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A proteolytic AAA+ machine poised to unfold protein substrates

Alireza Ghanbarpour, Robert T. Sauer, Joseph H. Davis

2024Nature Communications18 citationsDOIOpen Access PDF

Abstract

AAA+ proteolytic machines unfold proteins before degrading them. Here, we present cryoEM structures of ClpXP-substrate complexes that reveal a postulated but heretofore unseen intermediate in substrate unfolding/degradation. A ClpX hexamer draws natively folded substrates tightly against its axial channel via interactions with a fused C-terminal degron tail and ClpX-RKH loops that flexibly conform to the globular substrate. The specific ClpX-substrate contacts observed vary depending on the substrate degron and affinity tags, helping to explain ClpXP’s ability to unfold/degrade a wide array of different cellular substrates. Some ClpX contacts with native substrates are enabled by upward movement of the seam subunit in the AAA+ spiral, a motion coupled to a rearrangement of contacts between the ClpX unfoldase and ClpP peptidase. Our structures additionally highlight ClpX’s ability to translocate a diverse array of substrate topologies, including the co-translocation of two polypeptide chains. AAA proteases must unfold substrates before degradation. Here the authors report cryo-EM structures to visualize how these machines achieve this by pulling the substrate tightly against their narrow axial channel and encircling the substrate’s folded domain using only the unfoldase’s flexible loops.

Topics & Concepts

Computational biologyChemistryComputer scienceCell biologyBiologyAdvanced Electron Microscopy Techniques and ApplicationsEnzyme Structure and FunctionEndoplasmic Reticulum Stress and Disease
A proteolytic AAA+ machine poised to unfold protein substrates | Litcius