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An atomic structure of human γ-secretase

Author

Listed:
  • Xiao-chen Bai

    (MRC Laboratory of Molecular Biology, Cambridge Biomedical Campus)

  • Chuangye Yan

    (Ministry of Education Key Laboratory of Protein Science, Tsinghua-Peking Joint Center for Life Sciences, Center for Structural Biology, School of Life Sciences, Tsinghua University)

  • Guanghui Yang

    (Ministry of Education Key Laboratory of Protein Science, Tsinghua-Peking Joint Center for Life Sciences, Center for Structural Biology, School of Life Sciences, Tsinghua University)

  • Peilong Lu

    (Ministry of Education Key Laboratory of Protein Science, Tsinghua-Peking Joint Center for Life Sciences, Center for Structural Biology, School of Life Sciences, Tsinghua University)

  • Dan Ma

    (Ministry of Education Key Laboratory of Protein Science, Tsinghua-Peking Joint Center for Life Sciences, Center for Structural Biology, School of Life Sciences, Tsinghua University)

  • Linfeng Sun

    (Ministry of Education Key Laboratory of Protein Science, Tsinghua-Peking Joint Center for Life Sciences, Center for Structural Biology, School of Life Sciences, Tsinghua University)

  • Rui Zhou

    (Ministry of Education Key Laboratory of Protein Science, Tsinghua-Peking Joint Center for Life Sciences, Center for Structural Biology, School of Life Sciences, Tsinghua University)

  • Sjors H. W. Scheres

    (MRC Laboratory of Molecular Biology, Cambridge Biomedical Campus)

  • Yigong Shi

    (Ministry of Education Key Laboratory of Protein Science, Tsinghua-Peking Joint Center for Life Sciences, Center for Structural Biology, School of Life Sciences, Tsinghua University)

Abstract

Dysfunction of the intramembrane protease γ-secretase is thought to cause Alzheimer’s disease, with most mutations derived from Alzheimer’s disease mapping to the catalytic subunit presenilin 1 (PS1). Here we report an atomic structure of human γ-secretase at 3.4 Å resolution, determined by single-particle cryo-electron microscopy. Mutations derived from Alzheimer’s disease affect residues at two hotspots in PS1, each located at the centre of a distinct four transmembrane segment (TM) bundle. TM2 and, to a lesser extent, TM6 exhibit considerable flexibility, yielding a plastic active site and adaptable surrounding elements. The active site of PS1 is accessible from the convex side of the TM horseshoe, suggesting considerable conformational changes in nicastrin extracellular domain after substrate recruitment. Component protein APH-1 serves as a scaffold, anchoring the lone transmembrane helix from nicastrin and supporting the flexible conformation of PS1. Ordered phospholipids stabilize the complex inside the membrane. Our structure serves as a molecular basis for mechanistic understanding of γ-secretase function.

Suggested Citation

  • Xiao-chen Bai & Chuangye Yan & Guanghui Yang & Peilong Lu & Dan Ma & Linfeng Sun & Rui Zhou & Sjors H. W. Scheres & Yigong Shi, 2015. "An atomic structure of human γ-secretase," Nature, Nature, vol. 525(7568), pages 212-217, September.
    • Handle: RePEc:nat:nature:v:525:y:2015:i:7568:d:10.1038_nature14892
    DOI: 10.1038/nature14892
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    Cited by:

    1. Kate MacKrill & Connor Silvester & James W. Pennebaker & Keith J. Petrie, 2021. "What makes an idea worth spreading? Language markers of popularity in TED talks by academics and other speakers," Journal of the Association for Information Science & Technology, Association for Information Science & Technology, vol. 72(8), pages 1028-1038, August.

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