Overproduction of Pex5p Stimulates Import of Alcohol Oxidase and Dihydroxyacetone Synthase in a Hansenula polymorpha pex14Null Mutant

Florian A Salomons,Jan A K.W Kiel,Klaas Nico Faber,Marten Veenhuis,Ida J Van Der Klei

doi:10.1074/jbc.275.17.12603

Florian A Salomons, Jan A K.W Kiel + Show 3 more

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https://doi.org/10.1074/jbc.275.17.12603

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Journal: Journal of Biological Chemistry	Publication Date: Apr 1, 2000
Citations: 82	License type: cc-by

Affiliation: University of Groningen

Abstract

Hansenula polymorpha Deltapex14 cells are affected in peroxisomal matrix protein import and lack normal peroxisomes. Instead, they contain peroxisomal membrane remnants, which harbor a very small amount of the major peroxisomal matrix enzymes alcohol oxidase (AO) and dihydroxyacetone synthase (DHAS). The bulk of these proteins is, however, mislocated in the cytosol. Here, we show that in Deltapex14 cells overproduction of the PTS1 receptor, Pex5p, leads to enhanced import of the PTS1 proteins AO and DHAS but not of the PTS2 protein amine oxidase. The import of the PTS1 protein catalase (CAT) was not stimulated by Pex5p overproduction. The difference in import behavior of AO and CAT was not related to their PTS1, since green fluorescent protein fused to the PTS1 of either AO or CAT were both not imported in Deltapex14 cells overproducing Pex5p. When produced in a wild type control strain, both proteins were normally imported into peroxisomes. In Deltapex14 cells overproducing Pex5p, Pex5p had a dual location and was localized in the cytosol and bound to the outer surface of the peroxisomal membrane. Our results indicate that binding of Pex5p to the peroxisomal membrane and import of certain PTS1 proteins can proceed in the absence of Pex14p.

Highlights

Most organellar proteins in eukaryotic cells are synthesized on free or membrane-bound cytosolic ribosomes and sorted to their final destination by unique targeting signals
Peroxisome Formation Is Restored in ⌬pex14 Cells Overproducing Pex5p—Previously, we observed that overexpression of PEX5 restored the formation of peroxisomes in H. polymorpha ⌬pex4 cells [29]
To determine whether this phenomenon occurs in other H. polymorpha pex mutants, a PEX5 overexpression cassette (PAOXPEX5) was integrated in two or multiple [3,4,5] copies into the genomes of ⌬pex1, ⌬pex3, ⌬pex6, pex10Ϫ1, and ⌬pex14 (Table I)

Summary

Introduction

Most organellar proteins in eukaryotic cells are synthesized on free or membrane-bound cytosolic ribosomes and sorted to their final destination by unique targeting signals. Our current working model of PTS1 protein import in H. polymorpha includes that in the Pex5p-cargo complex is translocated across the peroxisomal membrane into the organellar matrix, followed by dissociation and subsequent export of Pex5p from the matrix back to the cytosol [4]. This model is based on the finding that in this organism Pex5p is present both inside peroxisomes and the cytosol [17]. This was evident from the finding that overexpression of PEX5 suppresses the PTS1 protein import defect in H. poly-

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