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