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Structure of the MlaC-MlaD complex reveals molecular basis of periplasmic phospholipid transport

Author

Listed:
  • Peter Wotherspoon

    (University of Birmingham)

  • Hannah Johnston

    (University of Birmingham)

  • David J. Hardy

    (University of Birmingham)

  • Rachel Holyfield

    (University of Birmingham)

  • Soi Bui

    (School of Basic & Medical Biosciences, King’s College London
    8-9 The Spire Green Centre)

  • Giedrė Ratkevičiūtė

    (University of Birmingham
    University of Oxford)

  • Pooja Sridhar

    (University of Birmingham)

  • Jonathan Colburn

    (University of Warwick)

  • Charlotte B. Wilson

    (University of Birmingham)

  • Adam Colyer

    (University of Birmingham)

  • Benjamin F. Cooper

    (University of Birmingham
    University of Oxford)

  • Jack A. Bryant

    (University of Birmingham)

  • Gareth W. Hughes

    (University of Birmingham)

  • Phillip J. Stansfeld

    (University of Warwick)

  • Julien R. C. Bergeron

    (School of Basic & Medical Biosciences, King’s College London)

  • Timothy J. Knowles

    (University of Birmingham)

Abstract

The Maintenance of Lipid Asymmetry (Mla) pathway is a multicomponent system found in all gram-negative bacteria that contributes to virulence, vesicle blebbing and preservation of the outer membrane barrier function. It acts by removing ectopic lipids from the outer leaflet of the outer membrane and returning them to the inner membrane through three proteinaceous assemblies: the MlaA-OmpC complex, situated within the outer membrane; the periplasmic phospholipid shuttle protein, MlaC; and the inner membrane ABC transporter complex, MlaFEDB, proposed to be the founding member of a structurally distinct ABC superfamily. While the function of each component is well established, how phospholipids are exchanged between components remains unknown. This stands as a major roadblock in our understanding of the function of the pathway, and in particular, the role of ATPase activity of MlaFEDB is not clear. Here, we report the structure of E. coli MlaC in complex with the MlaD hexamer in two distinct stoichiometries. Utilising in vivo complementation assays, an in vitro fluorescence-based transport assay, and molecular dynamics simulations, we confirm key residues, identifying the MlaD β6-β7 loop as essential for MlaCD function. We also provide evidence that phospholipids pass between the C-terminal helices of the MlaD hexamer to reach the central pore, providing insight into the trajectory of GPL transfer between MlaC and MlaD.

Suggested Citation

  • Peter Wotherspoon & Hannah Johnston & David J. Hardy & Rachel Holyfield & Soi Bui & Giedrė Ratkevičiūtė & Pooja Sridhar & Jonathan Colburn & Charlotte B. Wilson & Adam Colyer & Benjamin F. Cooper & Ja, 2024. "Structure of the MlaC-MlaD complex reveals molecular basis of periplasmic phospholipid transport," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-50615-3
    DOI: 10.1038/s41467-024-50615-3
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    References listed on IDEAS

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    1. Kathryn Tunyasuvunakool & Jonas Adler & Zachary Wu & Tim Green & Michal Zielinski & Augustin Žídek & Alex Bridgland & Andrew Cowie & Clemens Meyer & Agata Laydon & Sameer Velankar & Gerard J. Kleywegt, 2021. "Highly accurate protein structure prediction for the human proteome," Nature, Nature, vol. 596(7873), pages 590-596, August.
    2. John Jumper & Richard Evans & Alexander Pritzel & Tim Green & Michael Figurnov & Olaf Ronneberger & Kathryn Tunyasuvunakool & Russ Bates & Augustin Žídek & Anna Potapenko & Alex Bridgland & Clemens Me, 2021. "Highly accurate protein structure prediction with AlphaFold," Nature, Nature, vol. 596(7873), pages 583-589, August.
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