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Lysosomal integral membrane protein-2 as a phospholipid receptor revealed by biophysical and cellular studies

Author

Listed:
  • Karen S. Conrad

    (Medicinal Sciences, Pfizer Worldwide R&D)

  • Ting-Wen Cheng

    (Neuroscience Research Unit, Pfizer Worldwide R&D)

  • Daniel Ysselstein

    (Department of Neurology, Northwestern University Feinberg School of Medicine)

  • Saskia Heybrock

    (Biochemical Institute, Christian-Albrechts University Kiel)

  • Lise R. Hoth

    (Medicinal Sciences, Pfizer Worldwide R&D)

  • Boris A. Chrunyk

    (Medicinal Sciences, Pfizer Worldwide R&D)

  • Christopher W. am Ende

    (Medicinal Sciences, Pfizer Worldwide R&D)

  • Dimitri Krainc

    (Department of Neurology, Northwestern University Feinberg School of Medicine)

  • Michael Schwake

    (Department of Neurology, Northwestern University Feinberg School of Medicine)

  • Paul Saftig

    (Biochemical Institute, Christian-Albrechts University Kiel)

  • Shenping Liu

    (Medicinal Sciences, Pfizer Worldwide R&D)

  • Xiayang Qiu

    (Medicinal Sciences, Pfizer Worldwide R&D)

  • Michael D. Ehlers

    (Neuroscience Research Unit, Pfizer Worldwide R&D
    Biogen)

Abstract

Lysosomal integral membrane protein-2 (LIMP-2/SCARB2) contributes to endosomal and lysosomal function. LIMP-2 deficiency is associated with neurological abnormalities and kidney failure and, as an acid glucocerebrosidase receptor, impacts Gaucher and Parkinson’s diseases. Here we report a crystal structure of a LIMP-2 luminal domain dimer with bound cholesterol and phosphatidylcholine. Binding of these lipids alters LIMP-2 from functioning as a glucocerebrosidase-binding monomer toward a dimeric state that preferentially binds anionic phosphatidylserine over neutral phosphatidylcholine. In cellular uptake experiments, LIMP-2 facilitates transport of phospholipids into murine fibroblasts, with a strong substrate preference for phosphatidylserine. Taken together, these biophysical and cellular studies define the structural basis and functional importance of a form of LIMP-2 for lipid trafficking. We propose a model whereby switching between monomeric and dimeric forms allows LIMP-2 to engage distinct binding partners, a mechanism that may be shared by SR-BI and CD36, scavenger receptor proteins highly homologous to LIMP-2.

Suggested Citation

  • Karen S. Conrad & Ting-Wen Cheng & Daniel Ysselstein & Saskia Heybrock & Lise R. Hoth & Boris A. Chrunyk & Christopher W. am Ende & Dimitri Krainc & Michael Schwake & Paul Saftig & Shenping Liu & Xiay, 2017. "Lysosomal integral membrane protein-2 as a phospholipid receptor revealed by biophysical and cellular studies," Nature Communications, Nature, vol. 8(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-02044-8
    DOI: 10.1038/s41467-017-02044-8
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