A novel PEX14/PEX5 interface links peroxisomal protein import and receptor recycling

Author:

Emmanouilidis Leonidas,Sehr Jessica,Reglinski Katharina,Gaussmann Stefan,Goricanec David,Kordon Jonathan,Menezes Filipe,Waithe DominicORCID,Hublitz Philip,Bader Verian,Winklhofer Konstanze F.,Jung Martin,Schliebs Wolfgang,Eggeling Christian,Erdmann Ralf,Sattler MichaelORCID

Abstract

AbstractNewly synthesized peroxisomal proteins are recognized in the cytosol by the cycling receptor PEX5 and directed to a docking complex comprising PEX14 and PEX13 at the peroxisomal membrane. After cargo translocation, the unloaded PEX5 is recycled in an ATP-dependent manner. Receptor docking involves the WxxxF-motifs in the N-terminal domain (NTD) of PEX5 that are recognized by the N-terminal domain of PEX14. Here, we combine biochemical methods and NMR spectroscopy to identify a novel binding interface between human PEX5 and PEX14. The interaction involves the PEX5 C-terminal cargo-binding TPR domain and a conserved IPSWQI peptide motif in the C-terminal intrinsically disordered region of PEX14. The three-dimensional structure of the PEX14 IPSWQI peptide bound the PEX5 TPR domain, shows the PEX14 interaction is non-overlapping with PTS1 binding to the TPR domain. Notably, PEX14 IPSWQI motif binding to a hinge region in the TPR domain shows a more open supercoil of the TPR fold that resembles the apo conformation in the absence of PTS1 peptide. Mutation of binding site residues in PEX5 or PEX14 leads to a partial protein import defect and decrease of the steady-state-concentration of PEX5. This resembles the mutant phenotype of cells affected in receptor recycling, suggesting a role in this process.

Publisher

Cold Spring Harbor Laboratory

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