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Phospholipase D3 degrades mitochondrial DNA to regulate nucleotide signaling and APP metabolism

Author

Listed:
  • Zoë P. Van Acker

    (VIB Center for Brain & Disease Research
    KU Leuven)

  • Anika Perdok

    (VIB Center for Brain & Disease Research
    KU Leuven)

  • Ruben Hellemans

    (VIB Center for Brain & Disease Research
    KU Leuven)

  • Katherine North

    (VIB Center for Brain & Disease Research
    KU Leuven)

  • Inge Vorsters

    (VIB Center for Brain & Disease Research
    KU Leuven)

  • Cedric Cappel

    (Christian-Albrechts-University Kiel)

  • Jonas Dehairs

    (KU Leuven)

  • Johannes V. Swinnen

    (KU Leuven)

  • Ragna Sannerud

    (VIB Center for Brain & Disease Research
    KU Leuven)

  • Marine Bretou

    (VIB Center for Brain & Disease Research
    KU Leuven)

  • Markus Damme

    (Christian-Albrechts-University Kiel)

  • Wim Annaert

    (VIB Center for Brain & Disease Research
    KU Leuven)

Abstract

Phospholipase D3 (PLD3) polymorphisms are linked to late-onset Alzheimer’s disease (LOAD). Being a lysosomal 5’-3’ exonuclease, its neuronal substrates remained unknown as well as how a defective lysosomal nucleotide catabolism connects to AD-proteinopathy. We identified mitochondrial DNA (mtDNA) as a major physiological substrate and show its manifest build-up in lysosomes of PLD3-defective cells. mtDNA accretion creates a degradative (proteolytic) bottleneck that presents at the ultrastructural level as a marked abundance of multilamellar bodies, often containing mitochondrial remnants, which correlates with increased PINK1-dependent mitophagy. Lysosomal leakage of mtDNA to the cytosol activates cGAS–STING signaling that upregulates autophagy and induces amyloid precursor C-terminal fragment (APP-CTF) and cholesterol accumulation. STING inhibition largely normalizes APP-CTF levels, whereas an APP knockout in PLD3-deficient backgrounds lowers STING activation and normalizes cholesterol biosynthesis. Collectively, we demonstrate molecular cross-talks through feedforward loops between lysosomal nucleotide turnover, cGAS-STING and APP metabolism that, when dysregulated, result in neuronal endolysosomal demise as observed in LOAD.

Suggested Citation

  • Zoë P. Van Acker & Anika Perdok & Ruben Hellemans & Katherine North & Inge Vorsters & Cedric Cappel & Jonas Dehairs & Johannes V. Swinnen & Ragna Sannerud & Marine Bretou & Markus Damme & Wim Annaert, 2023. "Phospholipase D3 degrades mitochondrial DNA to regulate nucleotide signaling and APP metabolism," Nature Communications, Nature, vol. 14(1), pages 1-21, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-38501-w
    DOI: 10.1038/s41467-023-38501-w
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    1. Anika Perdok & Zoë P. Van Acker & Céline Vrancx & Ragna Sannerud & Inge Vorsters & Assunta Verrengia & Zsuzsanna Callaerts-Végh & Eline Creemers & Sara Gutiérrez Fernández & Britt D’hauw & Lutgarde Se, 2024. "Altered expression of Presenilin2 impacts endolysosomal homeostasis and synapse function in Alzheimer’s disease-relevant brain circuits," Nature Communications, Nature, vol. 15(1), pages 1-20, December.

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