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USP32 regulates late endosomal transport and recycling through deubiquitylation of Rab7

Author

Listed:
  • Aysegul Sapmaz

    (The Netherlands Cancer Institute
    Leiden University Medical Center
    Leiden University Medical Center)

  • Ilana Berlin

    (The Netherlands Cancer Institute
    Leiden University Medical Center
    Leiden University Medical Center)

  • Erik Bos

    (Leiden University Medical Center)

  • Ruud H. Wijdeven

    (The Netherlands Cancer Institute
    Leiden University Medical Center
    Leiden University Medical Center)

  • Hans Janssen

    (The Netherlands Cancer Institute)

  • Rebecca Konietzny

    (University of Oxford
    Agilent Technologies)

  • Jimmy J. Akkermans

    (Leiden University Medical Center
    Leiden University Medical Center)

  • Ayse E. Erson-Bensan

    (Middle East Technical University)

  • Roman I. Koning

    (Leiden University Medical Center)

  • Benedikt M. Kessler

    (University of Oxford)

  • Jacques Neefjes

    (The Netherlands Cancer Institute
    Leiden University Medical Center
    Leiden University Medical Center)

  • Huib Ovaa

    (The Netherlands Cancer Institute
    Leiden University Medical Center
    Leiden University Medical Center)

Abstract

The endosomal system is a highly dynamic multifunctional organelle, whose complexity is regulated in part by reversible ubiquitylation. Despite the wide-ranging influence of ubiquitin in endosomal processes, relatively few enzymes utilizing ubiquitin have been described to control endosome integrity and function. Here we reveal the deubiquitylating enzyme (DUB) ubiquitin-specific protease 32 (USP32) as a powerful player in this context. Loss of USP32 inhibits late endosome (LE) transport and recycling of LE cargos, resulting in dispersion and swelling of the late compartment. Using SILAC-based ubiquitome profiling we identify the small GTPase Rab7—the logistical centerpiece of LE biology—as a substrate of USP32. Mechanistic studies reveal that LE transport effector RILP prefers ubiquitylation-deficient Rab7, while retromer-mediated LE recycling benefits from an intact cycle of Rab7 ubiquitylation. Collectively, our observations suggest that reversible ubiquitylation helps switch Rab7 between its various functions, thereby maintaining global spatiotemporal order in the endosomal system.

Suggested Citation

  • Aysegul Sapmaz & Ilana Berlin & Erik Bos & Ruud H. Wijdeven & Hans Janssen & Rebecca Konietzny & Jimmy J. Akkermans & Ayse E. Erson-Bensan & Roman I. Koning & Benedikt M. Kessler & Jacques Neefjes & H, 2019. "USP32 regulates late endosomal transport and recycling through deubiquitylation of Rab7," Nature Communications, Nature, vol. 10(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09437-x
    DOI: 10.1038/s41467-019-09437-x
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    Cited by:

    1. Karin Vogel & Tobias Bläske & Marie-Kristin Nagel & Christoph Globisch & Shane Maguire & Lorenz Mattes & Christian Gude & Michael Kovermann & Karin Hauser & Christine Peter & Erika Isono, 2022. "Lipid-mediated activation of plasma membrane-localized deubiquitylating enzymes modulate endosomal trafficking," Nature Communications, Nature, vol. 13(1), pages 1-19, December.
    2. Gaurav Kumar & Prateek Chawla & Neha Dhiman & Sanya Chadha & Sheetal Sharma & Kanupriya Sethi & Mahak Sharma & Amit Tuli, 2022. "RUFY3 links Arl8b and JIP4-Dynein complex to regulate lysosome size and positioning," Nature Communications, Nature, vol. 13(1), pages 1-21, December.

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