Regulation of mitochondrial fusion by the F-box protein Mdm30 involves proteasome-independent turnover of Fzo1

doi:10.1083/jcb.200512079

Published online 30 May 2006. doi:10.1083/jcb.200512079
The Rockefeller University Press, 0021-9525 $8.00
JCB, Volume 173, Number 5, 645-650

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Regulation of mitochondrial fusion by the F-box protein Mdm30 involves proteasome-independent turnover of Fzo1

Mafalda Escobar-Henriques¹, Benedikt Westermann², and Thomas Langer¹

¹ Institute of Genetics and Center for Molecular Medicine, University of Cologne, D-50923 Cologne, Germany
² Institute of Cell Biology, University of Bayreuth, D-95447 Bayreuth, Germany

Correspondence to Thomas Langer: Thomas.Langer{at}uni-koeln.de

Mitochondrial morphology depends on balanced fusion and fissionevents. A central component of the mitochondrial fusion apparatusis the conserved GTPase Fzo1 in the outer membrane of mitochondria.Mdm30, an F-box protein required for mitochondrial fusion invegetatively growing cells, affects the cellular Fzo1 concentrationin an unknown manner. We demonstrate that mitochondrial fusionrequires a tight control of Fzo1 levels, which is ensured byFzo1 turnover. Mdm30 binds to Fzo1 and, dependent on its F-box,mediates proteolysis of Fzo1. Unexpectedly, degradation occursalong a novel proteolytic pathway not involving ubiquitylation,Skp1–Cdc53–F-box (SCF) E3 ubiquitin ligase complexes,or 26S proteasomes, indicating a novel function of an F-boxprotein. This contrasts to the ubiquitin- and proteasome-dependentturnover of Fzo1 in ${alpha}$ -factor–arrested yeast cells. Ourresults therefore reveal not only a critical role of Fzo1 degradationfor mitochondrial fusion in vegetatively growing cells but alsothe existence of two distinct proteolytic pathways for the turnoverof mitochondrial outer membrane proteins.

Abbreviations used in this paper: CCCP, carbonylcyanide m-chlorophenylhydrazone;mtGFP, mitochondria-targeted GFP; SCF, Skp1–Cdc53–F-box;UPS, ubiquitin–proteasome system.

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