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Literature DB >> 32738205

Mitochondrial Oxidative Damage Underlies Regulatory T Cell Defects in Autoimmunity.

Themis Alissafi¹, Lydia Kalafati², Maria Lazari³, Anastasia Filia³, Ismini Kloukina⁴, Maria Manifava⁵, Jong-Hyung Lim⁶, Vasileia Ismini Alexaki⁶, Nicholas T Ktistakis⁵, Triantafyllos Doskas⁷, George A Garinis⁸, Triantafyllos Chavakis⁹, Dimitrios T Boumpas¹⁰, Panayotis Verginis¹¹.

Abstract

Regulatory T cells (Tregs) are vital for the maintenance of immune homeostasis, while their dysfunction constitutes a cardinal feature of autoimmunity. Under steady-state conditions, mitochondrial metabolism is critical for Treg function; however, the metabolic adaptations of Tregs during autoimmunity are ill-defined. Herein, we report that elevated mitochondrial oxidative stress and a robust DNA damage response (DDR) associated with cell death occur in Tregs in individuals with autoimmunity. In an experimental autoimmune encephalitis (EAE) mouse model of autoimmunity, we found a Treg dysfunction recapitulating the features of autoimmune Tregs with a prominent mtROS signature. Scavenging of mtROS in Tregs of EAE mice reversed the DDR and prevented Treg death, while attenuating the Th1 and Th17 autoimmune responses. These findings highlight an unrecognized role of mitochondrial oxidative stress in defining Treg fate during autoimmunity, which may facilitate the design of novel immunotherapies for diseases with disturbed immune tolerance.

Entities: CellLine Chemical Disease Gene Species

Keywords: DNA damage response; autoimmunity; lysosome; metabolism; mitochondrial oxidative stress; regulatory T cell

Year: 2020 PMID： 32738205 PMCID： PMC7611060 DOI： 10.1016/j.cmet.2020.07.001

Source DB: PubMed Journal: Cell Metab ISSN： 1550-4131 Impact factor: 27.287

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