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Structural mechanism for sterol sensing and transport by OSBP-related proteins

Author

Listed:
  • Young Jun Im

    (Laboratory of Molecular Biology
    Gwangju Institute of Science and Technology)

  • Sumana Raychaudhuri

    (National Institutes of Health, US Department of Health and Human Services)

  • William A. Prinz

    (National Institutes of Health, US Department of Health and Human Services)

  • James H. Hurley

    (Laboratory of Molecular Biology)

Abstract

The oxysterol-binding-protein (OSBP)-related proteins (ORPs) are conserved from yeast to humans1,2, and are implicated in the regulation of sterol homeostasis3,4 and in signal transduction pathways5. Here we report the structure of the full-length yeast ORP Osh4 (also known as Kes1) at 1.5–1.9 Å resolution in complexes with ergosterol, cholesterol, and 7-, 20- and 25-hydroxycholesterol. We find that a single sterol molecule binds within a hydrophobic tunnel in a manner consistent with a transport function for ORPs. The entrance is blocked by a flexible amino-terminal lid and surrounded by basic residues that are critical for Osh4 function. The structure of the open state of a lid-truncated form of Osh4 was determined at 2.5 Å resolution. Structural analysis and limited proteolysis show that sterol binding closes the lid and stabilizes a conformation favouring transport across aqueous barriers and signal transmission. The structure of Osh4 in the absence of ligand exposes potential phospholipid-binding sites that are positioned for membrane docking and sterol exchange. On the basis of these observations, we propose a model in which sterol and membrane binding promote reciprocal conformational changes that facilitate a sterol transfer and signalling cycle.

Suggested Citation

  • Young Jun Im & Sumana Raychaudhuri & William A. Prinz & James H. Hurley, 2005. "Structural mechanism for sterol sensing and transport by OSBP-related proteins," Nature, Nature, vol. 437(7055), pages 154-158, September.
    • Handle: RePEc:nat:nature:v:437:y:2005:i:7055:d:10.1038_nature03923
    DOI: 10.1038/nature03923
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    Cited by:

    1. Benjamin T Miller & Rishi P Singh & Vinushka Schalk & Yuri Pevzner & Jingjun Sun & Carrie S Miller & Stefan Boresch & Toshiko Ichiye & Bernard R Brooks & H Lee Woodcock III, 2014. "Web-Based Computational Chemistry Education with CHARMMing I: Lessons and Tutorial," PLOS Computational Biology, Public Library of Science, vol. 10(7), pages 1-7, July.

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