Rhythmic IL-17 production by γο T cells maintains adipose de novo lipogenesis

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Douglas, A. and Stevens, B. and Rendas, M. and Kane, H. and Lynch, E. and Kunkemoeller, B. and Wessendorf-Rodriguez, K. and Day, E.A. and Sutton, C. and Brennan, M. and O’Brien, K. and Kohlgruber, A.C. and Prendeville, H. and Garza, A.E. and O’Neill, L.A.J. and Mills, K.H.G. and Metallo, C.M. and Veiga-Fernandes, H. and Lynch, L., Rhythmic IL-17 production by γο T cells maintains adipose de novo lipogenesis, Nature, 2024

Abstract

The circadian rhythm of the immune system helps to protect against pathogens1,2,3; however, the role of circadian rhythms in immune homeostasis is less well understood. Innate T cells are tissue-resident lymphocytes with key roles in tissue homeostasis4,5,6,7. Here we use single-cell RNA sequencing, a molecular-clock reporter and genetic manipulations to show that innate IL-17-producing T cells—including γδ T cells, invariant natural killer T cells and mucosal-associated invariant T cells—are enriched for molecular-clock genes compared with their IFNγ-producing counterparts. We reveal that IL-17-producing γδ (γδ17) T cells, in particular, rely on the molecular clock to maintain adipose tissue homeostasis, and exhibit a robust circadian rhythm for RORγt and IL-17A across adipose depots, which peaks at night. In mice, loss of the molecular clock in the CD45 compartment (Bmal1∆Vav1) affects the production of IL-17 by adipose γδ17 T cells, but not cytokine production by αβ or IFNγ-producing γδ (γδIFNγ) T cells. Circadian IL-17 is essential for de novo lipogenesis in adipose tissue, and mice with an adipocyte-specific deficiency in IL-17 receptor C (IL-17RC) have defects in de novo lipogenesis. Whole-body metabolic analysis in vivo shows that Il17a−/−Il17f−/− mice (which lack expression of IL-17A and IL-17F) have defects in their circadian rhythm for de novo lipogenesis, which results in disruptions to their whole-body metabolic rhythm and core-body-temperature rhythm. This study identifies a crucial role for IL-17 in whole-body metabolic homeostasis and shows that de novo lipogenesis is a major target of IL-17.

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Sponsor: Research Ireland
Grant Number: 16/FRL/3865

Sponsor: Science Foundation Ireland

Author's Homepage: http://people.tcd.ie/millsk
Type of material: Journal Article