Abstract
Protein import into peroxisomes relies on the import receptor Pex5, which recognizes proteins with a peroxisomal targeting signal 1 (PTS1) in the cytosol and directs them to a docking complex at the peroxisomal membrane. Receptor-cargo docking occurs at the membrane-associated protein Pex14. In human cells, this interaction is mediated by seven conserved diaromatic penta-peptide motifs (WXXX(F/Y) motifs) in the N-terminal half of Pex5 and the N-terminal domain of Pex14. A systematic screening of a Pex5 peptide library by ligand blot analysis revealed a novel Pex5-Pex14 interaction site of Pex5. The novel motif composes the sequence LVAEF with the evolutionarily conserved consensus sequence LVXEF. Replacement of the amino acid LVAEF sequence by alanines strongly affects matrix protein import into peroxisomes in vivo. The NMR structure of a complex of Pex5-(57-71) with the Pex14-N-terminal domain showed that the novel motif binds in a similar α-helical orientation as the WXXX(F/Y) motif but that the tryptophan pocket is now occupied by a leucine residue. Surface plasmon resonance analyses revealed 33 times faster dissociation rates for the LVXEF ligand when compared with a WXXX(F/Y) motif. Surprisingly, substitution of the novel motif with the higher affinity WXXX(F/Y) motif impairs protein import into peroxisomes. These data indicate that the distinct kinetic properties of the novel Pex14-binding site in Pex5 are important for processing of the peroxisomal targeting signal 1 receptor at the peroxisomal membrane. The novel Pex14-binding site may represent the initial tethering site of Pex5 from which the cargo-loaded receptor is further processed in a sequential manner.
Highlights
Peroxisome import receptor Pex[5] harbors multiple WXXX(F/Y) sequences for Pex[14] binding
The membrane array consisted of synthetic 15-mer peptides that sequentially overlap by 13 residues and represented Pex5-(1– 343) composing the entire sequence of the Pex14-interacting region (11)
The cellulose-bound peptides were incubated with His-tagged Pex14-N-terminal domain (NTD), and bound protein was visualized by immunodetection with anti-His antibodies
Summary
Peroxisome import receptor Pex[5] harbors multiple WXXX(F/Y) sequences for Pex[14] binding. Receptor-cargo docking occurs at the membrane-associated protein Pex[14] In human cells, this interaction is mediated by seven conserved diaromatic penta-peptide motifs (WXXX(F/Y) motifs) in the N-terminal half of Pex[5] and the N-terminal domain of Pex[14]. It was shown that each of the seven WXXX(F/Y) motifs of the human PTS1 receptor can interact with the highly conserved N-terminal domain (NTD) of Pex[14] with equilibrium dissociation constants in the nanomolar range (12, 13). Human Pex[19], which is supposed to act as an import receptor/chaperone for peroxisomal membrane proteins, binds competitively to the same surface in Pex14-NTD via an amphipathic helix-forming pentapeptide sequence (16). Our data suggest that the novel Pex14-binding site represents the initial tethering site of Pex[5] from which the cargo-loaded receptor is further processed in a sequential manner
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