Isabelle

AU - Hosp, Fabian

AU - Nikolaev, Alexei

AU - Mohebiany, Alma

AU - Krueger, Martin

AU - Flachmeyer, Bianca

AU - Pfaffl, Michael W.

AU - Haase, Bettina

AU - Yi, Chun-Xia

AU - Dietzen, Sarah

AU - Bopp, Tobias

AU - Woods, Stephen C.

AU - Waisman, Ari

AU - Weigmann, Benno

AU - Mann, Matthias

AU - Tschöp, Matthias H.

AU - Daniel, Carolin

PY - 2025/12/1

Y1 - 2025/12/1

N2 - The hypothalamus in the central nervous system (CNS) has important functions in controlling systemic metabolism. A calorie-rich diet triggers CNS immune activation, impairing metabolic control and promoting obesity and Type 2 Diabetes (T2D), but the mechanisms driving hypothalamic immune activation remain unclear. Here we identify regulatory T cells (Tregs) as key modulators of hypothalamic immune responses. In mice, calorie-rich environments activate hypothalamic CD4+ T cells, infiltrating macrophages and microglia while reducing hypothalamic Tregs. mRNA profiling of hypothalamic CD4+ T cells reveals a Th1-like activation state, with increased Tbx21, Cxcr3 and Cd226 but decreased Ccr7 and S1pr1. Importantly, results from Treg loss-of function and gain-of-function experiments show that Tregs limit hypothalamic immune activation and reverse metabolic impairments induced by hyper-caloric feeding. Our findings thus help refine the current model of Treg-centered immune-metabolic crosstalk in the brain and may contribute to the development of precision immune modulation for obesity and diabetes.

AB - The hypothalamus in the central nervous system (CNS) has important functions in controlling systemic metabolism. A calorie-rich diet triggers CNS immune activation, impairing metabolic control and promoting obesity and Type 2 Diabetes (T2D), but the mechanisms driving hypothalamic immune activation remain unclear. Here we identify regulatory T cells (Tregs) as key modulators of hypothalamic immune responses. In mice, calorie-rich environments activate hypothalamic CD4+ T cells, infiltrating macrophages and microglia while reducing hypothalamic Tregs. mRNA profiling of hypothalamic CD4+ T cells reveals a Th1-like activation state, with increased Tbx21, Cxcr3 and Cd226 but decreased Ccr7 and S1pr1. Importantly, results from Treg loss-of function and gain-of-function experiments show that Tregs limit hypothalamic immune activation and reverse metabolic impairments induced by hyper-caloric feeding. Our findings thus help refine the current model of Treg-centered immune-metabolic crosstalk in the brain and may contribute to the development of precision immune modulation for obesity and diabetes.

UR - https://www.scopus.com/pages/publications/105000506744

U2 - 10.1038/s41467-025-57918-z

DO - 10.1038/s41467-025-57918-z

M3 - Article

C2 - 40113758

SN - 2041-1723

VL - 16

JO - Nat. Commun.

JF - Nat. Commun.

IS - 1

M1 - 2744

ER -

Regulatory T cells in the mouse hypothalamus control immune activation and ameliorate metabolic impairments in high-calorie environments

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