CONICET | Buscador de Institutos y Recursos Humanos

During hypoxia episode, synaptic dysfunction observed has been related with neuronal death, although thisn mechanism is not fully understood yet. In previous work we have shown modifications in neurons and synapses in the neostriatum of rat subjected to hipoxia. In this work we study the effects of hypoxia-ischemia on the actin cytoskeleton of Hippocampal CA1 post-synaptic densities (PSD) and the actin binding proteins in 30 days olds rats, by combining photooxidation, inmunofluorescent, 3D reconstruction and Western blot. In addition, we test the effects of reduced temperature from 37¨¬c to 15¨¬c on dendritic spines. Staining with phalloidin-alexa 568 followed by confocal microscopy analysis showed an increase of F actin fluorescent staining in the CA1 Hippocampal dendritic spines. Electron microscopy and 3-D reconstruction confirmed these observations showing an increment in the number of F-actin staining spines in CA1 hippocampal excitatory synapses subjected to severe hypoxia. Western blot revealed ¥â-actin increase in hypoxic animals, consistent with the microscopy data. Staining with profilin-alexa 488 followed by confocal microscopy analysis showed an increase of pyramidal neurons immunostaining, located in the stratum radiatum. When hypoxia was induced under hypothermic conditions the changes observed were blocked. These results suggest that the cellular and subcellular alterations in CA1 hippocampal PSDs could be related to F-actin increase probably due to an alteration in profiling dynamic inducing more actin polymerization and changes in the dendritic synaptic cytoarchytecture. ¥â-actin increase in hypoxic animals, consistent with the microscopy data. Staining with profilin-alexa 488 followed by confocal microscopy analysis showed an increase of pyramidal neurons immunostaining, located in the stratum radiatum. When hypoxia was induced under hypothermic conditions the changes observed were blocked. These results suggest that the cellular and subcellular alterations in CA1 hippocampal PSDs could be related to F-actin increase probably due to an alteration in profiling dynamic inducing more actin polymerization and changes in the dendritic synaptic cytoarchytecture.