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Impaired ketogenesis ties metabolism to T cell dysfunction in COVID-19

Author

Listed:
  • Fotios Karagiannis

    (University Hospital Bonn, University of Bonn)

  • Konrad Peukert

    (University Hospital Bonn)

  • Laura Surace

    (University Hospital Bonn, University of Bonn
    University Hospital Bonn)

  • Marcel Michla

    (University Hospital Bonn, University of Bonn)

  • Fabian Nikolka

    (Technische Universität Braunschweig)

  • Mario Fox

    (University Hospital Bonn)

  • Patricia Weiss

    (University Hospital Bonn, University of Bonn)

  • Caroline Feuerborn

    (University Hospital Bonn)

  • Paul Maier

    (University Hospital Bonn, University of Bonn)

  • Susanne Schulz

    (University Hospital Bonn)

  • Burcu Al

    (University of Bonn)

  • Benjamin Seeliger

    (Hannover Medical School)

  • Tobias Welte

    (Hannover Medical School)

  • Sascha David

    (University Hospital Zürich)

  • Inge Grondman

    (Radboud University Medical Center)

  • Aline H. Nooijer

    (Radboud University Medical Center)

  • Peter Pickkers

    (Radboud University Medical Center)

  • Jan Lukas Kleiner

    (University Hospital Bonn)

  • Marc Moritz Berger

    (University Hospital Essen, University Duisburg-Essen)

  • Thorsten Brenner

    (University Hospital Essen, University Duisburg-Essen)

  • Christian Putensen

    (University Hospital Bonn)

  • Hiroki Kato

    (University Hospital Bonn, University of Bonn)

  • Natalio Garbi

    (University Hospital Bonn, University of Bonn)

  • Mihai G. Netea

    (University of Bonn
    Radboud University Medical Center)

  • Karsten Hiller

    (Technische Universität Braunschweig)

  • Katarzyna Placek

    (University of Bonn)

  • Christian Bode

    (University Hospital Bonn)

  • Christoph Wilhelm

    (University Hospital Bonn, University of Bonn)

Abstract

Anorexia and fasting are host adaptations to acute infection, and induce a metabolic switch towards ketogenesis and the production of ketone bodies, including β-hydroxybutyrate (BHB)1–6. However, whether ketogenesis metabolically influences the immune response in pulmonary infections remains unclear. Here we show that the production of BHB is impaired in individuals with SARS-CoV-2-induced acute respiratory distress syndrome (ARDS) but not in those with influenza-induced ARDS. We found that BHB promotes both the survival of and the production of interferon-γ by CD4+ T cells. Applying a metabolic-tracing analysis, we established that BHB provides an alternative carbon source to fuel oxidative phosphorylation (OXPHOS) and the production of bioenergetic amino acids and glutathione, which is important for maintaining the redox balance. T cells from patients with SARS-CoV-2-induced ARDS were exhausted and skewed towards glycolysis, but could be metabolically reprogrammed by BHB to perform OXPHOS, thereby increasing their functionality. Finally, we show in mice that a ketogenic diet and the delivery of BHB as a ketone ester drink restores CD4+ T cell metabolism and function in severe respiratory infections, ultimately reducing the mortality of mice infected with SARS-CoV-2. Altogether, our data reveal that BHB is an alternative source of carbon that promotes T cell responses in pulmonary viral infections, and highlight impaired ketogenesis as a potential confounding factor in severe COVID-19.

Suggested Citation

  • Fotios Karagiannis & Konrad Peukert & Laura Surace & Marcel Michla & Fabian Nikolka & Mario Fox & Patricia Weiss & Caroline Feuerborn & Paul Maier & Susanne Schulz & Burcu Al & Benjamin Seeliger & Tob, 2022. "Impaired ketogenesis ties metabolism to T cell dysfunction in COVID-19," Nature, Nature, vol. 609(7928), pages 801-807, September.
  • Handle: RePEc:nat:nature:v:609:y:2022:i:7928:d:10.1038_s41586-022-05128-8
    DOI: 10.1038/s41586-022-05128-8
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    Cited by:

    1. Angela McNelly & Anne Langan & Danielle E. Bear & Alexandria Page & Tim Martin & Fatima Seidu & Filipa Santos & Kieron Rooney & Kaifeng Liang & Simon J. Heales & Tomas Baldwin & Isabelle Alldritt & Ha, 2023. "A pilot study of alternative substrates in the critically Ill subject using a ketogenic feed," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
    2. Hongxing Shen & Oluwagbemiga A. Ojo & Haitao Ding & Logan J. Mullen & Chuan Xing & M. Iqbal Hossain & Abdelrahman Yassin & Vivian Y. Shi & Zach Lewis & Ewa Podgorska & Shaida A. Andrabi & Maciek R. An, 2024. "HIF1α-regulated glycolysis promotes activation-induced cell death and IFN-γ induction in hypoxic T cells," Nature Communications, Nature, vol. 15(1), pages 1-17, December.

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