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SUCLA2 mutations cause global protein succinylation contributing to the pathomechanism of a hereditary mitochondrial disease

Author

Listed:
  • Philipp Gut

    (Gladstone Institutes and University of California
    EPFL Innovation Park)

  • Sanna Matilainen

    (University of Helsinki)

  • Jesse G. Meyer

    (Buck Institute for Research on Aging
    Medical College of Wisconsin)

  • Pieti Pällijeff

    (University of Helsinki)

  • Joy Richard

    (EPFL Innovation Park)

  • Christopher J. Carroll

    (St. George’s, University of London)

  • Liliya Euro

    (University of Helsinki)

  • Christopher B. Jackson

    (University of Helsinki)

  • Pirjo Isohanni

    (University of Helsinki
    University of Helsinki and Helsinki University Hospital)

  • Berge A. Minassian

    (Institute of Medical Science University of Toronto
    University of Texas Southwestern)

  • Reem A. Alkhater

    (Johns Hopkins Aramco Healthcare)

  • Elsebet Østergaard

    (Copenhagen University Hospital Rigshospitalet)

  • Gabriele Civiletto

    (EPFL Innovation Park)

  • Alice Parisi

    (EPFL Innovation Park)

  • Jonathan Thevenet

    (EPFL Innovation Park)

  • Matthew J. Rardin

    (Buck Institute for Research on Aging
    Amgen)

  • Wenjuan He

    (Gladstone Institutes and University of California)

  • Yuya Nishida

    (Gladstone Institutes and University of California)

  • John C. Newman

    (Gladstone Institutes and University of California)

  • Xiaojing Liu

    (Duke University School of Medicine
    North Carolina State University)

  • Stefan Christen

    (EPFL Innovation Park)

  • Sofia Moco

    (EPFL Innovation Park)

  • Jason W. Locasale

    (Duke University School of Medicine)

  • Birgit Schilling

    (Buck Institute for Research on Aging)

  • Anu Suomalainen

    (University of Helsinki
    University of Helsinki
    HUSlab, Helsinki University Hospital)

  • Eric Verdin

    (Gladstone Institutes and University of California
    Buck Institute for Research on Aging)

Abstract

Mitochondrial acyl-coenzyme A species are emerging as important sources of protein modification and damage. Succinyl-CoA ligase (SCL) deficiency causes a mitochondrial encephalomyopathy of unknown pathomechanism. Here, we show that succinyl-CoA accumulates in cells derived from patients with recessive mutations in the tricarboxylic acid cycle (TCA) gene succinyl-CoA ligase subunit-β (SUCLA2), causing global protein hyper-succinylation. Using mass spectrometry, we quantify nearly 1,000 protein succinylation sites on 366 proteins from patient-derived fibroblasts and myotubes. Interestingly, hyper-succinylated proteins are distributed across cellular compartments, and many are known targets of the (NAD+)-dependent desuccinylase SIRT5. To test the contribution of hyper-succinylation to disease progression, we develop a zebrafish model of the SCL deficiency and find that SIRT5 gain-of-function reduces global protein succinylation and improves survival. Thus, increased succinyl-CoA levels contribute to the pathology of SCL deficiency through post-translational modifications.

Suggested Citation

  • Philipp Gut & Sanna Matilainen & Jesse G. Meyer & Pieti Pällijeff & Joy Richard & Christopher J. Carroll & Liliya Euro & Christopher B. Jackson & Pirjo Isohanni & Berge A. Minassian & Reem A. Alkhater, 2020. "SUCLA2 mutations cause global protein succinylation contributing to the pathomechanism of a hereditary mitochondrial disease," Nature Communications, Nature, vol. 11(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-19743-4
    DOI: 10.1038/s41467-020-19743-4
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