37 research outputs found
Regulation of mitochondrial morphogenesis by annexin a6.
Mitochondrial homeostasis is critical in meeting cellular energy demands, shaping calcium signals and determining susceptibility to apoptosis. Here we report a role for anxA6 in the regulation of mitochondrial morphogenesis, and show that in cells lacking anxA6 mitochondria are fragmented, respiration is impaired and mitochondrial membrane potential is reduced. In fibroblasts from AnxA6(-/-) mice, mitochondrial Ca(2+) uptake is reduced and cytosolic Ca(2+) transients are elevated. These observations led us to investigate possible interactions between anxA6 and proteins with roles in mitochondrial fusion and fission. We found that anxA6 associates with Drp1 and that mitochondrial fragmentation in AnxA6(-/-) fibroblasts was prevented by the Drp1 inhibitor mdivi-1. In normal cells elevation of intracellular Ca(2+) disrupted the interaction between anxA6 and Drp1, displacing anxA6 to the plasma membrane and promoting mitochondrial fission. Our results suggest that anxA6 inhibits Drp1 activity, and that Ca(2+)-binding to anxA6 relieves this inhibition to permit Drp1-mediated mitochondrial fission
Le rôle des facteurs psychologiques dans la réalisation d’une démarche de dépistage du VIH
International audienc
Le rôle des facteurs psychologiques dans la réalisation d’une démarche de dépistage du VIH
International audienc
3D reconstruction of antiphase boundaries in Cu3Au from field ion images
International audienceField ion microscopy (FIM) was used to study the atomic level structure of the antiphase boundaries (APBs) in Cu3Au alloys. This technique allows a metallic sample volume to be investigated by using controlled evaporation of atomic layers. We used an emitter shape model from which the APBs can be reconstructed in three dimensions. The approach to the exact spatial arrangement of boundaries in the material volume allows the nature of planes of APBs to be determined. The results corroborate the observations from high resolution electron microscopy technique (HREM), which show that the APBs are mainly located in the cubic planes (001). \textcopyright 1995
3D reconstruction of antiphase boundaries in Cu3Au from field ion images
International audienceField ion microscopy (FIM) was used to study the atomic level structure of the antiphase boundaries (APBs) in Cu3Au alloys. This technique allows a metallic sample volume to be investigated by using controlled evaporation of atomic layers. We used an emitter shape model from which the APBs can be reconstructed in three dimensions. The approach to the exact spatial arrangement of boundaries in the material volume allows the nature of planes of APBs to be determined. The results corroborate the observations from high resolution electron microscopy technique (HREM), which show that the APBs are mainly located in the cubic planes (001). \textcopyright 1995