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. 2019 May 16;177(5):1201-1216.e19.
doi: 10.1016/j.cell.2019.03.018. Epub 2019 Apr 25.

Metabolic and Innate Immune Cues Merge into a Specific Inflammatory Response via the UPR

Denis A Mogilenko  1 Joel T Haas  1 Laurent L'homme  1 Sébastien Fleury  1 Sandrine Quemener  1 Matthieu Levavasseur  2 Coralie Becquart  2 Julien Wartelle  1 Alexandra Bogomolova  1 Laurent Pineau  1 Olivier Molendi-Coste  1 Steve Lancel  1 Hélène Dehondt  1 Celine Gheeraert  1 Aurelie Melchior  1 Cédric Dewas  1 Artemii Nikitin  1 Samuel Pic  1 Nabil Rabhi  3 Jean-Sébastien Annicotte  3 Seiichi Oyadomari  4 Talia Velasco-Hernandez  5 Jörg Cammenga  5 Marc Foretz  6 Benoit Viollet  6 Milica Vukovic  7 Arnaud Villacreces  7 Kamil Kranc  7 Peter Carmeliet  8 Guillemette Marot  9 Alexis Boulter  10 Simon Tavernier  11 Luciana Berod  12 Maria P Longhi  13 Christophe Paget  14 Sophie Janssens  15 Delphine Staumont-Sallé  2 Ezra Aksoy  16 Bart Staels  1 David Dombrowicz  17
Affiliations
Free article

Metabolic and Innate Immune Cues Merge into a Specific Inflammatory Response via the UPR

Denis A Mogilenko et al. Cell. .
Free article

Erratum in

  • Metabolic and Innate Immune Cues Merge into a Specific Inflammatory Response via the UPR.
    Mogilenko DA, Haas JT, L'homme L, Fleury S, Quemener S, Levavasseur M, Becquart C, Wartelle J, Bogomolova A, Pineau L, Molendi-Coste O, Lancel S, Dehondt H, Gheeraert C, Melchior A, Dewas C, Nikitin A, Pic S, Rabhi N, Annicotte JS, Oyadomari S, Velasco-Hernandez T, Cammenga J, Foretz M, Viollet B, Vukovic M, Villacreces A, Kranc K, Carmeliet P, Marot G, Boulter A, Tavernier S, Berod L, Longhi MP, Paget C, Janssens S, Staumont-Sallé D, Aksoy E, Staels B, Dombrowicz D. Mogilenko DA, et al. Cell. 2019 Jun 27;178(1):263. doi: 10.1016/j.cell.2019.06.017. Cell. 2019. PMID: 31251916 No abstract available.

Abstract

Innate immune responses are intricately linked with intracellular metabolism of myeloid cells. Toll-like receptor (TLR) stimulation shifts intracellular metabolism toward glycolysis, while anti-inflammatory signals depend on enhanced mitochondrial respiration. How exogenous metabolic signals affect the immune response is unknown. We demonstrate that TLR-dependent responses of dendritic cells (DCs) are exacerbated by a high-fatty-acid (FA) metabolic environment. FAs suppress the TLR-induced hexokinase activity and perturb tricarboxylic acid cycle metabolism. These metabolic changes enhance mitochondrial reactive oxygen species (mtROS) production and, in turn, the unfolded protein response (UPR), leading to a distinct transcriptomic signature with IL-23 as hallmark. Interestingly, chemical or genetic suppression of glycolysis was sufficient to induce this specific immune response. Conversely, reducing mtROS production or DC-specific deficiency in XBP1 attenuated IL-23 expression and skin inflammation in an IL-23-dependent model of psoriasis. Thus, fine-tuning of innate immunity depends on optimization of metabolic demands and minimization of mtROS-induced UPR.

Keywords: IL-23; UPR; dendritic cells; fatty acids; glycolysis; hexokinase; innate immunity; metabolic reprogramming; mtROS; psoriasis.

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