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Mitochondrial ABHD11 inhibition drives sterol metabolism to modulate T-cell effector function

Author

Listed:
  • Benjamin J. Jenkins

    (Swansea University)

  • Yasmin R. Jenkins

    (Swansea University)

  • Fernando M. Ponce-Garcia

    (Swansea University)

  • Chloe Moscrop

    (Biomedical Sciences Building)

  • Iain A. Perry

    (Swansea University)

  • Matthew D. Hitchings

    (Swansea University)

  • Alejandro H. Uribe

    (Switchback Road)

  • Federico Bernuzzi

    (Switchback Road)

  • Simon Eastham

    (Biomedical Sciences Building)

  • James G. Cronin

    (Swansea University)

  • Ardena Berisha
  • Alexandra Howell

    (Cardiff University)

  • Joanne Davies

    (Cardiff University)

  • Julianna Blagih

    (1 Midland Road
    Maisonneuve-Rosemont Hospital Research Centre)

  • Marta Williams

    (Cardiff University)

  • Morgan Marsden

    (Cardiff University)

  • Douglas J. Veale

    (St Vincent’s University Hospital)

  • Luke C. Davies

    (Swansea University)

  • Micah Niphakis

    (Department of Chemistry, Scripps Research)

  • David K. Finlay

    (Trinity College Dublin)

  • Linda V. Sinclair

    (University of Dundee)

  • Benjamin F. Cravatt

    (Department of Chemistry, Scripps Research)

  • Andrew E. Hogan
  • James A. Nathan

    (University of Cambridge)

  • Ian R. Humphreys

    (Cardiff University)

  • Ursula Fearon

    (Trinity College Dublin)

  • David Sumpton

    (Switchback Road)

  • Johan Vande Voorde

    (Switchback Road
    University of Glasgow)

  • Goncalo Dias do Vale

    (University of Texas Southwestern Medical Center)

  • Jeffrey G. McDonald

    (University of Texas Southwestern Medical Center)

  • Gareth W. Jones

    (Biomedical Sciences Building)

  • James A. Pearson

    (Cardiff University)

  • Emma E. Vincent

    (University of Bristol
    University of Bristol)

  • Nicholas Jones

    (Swansea University)

Abstract

α/β-hydrolase domain-containing protein 11 (ABHD11) is a mitochondrial hydrolase that maintains the catalytic function of α-ketoglutarate dehydrogenase (α-KGDH), and its expression in CD4 + T-cells has been linked to remission status in rheumatoid arthritis (RA). However, the importance of ABHD11 in regulating T-cell metabolism and function is yet to be explored. Here, we show that pharmacological inhibition of ABHD11 dampens cytokine production by human and mouse T-cells. Mechanistically, the anti-inflammatory effects of ABHD11 inhibition are attributed to increased 24,25-epoxycholesterol (24,25-EC) biosynthesis and subsequent liver X receptor (LXR) activation, which arise from a compromised TCA cycle. The impaired cytokine profile established by ABHD11 inhibition is extended to two patient cohorts of autoimmunity. Importantly, using murine models of accelerated type 1 diabetes (T1D), we show that targeting ABHD11 suppresses cytokine production in antigen-specific T-cells and delays the onset of diabetes in vivo in female mice. Collectively, our work provides pre-clinical evidence that ABHD11 is an encouraging drug target in T-cell-mediated inflammation.

Suggested Citation

  • Benjamin J. Jenkins & Yasmin R. Jenkins & Fernando M. Ponce-Garcia & Chloe Moscrop & Iain A. Perry & Matthew D. Hitchings & Alejandro H. Uribe & Federico Bernuzzi & Simon Eastham & James G. Cronin & A, 2025. "Mitochondrial ABHD11 inhibition drives sterol metabolism to modulate T-cell effector function," Nature Communications, Nature, vol. 16(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-65417-4
    DOI: 10.1038/s41467-025-65417-4
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    References listed on IDEAS

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