TY - JOUR
T1 - CEP89 is required for mitochondrial metabolism and neuronal function in man and fly
AU - Van Bon, Bregje W.M.
AU - Oortveld, Merel A.W.
AU - Nijtmans, Leo G.
AU - Fenckova, Michaela
AU - Nijhof, Bonnie
AU - Besseling, Judith
AU - Vos, Melissa
AU - Kramer, Jamie M.
AU - de Leeuw, Nicole
AU - Castells-Nobau, Anna
AU - Asztalos, Lenke
AU - Viragh, Erika
AU - Ruiter, Mariken
AU - Hofmann, Falko
AU - Eshuis, Lillian
AU - Collavin, Licio
AU - Huynen, Martijn A.
AU - Asztalos, Zoltan
AU - Verstreken, Patrik
AU - Rodenburg, Richard J.
AU - Smeitink, Jan A.
AU - de Vries, Bert B.A.
AU - Schenck, Annette
N1 - Funding Information:
This work was supported by the Netherlands Organizations for Scientific Research/Health Research and Development (NWO/ ZonMW) (917-86-319 to B.B.A.d.V and 917-96-346 to A.S.); the AnEUploidy project (LSHG-CT-2006-37627 to B.v.B. and B.B.A.d.V.); the European Union under the 7th framework program (Gencodys HEALTH-F4-2010-241995 to Z.A., B.B.A.d.V. and A.S.); the Hungarian Scientific Research Fund (K-82090 to Z.A.); the Dutch Brain Foundation (B.B.A.d.V.); a predoctoral fellowship of the Institute for Science and Technology Vlaanderen (IWT) (to M.V.), a post-doctoral fellowship by the research fund KU Leuven (to M.V.), an European Research Council (ERC) Starting Grant (to P.V.), the Fund for Scientific Research Vlaanderen (FWO) (to P.V.), the research fund KU Leuven (to P.V.), the Interuniversity Attraction Pole (IAP) programme from the Belgian Science Policy Office (BELSPO) (to P.V.), the Flemish Institute for Biotechnology (VIB) (to P.V.) and the Jérôme Lejeune foundation (A.S.).
PY - 2013/8
Y1 - 2013/8
N2 - It is estimated that the human mitochondrial proteome consists of 1000-1500 distinct proteins. The majority of these support the various biochemical pathways that are active in these organelles. Individuals with an oxidative phosphorylation disorder of unknown cause provide a unique opportunity to identify novel genes implicated in mitochondrial biology. We identified a homozygous deletion of CEP89 in a patient with isolated complex IV deficiency, intellectual disability and multisystemic problems. CEP89 is a ubiquitously expressed and highly conserved gene of unknown function. Immunocytochemistry and cellular fractionation experiments showed that CEP89 is present both in the cytosol and in the mitochondrial intermembrane space. Furthermore, we ascertained in vitro that downregulation of CEP89 resulted in a severe decrease in complex IV in-gel activity and altered mobility, suggesting that the complex is aberrantly formed. Two-dimensional BN-SDS gel analysis revealed that CEP89 associates with a high-molecular weight complex. Together, these data confirm a role for CEP89 in mitochondrial metabolism. In addition, we modeled CEP89 loss of function in Drosophila. Ubiquitous knockdown of fly Cep89 decreased complex IV activity and resulted in complete lethality. Furthermore, Cep89 is required for mitochondrial integrity, membrane depolarization and synaptic transmission of photoreceptor neurons, and for (sub)synaptic organization of the larval neuromuscular junction. Finally, we tested neuronal Cep89 knockdown flies in the light-offjump reflex habituation assay, which revealed its role in learning. We conclude that CEP89 proteins play an important role in mitochondrial metabolism, especially complex IV activity, and are required for neuronal and cognitive function across evolution.
AB - It is estimated that the human mitochondrial proteome consists of 1000-1500 distinct proteins. The majority of these support the various biochemical pathways that are active in these organelles. Individuals with an oxidative phosphorylation disorder of unknown cause provide a unique opportunity to identify novel genes implicated in mitochondrial biology. We identified a homozygous deletion of CEP89 in a patient with isolated complex IV deficiency, intellectual disability and multisystemic problems. CEP89 is a ubiquitously expressed and highly conserved gene of unknown function. Immunocytochemistry and cellular fractionation experiments showed that CEP89 is present both in the cytosol and in the mitochondrial intermembrane space. Furthermore, we ascertained in vitro that downregulation of CEP89 resulted in a severe decrease in complex IV in-gel activity and altered mobility, suggesting that the complex is aberrantly formed. Two-dimensional BN-SDS gel analysis revealed that CEP89 associates with a high-molecular weight complex. Together, these data confirm a role for CEP89 in mitochondrial metabolism. In addition, we modeled CEP89 loss of function in Drosophila. Ubiquitous knockdown of fly Cep89 decreased complex IV activity and resulted in complete lethality. Furthermore, Cep89 is required for mitochondrial integrity, membrane depolarization and synaptic transmission of photoreceptor neurons, and for (sub)synaptic organization of the larval neuromuscular junction. Finally, we tested neuronal Cep89 knockdown flies in the light-offjump reflex habituation assay, which revealed its role in learning. We conclude that CEP89 proteins play an important role in mitochondrial metabolism, especially complex IV activity, and are required for neuronal and cognitive function across evolution.
UR - http://www.scopus.com/inward/record.url?scp=84880323472&partnerID=8YFLogxK
U2 - 10.1093/hmg/ddt170
DO - 10.1093/hmg/ddt170
M3 - Journal articles
C2 - 23575228
AN - SCOPUS:84880323472
SN - 0964-6906
VL - 22
SP - 3138
EP - 3151
JO - Human Molecular Genetics
JF - Human Molecular Genetics
IS - 15
ER -