iScience (Sep 2019)

Structural Basis of Mitochondrial Scaffolds by Prohibitin Complexes: Insight into a Role of the Coiled-Coil Region

  • Takahiro Yoshinaka,
  • Hidetaka Kosako,
  • Takuma Yoshizumi,
  • Ryo Furukawa,
  • Yu Hirano,
  • Osamu Kuge,
  • Taro Tamada,
  • Takumi Koshiba

Journal volume & issue
Vol. 19
pp. 1065 – 1078

Abstract

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Summary: The coiled-coil motif mediates subunit oligomerization and scaffolding and underlies several fundamental biologic processes. Prohibitins (PHBs), mitochondrial inner membrane proteins involved in mitochondrial homeostasis and signal transduction, are predicted to have a coiled-coil motif, but their structural features are poorly understood. Here we solved the crystal structure of the heptad repeat (HR) region of PHB2 at 1.7-Å resolution, showing that it assembles into a dimeric, antiparallel coiled-coil with a unique negatively charged area essential for the PHB interactome in mitochondria. Disruption of the HR coiled-coil abolishes well-ordered PHB complexes and the mitochondrial tubular networks accompanying PHB-dependent signaling. Using a proximity-dependent biotin identification (BioID) technique in live cells, we mapped a number of mitochondrial intermembrane space proteins whose association with PHB2 relies on the HR coiled-coil region. Elucidation of the PHB complex structure in mitochondria provides insight into essential PHB interactomes required for mitochondrial dynamics as well as signal transduction. : Molecular Biology; Cell Biology; Structural Biology Subject Areas: Molecular Biology, Cell Biology, Structural Biology