TY - JOUR
T1 - The Eutherian Armcx genes regulate mitochondrial trafficking in neurons and interact with Miro and Trak2
AU - Lopez-Domenech, Guillermo
AU - Serrat, Roman
AU - Mirra, Serena
AU - D'Aniello, Salvatore
AU - Somorjai, Ildiko
AU - Abad, Alba
AU - Vitureira, Nathalia
AU - Garcia-Arumi, Elena
AU - Teresa Alonso, Maria
AU - Rodriguez-Prados, Macarena
AU - Burgaya, Ferran
AU - Andreu, Antoni L.
AU - Garcia-Sancho, Javier
AU - Trullas, Ramon
AU - Garcia-Fernandez, Jordi
AU - Soriano, Eduardo
N1 - 3/64 in Multidisciplinary sciences in Web of Science JCR year 2016
5/116 in 2018
PY - 2012/5
Y1 - 2012/5
N2 - Brain function requires neuronal activity-dependent energy consumption. Neuronal energy supply is controlled by molecular mechanisms that regulate mitochondrial dynamics, including Kinesin motors and Mitofusins, Miro1-2 and Trak2 proteins. Here we show a new protein family that localizes to the mitochondria and controls mitochondrial dynamics. This family of proteins is encoded by an array of armadillo (Arm) repeat-containing genes located on the X chromosome. The Armcx cluster is unique to Eutherian mammals and evolved from a single ancestor gene (Armc10). We show that these genes are highly expressed in the developing and adult nervous system. Furthermore, we demonstrate that Armcx3 expression levels regulate mitochondrial dynamics and trafficking in neurons, and that Alex3 interacts with the Kinesin/Miro/Trak2 complex in a Ca2+-dependent manner. Our data provide evidence of a new Eutherian-specific family of mitochondrial proteins that controls mitochondrial dynamics and indicate that this key process is differentially regulated in the brain of higher vertebrates.
AB - Brain function requires neuronal activity-dependent energy consumption. Neuronal energy supply is controlled by molecular mechanisms that regulate mitochondrial dynamics, including Kinesin motors and Mitofusins, Miro1-2 and Trak2 proteins. Here we show a new protein family that localizes to the mitochondria and controls mitochondrial dynamics. This family of proteins is encoded by an array of armadillo (Arm) repeat-containing genes located on the X chromosome. The Armcx cluster is unique to Eutherian mammals and evolved from a single ancestor gene (Armc10). We show that these genes are highly expressed in the developing and adult nervous system. Furthermore, we demonstrate that Armcx3 expression levels regulate mitochondrial dynamics and trafficking in neurons, and that Alex3 interacts with the Kinesin/Miro/Trak2 complex in a Ca2+-dependent manner. Our data provide evidence of a new Eutherian-specific family of mitochondrial proteins that controls mitochondrial dynamics and indicate that this key process is differentially regulated in the brain of higher vertebrates.
U2 - 10.1038/ncomms1829
DO - 10.1038/ncomms1829
M3 - Article
SN - 2041-1723
VL - 3
SP - -
JO - Nature Communications
JF - Nature Communications
M1 - 814
ER -