PEX5, the Shuttling Import Receptor for Peroxisomal Matrix Proteins, Is a Redox-Sensitive Protein

Peroxisome maintenance depends on the import of nuclear-encoded proteins from the cytosol. The vast majority of these proteins is destined for the peroxisomal lumen and contains a C-terminal peroxisomal targeting signal, called PTS1. This targeting signal is recognized in the cytosol by the receptor PEX5. After docking at the peroxisomal membrane and release of the cargo into the organelle matrix, PEX5 is recycled to the cytosol through a process requiring monoubiquitination of an N-terminal, cytosolically exposed cysteine residue (Cys11 in the human protein). At present, the reason why a cysteine, and not a lysine residue, is the target of ubiquitination remains unclear. Here, we provide evidence that PTS1 protein import into human fibr oblasts is a redox-sensitive process. We also demonstrate that Cys11 in human PEX5 functions as a redox switch that regulates PEX5 activity in response to intracellular oxidative stress. Finally, we show that exposure of human PEX5 to oxidized glutathione results in a ubiquitination-deficient PEX5 molecule, and that substitution of Cys11 by a lysine can counteract this effect. In summary, these findings reveal that the activity of PEX5, and hence PTS1 import, is controlled by the redox state of the cytosol. The potential physiological implications of these findings are discussed.The authors are grateful to Dr. Ann Moser (Baltimore, USA) for the primary PEX5 null human fibroblasts. This work was supported bygrants from the ‘Fonds voor Wetenschappelijk Onderzoek-Vlaanderen (Onderzoeksproject G.0754.09)’ (to M. F. and P. P.V.V.), by the KU Leuven grants OT/09/045 (toM. F. and P. P. V. V.) and DBOF/10/059 (to P. P. V. V. and M. F.), and by FEDER funds through the Operational Competitiveness Programme – COMPETE and by National Funds through FCT – Fundac¸ão para a Ciência e a Tecnologia under the project FCOMP-01-0124-FEDER-019731 (PTDC/BIA-BCM/118577/2010) (to J. E. A.). M.N. is supported by a FLOF fellowship from the Department of Cellular and Molecular Medicine, KU Leuven. B.W. is a recipient of a DBOF fellowship (DBOF/10/059) from the KU Leuven. C. P. G. is supported by Fundac¸ão para a Ciência e a Tecnologia, Programa Operacional Potencial Humano do QREN, and Fundo Social Europeu

Peroxisome-mitochondria interplay and disease

Copyright © Springer International Publishing AG, Part of Springer Science+Business MediaPeroxisomes and mitochondria are ubiquitous, highly dynamic organelles with an oxidative type of metabolism in eukaryotic cells. Over the years, substantial evidence has been provided that peroxisomes and mitochondria exhibit a close functional interplay which impacts on human health and development. The so-called "peroxisome-mitochondria connection" includes metabolic cooperation in the degradation of fatty acids, a redox-sensitive relationship, an overlap in key components of the membrane fission machineries and cooperation in anti-viral signalling and defence. Furthermore, combined peroxisome-mitochondria disorders with defects in organelle division have been revealed. In this review, we present the latest progress in the emerging field of peroxisomal and mitochondrial interplay in mammals with a particular emphasis on cooperative fatty acid β-oxidation, redox interplay, organelle dynamics, cooperation in anti-viral signalling and the resulting implications for disease.BBSRCPortuguese Foundation for Science and Technology (FCT)FEDER/COMPETEMarie Curie