Redox-regulated Cargo Binding and Release by the Peroxisomal Targeting Signal Receptor, Pex5

Changle Ma,Danielle Hagstrom,Soumi Guha Polley,Suresh Subramani

doi:10.1074/jbc.m113.492694

Changle Ma, Danielle Hagstrom + Show 2 more

Open Access

https://doi.org/10.1074/jbc.m113.492694

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Abstract

In its role as a mobile receptor for peroxisomal matrix cargo containing a peroxisomal targeting signal called PTS1, the protein Pex5 shuttles between the cytosol and the peroxisome lumen. Pex5 binds PTS1 proteins in the cytosol via its C-terminal tetratricopeptide domains and delivers them to the peroxisome lumen, where the receptor·cargo complex dissociates. The cargo-free receptor is exported to the cytosol for another round of import. How cargo release and receptor recycling are regulated is poorly understood. We found that Pex5 functions as a dimer/oligomer and that its protein interactions with itself (homo-oligomeric) and with Pex8 (hetero-oligomeric) control the binding and release of cargo proteins. These interactions are controlled by a redox-sensitive amino acid, cysteine 10 of Pex5, which is essential for the formation of disulfide bond-linked Pex5 forms, for high affinity cargo binding, and for receptor recycling. Disulfide bond-linked Pex5 showed the highest affinity for PTS1 cargo. Upon reduction of the disulfide bond by dithiothreitol, Pex5 transitioned to a noncovalent dimer, concomitant with the partial release of PTS1 cargo. Additionally, dissipation of the redox balance between the cytosol and the peroxisome lumen caused an import defect. A hetero-oligomeric interaction between the N-terminal domain (amino acids 1-110) of Pex5 and a conserved motif at the C terminus of Pex8 further facilitates cargo release, but only under reducing conditions. This interaction is also important for the release of PTS1 proteins. We suggest a redox-regulated model for Pex5 function during the peroxisomal matrix protein import cycle.

Highlights

Pex5 transports peroxisomal targeting signal 1 (PTS1) proteins to peroxisomes, releases them there, and returns to the cytosol
Pichia stipitis (Ps). pastoris Pex5 Is Linked by Disulfide Bonds—To investigate whether Pex5 undergoes an oxidative modification, PpPex5 was TCA-precipitated from cells grown in methanol medium and analyzed using reducing and nonreducing SDS-PAGE
The high molecular mass Pex5 species visible by nonreducing SDS-PAGE were sensitive to 2 mM DTT and 2 mM GSH, indicating they are linked through disulfide bonds (Fig. 1B)

Summary

Background

Pex transports PTS1 proteins to peroxisomes, releases them there, and returns to the cytosol. A hetero-oligomeric interaction between the N-terminal domain (amino acids 1–110) of Pex and a conserved motif at the C terminus of Pex further facilitates cargo release, but only under reducing conditions. This interaction is important for the release of PTS1 proteins. We identified Cys-10 in P. pastoris Pex as a redox-sensitive amino acid, which regulates the oligomeric state of Pex, cargo binding, cargo release, and receptor recycling. We have identified the domains of Pex and Pex involved in this interaction, and we suggest a mechanistic model for Pex function during the import cycle for PTS1-containing proteins into the peroxisome matrix

EXPERIMENTAL PROCEDURES

RESULTS

DISCUSSION