Lupus susceptibility gene Esrrg modulates regulatory T cells through mitochondrial metabolism
Wei Li, Minghao Gong, Yuk Pheel Park, Ahmed S. Elshikha, Seung-Chul Choi, Josephine Brown, Nathalie Kanda, Wen-I Yeh, Leeana Peters, Anton A. Titov, Xiangyu Teng, Todd M. Brusko, Laurence Morel
Wei Li, Minghao Gong, Yuk Pheel Park, Ahmed S. Elshikha, Seung-Chul Choi, Josephine Brown, Nathalie Kanda, Wen-I Yeh, Leeana Peters, Anton A. Titov, Xiangyu Teng, Todd M. Brusko, Laurence Morel
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Research Article

Lupus susceptibility gene Esrrg modulates regulatory T cells through mitochondrial metabolism

Abstract

Estrogen-related receptor γ (Esrrg) is a murine lupus susceptibility gene associated with T cell activation. Here, we report that Esrrg controls Tregs through mitochondria homeostasis. Esrrg deficiency impaired the maintenance and function of Tregs, leading to global T cell activation and autoimmunity in aged mice. Further, Esrrg-deficient Tregs presented an impaired differentiation into follicular Tregs that enhanced follicular helper T cells’ responses. Mechanistically, Esrrg-deficient Tregs presented with dysregulated mitochondria with decreased oxygen consumption as well as ATP and NAD+ production. In addition, Esrrg-deficient Tregs exhibited decreased phosphatidylinositol and TGF-β signaling pathways and increased mTOR complex 1 activation. We found that the expression of human ESRRG, which is high in Tregs, was lower in CD4+ T cells from patients with lupus than in healthy controls. Finally, knocking down ESRRG in Jurkat T cells decreased their metabolism. Together, our results reveal a critical role of Esrrg in the maintenance and metabolism of Tregs, which may provide a genetic link between lupus pathogenesis and mitochondrial dysfunction in T cells.

Authors

Wei Li, Minghao Gong, Yuk Pheel Park, Ahmed S. Elshikha, Seung-Chul Choi, Josephine Brown, Nathalie Kanda, Wen-I Yeh, Leeana Peters, Anton A. Titov, Xiangyu Teng, Todd M. Brusko, Laurence Morel

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Figure 1

Esrrg deficiency in Tregs leads to CD4+ T cell activation and autoimmunity in aged mice.

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Esrrg deficiency in Tregs leads to CD4+ T cell activation and autoimmun...
(A) Representative spleens and mLNs from B6N.Foxp3YFP-Cre (WT, shown in black) and B6N.Esrrgfl/fl Foxp3YFP-Cre (cKO, shown in red) mice. (B) Spleen weight. Serum anti-nuclear autoantibodies (ANAs) quantified as mean fluorescence intensity (MFI), with a value of 4 corresponding to background levels (C), and anti-dsDNA IgG (D). Percentage of CD69+ T cells (E), CD44+CD62L Tem cells (F), Bcl6+PD-1+CXCR5+FOXP3 Tfh cells (G), and Bcl6+PD-1+CXCR5+FOXP3+ Tfr cells (H) in total CD4+ T cells. PD-1, programmed cell death protein 1. (I) Tfh/Tfr ratio. (K) Representative H&E staining of spleen (original magnification, 4×; scale bar: 600 μm), colon, and lung (original magnification, 8×; scale bar: 300 μm) sections from WT and cKO mice, with corresponding quantitation of the number of GCs in the spleen and immune foci (arrows) in the colon and lung per section. Data were obtained from 2- to 3-month-old (A, B, and EJ) and 10- to 13-month-old (D, E, and K) mice. Graphs show mean ± SEM with each symbol representing a mouse (n = 4 — 13). Unpaired 2-tailed t tests, *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.