Pyruvate dehydrogenase fuels a critical citrate pool that is essential for Th17 cell effector functions

Leticia Soriano‐Baguet; Melanie Grusdat; Henry Kurniawan; Mohaned Benzarti; Carole Binsfeld; Anouk Ewen; Joseph Longworth; Lynn Bonetti; Luana Guerra; Davide Franchina; T Kobayashi; Veronika Horková; Charlène Verschueren; Sergio Helgueta; Déborah Gérard; Tushar H. More; Antonia Henne; Catherine Dostert; Sophie Farinelle; Antoine Lesur; Jean‐Jacques Gérardy; Christian Jäger; Michel Mittelbronn; Lasse Sinkkonen; Karsten Hiller; Johannes Meiser; Dirk Brenner

doi:10.1016/j.celrep.2023.112153

Pyruvate dehydrogenase fuels a critical citrate pool that is essential for Th17 cell effector functions

Leticia Soriano‐Baguet(University of Luxembourg), Melanie Grusdat(University of Luxembourg), Henry Kurniawan(University of Luxembourg), Mohaned Benzarti(University of Luxembourg), Carole Binsfeld(University of Luxembourg), Anouk Ewen(University of Luxembourg), Joseph Longworth(University of Luxembourg), Lynn Bonetti(University of Luxembourg), Luana Guerra(University of Luxembourg), Davide Franchina(University of Luxembourg), T Kobayashi(University of Luxembourg), Veronika Horková(University of Luxembourg), Charlène Verschueren(University of Luxembourg), Sergio Helgueta(Centre Hospitalier de Luxembourg), Déborah Gérard(University of Luxembourg), Tushar H. More(Technische Universität Braunschweig), Antonia Henne(Technische Universität Braunschweig), Catherine Dostert(University of Luxembourg), Sophie Farinelle(University of Luxembourg), Antoine Lesur(Luxembourg Institute of Health), Jean‐Jacques Gérardy(Centre Hospitalier de Luxembourg), Christian Jäger(University of Luxembourg), Michel Mittelbronn(Centre Hospitalier de Luxembourg), Lasse Sinkkonen(University of Luxembourg), Karsten Hiller(Technische Universität Braunschweig), Johannes Meiser(Luxembourg Institute of Health), Dirk Brenner(University of Southern Denmark)

Cell Reports

February 26, 2023

10.1016/j.celrep.2023.112153

Cited by 31Open Access

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Abstract

Pyruvate dehydrogenase (PDH) is the central enzyme connecting glycolysis and the tricarboxylic acid (TCA) cycle. The importance of PDH function in T helper 17 (Th17) cells still remains to be studied. Here, we show that PDH is essential for the generation of a glucose-derived citrate pool needed for Th17 cell proliferation, survival, and effector function. In vivo, mice harboring a T cell-specific deletion of PDH are less susceptible to developing experimental autoimmune encephalomyelitis. Mechanistically, the absence of PDH in Th17 cells increases glutaminolysis, glycolysis, and lipid uptake in a mammalian target of rapamycin (mTOR)-dependent manner. However, cellular citrate remains critically low in mutant Th17 cells, which interferes with oxidative phosphorylation (OXPHOS), lipid synthesis, and histone acetylation, crucial for transcription of Th17 signature genes. Increasing cellular citrate in PDH-deficient Th17 cells restores their metabolism and function, identifying a metabolic feedback loop within the central carbon metabolism that may offer possibilities for therapeutically targeting Th17 cell-driven autoimmunity.

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