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Structural basis for Retriever-SNX17 assembly and endosomal sorting

Author

Listed:
  • Amika Singla

    (5323 Harry Hines Boulevard)

  • Daniel J. Boesch

    (2437 Pammel Drive)

  • Ho Yee Joyce Fung

    (6001 Forest Park Road)

  • Chigozie Ngoka

    (2437 Pammel Drive)

  • Avery S. Enriquez

    (2437 Pammel Drive)

  • Ran Song

    (5323 Harry Hines Boulevard)

  • Daniel A. Kramer

    (2437 Pammel Drive)

  • Yan Han

    (6001 Forest Park Road)

  • Esther Banarer

    (5323 Harry Hines Boulevard)

  • Andrew Lemoff

    (5323 Harry Hines Boulevard)

  • Puneet Juneja

    (2437 Pammel Drive
    5350 NE Dawson Creek Drive)

  • Daniel D. Billadeau

    (Mayo Clinic)

  • Xiaochen Bai

    (6001 Forest Park Road)

  • Zhe Chen

    (6001 Forest Park Road)

  • Emre E. Turer

    (5323 Harry Hines Boulevard)

  • Ezra Burstein

    (5323 Harry Hines Boulevard
    5323 Harry Hines Boulevard)

  • Baoyu Chen

    (2437 Pammel Drive
    6001 Forest Park Road)

Abstract

During endosomal recycling, Sorting Nexin 17 (SNX17) facilitates the transport of numerous membrane cargo proteins by tethering them to the Retriever complex. Despite its importance, the mechanisms underlying this interaction have remained elusive. Here, we provide biochemical, structural, cellular, and proteomic analyses of the SNX17-Retriever interaction. Our data reveal that SNX17 adopts an autoinhibited conformation in the basal state, with its FERM domain sequestering its C-terminal tail. The binding of cargo proteins to the FERM domain displaces the C-terminal tail through direct competition. The released tail engages with Retriever by binding to a highly conserved interface between its VPS35L and VPS26C subunits, as revealed by cryogenic electron microscopy (cryo-EM). Disrupting this interface impairs the Retriever-SNX17 interaction, subsequently affecting the recycling of SNX17-dependent cargoes and altering the composition of the plasma membrane proteome. Intriguingly, the SNX17-binding pocket on Retriever can be utilized by other ligands containing a consensus acidic C-terminal tail motif. Together, our findings uncover a mechanism underlying endosomal trafficking of critical cargo proteins and reveal how Retriever can potentially engage with other regulatory factors or be exploited by pathogens.

Suggested Citation

  • Amika Singla & Daniel J. Boesch & Ho Yee Joyce Fung & Chigozie Ngoka & Avery S. Enriquez & Ran Song & Daniel A. Kramer & Yan Han & Esther Banarer & Andrew Lemoff & Puneet Juneja & Daniel D. Billadeau , 2024. "Structural basis for Retriever-SNX17 assembly and endosomal sorting," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-54583-6
    DOI: 10.1038/s41467-024-54583-6
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    1. Rebeka Butkovič & Michael D. Healy & Cecilia de Heus & Alexander P. Walker & Wyatt Beyers & Kerrie E. McNally & Philip A. Lewis & Kate J. Heesom & Nalan Liv & Judith Klumperman & Santiago Di Pietro & , 2025. "Identification of a RAB32-LRMDA-Commander membrane trafficking complex reveals the molecular mechanism of human oculocutaneous albinism type 7," Nature Communications, Nature, vol. 16(1), pages 1-21, December.
    2. Carlos Antón-Plágaro & Kai-en Chen & Qian Guo & Meihan Liu & Ashley J. Evans & Philip A. Lewis & Kate J. Heesom & Kevin A. Wilkinson & Brett M. Collins & Peter J. Cullen, 2025. "Mapping of endosomal proximity proteomes reveals Retromer as a hub for RAB GTPase regulation," Nature Communications, Nature, vol. 16(1), pages 1-23, December.

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