Cysteine-specific ubiquitination protects the peroxisomal import receptor Pex5p against proteasomal degradation.

Benjamin Schwartzkopff,Harald W Platta,Ralf Erdmann,Sohel Hasan,Wolfgang Girzalsky

doi:10.1042/bsr20150103

Benjamin Schwartzkopff, Harald W Platta + Show 3 more

Open Access

https://doi.org/10.1042/bsr20150103

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Journal: Bioscience reports	Publication Date: Jun 1, 2015
Citations: 27	License type: CC BY 3.0

Affiliation: Ruhr University Bochum

Abstract

Peroxisomal matrix protein import is mediated by dynamic import receptors, which cycle between the peroxisomal membrane and the cytosol. Proteins with a type1 peroxisomal targeting signal (PTS1) are bound by the import receptor Pex5p in the cytosol and guided to the peroxisomal membrane. After cargo translocation into the peroxisomal matrix, the receptor is released from the membrane back to the cytosol in an ATP-dependent manner by the AAA-type ATPases Pex1p and Pex6p. These mechanoenzymes recognize ubiquitinated Pex5p-species as substrates for membrane extraction. The PTS1-receptor is either polyubiquitinated via peptide bonds at two certain lysines and results in proteasomal degradation or monoubiquitinated via a thioester-bond at a conserved cysteine, which enables the recycling of Pex5p and further rounds of matrix protein import. To investigate the physiological relevance of the conserved N-terminal cysteine of Pex5p, the known target amino acids for ubiquitination were substituted by site-directed mutagenesis. In contrast with Pex5pC6A, Pex5pC6K turned out to be functional in PTS1 import and utilization of oleic acid, independent of the lysines at position 18 and 24. In contrast with wild-type Pex5p, Pex5pC6K displays an ubiquitination pattern, similar to the polyubiquitination pattern of Pex4p or Pex22p mutant strains. Moreover, Pex5pC6K displays a significantly reduced steady-state level when the deubiquitinating enzyme Ubp15p is missing. Thus, our results indicate that not the cysteine residue but the position of ubiquitination is important for Pex5p function. The presence of the cysteine prevents polyubiquitination and rapid degradation of Pex5p.

Highlights

Peroxisomes are ubiquitous organelles, which carry out a wide variety of metabolic processes in eukaryotic organisms [1]
We analysed the function of the conserved monoubiquitination site of the PTS1-import receptor Pex5p in S. cerevisiae
Work in yeasts and mammalian cells demonstrated that this cysteine is modified with an ubiquitin-moiety via an uncommon thioester-bond [16,38,40] and that this modification is essential for the recycling of Pex5p and for peroxisomal matrix protein import in general [12,14,38]

Summary

INTRODUCTION

Peroxisomes are ubiquitous organelles, which carry out a wide variety of metabolic processes in eukaryotic organisms [1]. The dysfunction of these organelles in humans results in severe peroxisomal disorders [2,3,4] The functionality of these organelles is governed by dynamically operating import machineries for peroxisomal membrane and matrix proteins [1,5]. Peroxisomal matrix proteins are without exception nuclear encoded, synthesized on free ribosomes and subsequently recognized in the cytosol by specific soluble receptors [6,7]. To this end, cargo proteins are equipped with a targeting sequence, either a C-terminal PTS1 (peroxisomal targeting signal type 1) or an N-terminal PTS2, which are recognized and bound by the import receptor Pex5p or Pex7p respectively [8].

Schwartzkopff and others

RESULTS

DISCUSSION