Membrane Association of the Cycling Peroxisome Import Receptor Pex5p

Daniela Kerssen,Ralf Erdmann,Wolfgang Schliebs,Ben de Kruijff,Eva Hambruch,Wibke Klaas,Harald W. Platta,Wolf-H. Kunau

doi:10.1074/jbc.m509257200

Daniela Kerssen, Ralf Erdmann + Show 6 more

Open Access

https://doi.org/10.1074/jbc.m509257200

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Abstract

Peroxisomal proteins carrying a peroxisome targeting signal type 1 (PTS1) are recognized in the cytosol by the cycling import receptor Pex5p. The receptor-cargo complex docks at the peroxisomal membrane where it associates with multimeric protein complexes, referred to as the docking and RING finger complexes. Here we have identified regions within the Saccharomyces cerevisiae Pex5p sequence that interconnect the receptor-cargo complex with the docking complex. Site-directed mutagenesis of the conserved tryptophan residue within a reverse WXXXF motif abolished two-hybrid binding with the N-terminal half of Pex14p. In combination with an additional mutation introduced into the Pex13p-binding site, we generated a Pex5p mutant defective in a stable association not only with the docking complex but also with the RING finger peroxins at the membrane. Surprisingly, PTS1 proteins are still imported into peroxisomes in these mutant cells. Because these mutations had no significant effect on the membrane binding properties of Pex5p, we examined yeast and human Pex5p for intrinsic lipid binding activity. In vitro analyses demonstrated that both proteins have the potential to insert spontaneously into phospholipid membranes. Altogether, these data strongly suggest that a translocation-competent state of the PTS1 receptor enters the membrane via protein-lipid interactions before it tightly associates with other peroxins.

Highlights

Current evidence favors a cycling receptor model for matrix protein import (6 – 8)
Identification of the Pex5p-binding Site for the Conserved N-terminal Domain of Pex14p in S. cerevisiae— accumulated evidence demonstrates that the peroxisome targeting signal type 1 (PTS1) receptor Pex5p binds to several peroxins organized in multisubunit complexes at the peroxisomal membrane [2], studies in a PEX8 deletion strain of S. cerevisiae strongly suggested that the initial association occurs with the docking subcomplex consisting of Pex13p, Pex14p, and Pex17p [29]
Previous studies in higher eukaryotes demonstrated that the conserved N-terminal region of the membrane-associated Pex14p, referred to as Pex14p-N, interacts with the PTS1 receptor Pex5p via di-aromatic pentapeptide repeats [31, 33,34,35]

Summary

EXPERIMENTAL PROCEDURES

Yeast Strains, Media, and Growth Conditions—Yeast strains used in this study are derivatives of S. cerevisiae UTL-7A if not stated otherwise (Table 1). Strains expressing proteins fused to tobacco etch virus (tobacco etch virus-protease cleavage site)protein A instead of wild-type Pex5p were generated by genomic integration into the PEX5 locus This was achieved by transforming haploid yeast cells with the PCR products according to Knop et al [36]. The amplification product was digested with SalI and BglII and ligated into a SalI/BglII-digested pPC86 vector resulting in pPC86-PEX5-(aa 1–245). For the mutation Pex5p(W120A), PCR products were amplified by primer pairs Ku875/Ku856 and Ku855/ Ku888 using genomic DNA of wild-type strain as template. To introduce the single mutation Pex5p(Trp-204) the same cloning procedure was carried out as described above but using genomic DNA of wildtype strain as template resulting in pPC86-PEX5(W204A)

Oligonucleotides used

RESULTS

DISCUSSION