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A structural vista of phosducin-like PhLP2A-chaperonin TRiC cooperation during the ATP-driven folding cycle

Junsun Park, Hyunmin Kim, Daniel Gestaut, Seyeon Lim, Kwadwo A. Opoku-Nsiah, Alexander Leitner, Judith Frydman () and Soung-Hun Roh ()
Additional contact information
Junsun Park: Seoul National University
Hyunmin Kim: Seoul National University
Daniel Gestaut: Stanford University
Seyeon Lim: Seoul National University
Kwadwo A. Opoku-Nsiah: Stanford University
Alexander Leitner: ETH Zurich
Judith Frydman: Stanford University
Soung-Hun Roh: Seoul National University

Nature Communications, 2024, vol. 15, issue 1, 1-19

Abstract: Abstract Proper cellular proteostasis, essential for viability, requires a network of chaperones and cochaperones. ATP-dependent chaperonin TRiC/CCT partners with cochaperones prefoldin (PFD) and phosducin-like proteins (PhLPs) to facilitate folding of essential eukaryotic proteins. Using cryoEM and biochemical analyses, we determine the ATP-driven cycle of TRiC-PFD-PhLP2A interaction. PhLP2A binds to open apo-TRiC through polyvalent domain-specific contacts with its chamber’s equatorial and apical regions. PhLP2A N-terminal H3-domain binding to subunits CCT3/4 apical domains displace PFD from TRiC. ATP-induced TRiC closure rearranges the contacts of PhLP2A domains within the closed chamber. In the presence of substrate, actin and PhLP2A segregate into opposing chambers, each binding to positively charged inner surface residues from CCT1/3/6/8. Notably, actin induces a conformational change in PhLP2A, causing its N-terminal helices to extend across the inter-ring interface to directly contact a hydrophobic groove in actin. Our findings reveal an ATP-driven PhLP2A structural rearrangement cycle within the TRiC chamber to facilitate folding.

Date: 2024
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Persistent link: https://EconPapers.repec.org/RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-45242-x

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DOI: 10.1038/s41467-024-45242-x

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