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An asymmetric nautilus-like HflK/C assembly controls FtsH proteolysis of membrane proteins.


ABSTRACT: FtsH, a AAA protease, associates with HflK/C subunits to form a megadalton complex that spans the inner membrane and extends into the periplasm of E. coli. How this complex and homologous assemblies in eukaryotic organelles recruit, extract, and degrade membrane-embedded substrates is unclear. Following overproduction of protein components, recent cryo-EM structures reveal symmetric HflK/C cages surrounding FtsH in a manner proposed to inhibit degradation of membrane-embedded substrates. Here, we present structures of native complexes in which HflK/C instead forms an asymmetric nautilus-like assembly with an entryway for membrane-embedded substrates to reach and be engaged by FtsH. Consistent with this nautilus-like structure, proteomic assays suggest that HflK/C enhances FtsH degradation of certain membrane-embedded substrates. The membrane curvature in our FtsH•HflK/C complexes is opposite that of surrounding membrane regions, a property that correlates with lipid-scramblase activity and possibly with FtsH's function in the degradation of membrane-embedded proteins.

SUBMITTER: Ghanbarpour A 

PROVIDER: S-EPMC11326279 | biostudies-literature | 2024 Aug

REPOSITORIES: biostudies-literature

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An asymmetric nautilus-like HflK/C assembly controls FtsH proteolysis of membrane proteins.

Ghanbarpour Alireza A   Telusma Bertina B   Powell Barrett M BM   Zhang Jia Jia JJ   Bolstad Isabella I   Vargas Carolyn C   Keller Sandro S   Baker Tania T   Sauer Robert T RT   Davis Joseph H JH  

bioRxiv : the preprint server for biology 20240810


FtsH, a AAA protease, associates with HflK/C subunits to form a megadalton complex that spans the inner membrane and extends into the periplasm of <i>E. coli</i>. How this complex and homologous assemblies in eukaryotic organelles recruit, extract, and degrade membrane-embedded substrates is unclear. Following overproduction of protein components, recent cryo-EM structures reveal symmetric HflK/C cages surrounding FtsH in a manner proposed to inhibit degradation of membrane-embedded substrates.  ...[more]

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