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Mitofusin 2 displays fusion-independent roles in proteostasis surveillance

Author

Listed:
  • Mariana Joaquim

    (University of Cologne
    University of Cologne
    University of Cologne)

  • Selver Altin

    (University of Cologne
    University of Cologne)

  • Maria-Bianca Bulimaga

    (University of Cologne
    University of Cologne
    University of Cologne
    Medical Faculty of the University of Cologne and University Hospital of Cologne)

  • Tânia Simões

    (University of Cologne
    University of Cologne)

  • Hendrik Nolte

    (University of Cologne
    University of Cologne
    MPI for Biology of Ageing)

  • Verian Bader

    (and Cluster of Excellence RESOLV)

  • Camilla Aurora Franchino

    (University of Cologne
    University of Cologne
    University of Cologne)

  • Solenn Plouzennec

    (SFR ICAT)

  • Karolina Szczepanowska

    (University of Cologne
    00-783)

  • Elena Marchesan

    (University of Padova)

  • Kay Hofmann

    (University of Cologne)

  • Marcus Krüger

    (University of Cologne
    University of Cologne
    University of Cologne)

  • Elena Ziviani

    (University of Padova)

  • Aleksandra Trifunovic

    (University of Cologne
    University of Cologne)

  • Arnaud Chevrollier

    (SFR ICAT)

  • Konstanze F. Winklhofer

    (and Cluster of Excellence RESOLV)

  • Elisa Motori

    (University of Cologne
    University of Cologne
    University of Cologne)

  • Margarete Odenthal

    (University of Cologne
    Medical Faculty of the University of Cologne and University Hospital of Cologne)

  • Mafalda Escobar-Henriques

    (University of Cologne
    University of Cologne
    University of Cologne)

Abstract

Mitochondria are essential organelles and their functional state dictates cellular proteostasis. However, little is known about the molecular gatekeepers involved, especially in absence of external stress. Here we identify a role of MFN2 in quality control independent of its function in organellar shape remodeling. MFN2 ablation alters the cellular proteome, marked for example by decreased levels of the import machinery and accumulation of the kinase PINK1. Moreover, MFN2 interacts with the proteasome and cytosolic chaperones, thereby preventing aggregation of newly translated proteins. Similarly to MFN2-KO cells, patient fibroblasts with MFN2-disease variants recapitulate excessive protein aggregation defects. Restoring MFN2 levels re-establishes proteostasis in MFN2-KO cells and rescues fusion defects of MFN1-KO cells. In contrast, MFN1 loss or mitochondrial shape alterations do not alter protein aggregation, consistent with a fusion-independent role of MFN2 in cellular homeostasis. In sum, our findings open new possibilities for therapeutic strategies by modulation of MFN2 levels.

Suggested Citation

  • Mariana Joaquim & Selver Altin & Maria-Bianca Bulimaga & Tânia Simões & Hendrik Nolte & Verian Bader & Camilla Aurora Franchino & Solenn Plouzennec & Karolina Szczepanowska & Elena Marchesan & Kay Hof, 2025. "Mitofusin 2 displays fusion-independent roles in proteostasis surveillance," Nature Communications, Nature, vol. 16(1), pages 1-21, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-56673-5
    DOI: 10.1038/s41467-025-56673-5
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    References listed on IDEAS

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    1. Lidia Wrobel & Ulrike Topf & Piotr Bragoszewski & Sebastian Wiese & Malgorzata E. Sztolsztener & Silke Oeljeklaus & Aksana Varabyova & Maciej Lirski & Piotr Chroscicki & Seweryn Mroczek & Elzbieta Jan, 2015. "Mistargeted mitochondrial proteins activate a proteostatic response in the cytosol," Nature, Nature, vol. 524(7566), pages 485-488, August.
    2. Xiaowen Wang & Xin Jie Chen, 2015. "A cytosolic network suppressing mitochondria-mediated proteostatic stress and cell death," Nature, Nature, vol. 524(7566), pages 481-484, August.
    3. F. X. Reymond Sutandy & Ines Gößner & Georg Tascher & Christian Münch, 2023. "A cytosolic surveillance mechanism activates the mitochondrial UPR," Nature, Nature, vol. 618(7966), pages 849-854, June.
    4. Minji Kim & Remigiusz A. Serwa & Lukasz Samluk & Ida Suppanz & Agata Kodroń & Tomasz M. Stępkowski & Praveenraj Elancheliyan & Biniyam Tsegaye & Silke Oeljeklaus & Michal Wasilewski & Bettina Warschei, 2023. "Immunoproteasome-specific subunit PSMB9 induction is required to regulate cellular proteostasis upon mitochondrial dysfunction," Nature Communications, Nature, vol. 14(1), pages 1-23, December.
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