Abstract
In mammals, two isoforms of the peroxisome targeting signal (PTS) type 1 receptor Pex5p, i.e. Pex5pS and Pex5pL with an internal 37-amino acid insertion, have previously been identified. Expression of either type of Pex5p complements the impaired PTS1 import in Chinese hamster ovary pex5 mutants, but only Pex5pL can rescue the PTS2 import defect noted in a subgroup of pex5 mutants such as ZP105. In this work, we found that Pex5pL directly interacts with the PTS2 receptor Pex7p, carrying its cargo PTS2 protein in the cytosol. Pex5pL, but not Pex5pS, mediated the binding of PTS2 protein to Pex14p by translocating Pex7p, demonstrating that Pex5pL plays a pivotal role in peroxisomal PTS2 import. Pex5p was localized mostly in the cytosol in wild-type CHO-K1 and Pex14p-deficient mutant cells, whereas it accumulated in the peroxisomal remnants in cell mutants defective in Pex13p or the RING family peroxins such as Pex2p and Pex12p. Furthermore, overexpression of Pex14p, but not Pex10p, Pex12p, or Pex13p, caused accumulation of Pex5p in peroxisomal membranes, with concomitant interference with PTS1 and PTS2 import. Therefore, Pex5p carrying the cargoes most likely docks with the initial site (Pex14p) in a putative import machinery, subsequently translocating to other components such as Pex13p, Pex2p, Pex10p, and Pex12p.
Highlights
In mammals, two isoforms of the peroxisome targeting signal (PTS) type 1 receptor Pex5p, i.e. Pex5pS and Pex5pL with an internal 37-amino acid insertion, have previously been identified
Expression of either type of Pex5p complements the impaired PTS1 import in Chinese hamster ovary pex5 mutants, but only Pex5pL can rescue the PTS2 import defect noted in a subgroup of pex5 mutants such as ZP105
It is likely that Pex5p functions as a shuttling PTS1 receptor or in a catalytic manner, even under the conditions in which peroxisomal matrix proteins are massively induced
Summary
Two isoforms of the peroxisome targeting signal (PTS) type 1 receptor Pex5p, i.e. Pex5pS and Pex5pL with an internal 37-amino acid insertion, have previously been identified. Expression of either type of Pex5p complements the impaired PTS1 import in Chinese hamster ovary pex mutants, but only Pex5pL can rescue the PTS2 import defect noted in a subgroup of pex mutants such as ZP105. To search for a clue to the mechanisms involved in protein import to peroxisomes, we earlier isolated two phenotypically distinct groups of PEX5-defective CG2 CHO cell mutants [11]. One group of the pex mutants, such as ZP105, showed an import defect of both PTS1 and PTS2 proteins, whereas another group of pex mutants represented by ZP139 showed impaired transport of PTS1 proteins, but not PTS2 proteins Fibroblasts with such distinct phenotypes from CG2 patients were identified [9, 12]. Pex14p and Pex13p are likely to play an important role in the import of matrix proteins, possibly as components of “import machinery.”
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