INVESTIGADORES
CAPANI Francisco
artículos
Título:
Hippocampal Dendritic Spines Modifications Induced by Perinatal Asphyxia
Autor/es:
. E. SARACENO, R. CASTILLA, G. E. BARRETO, J. GONZALEZ, R. A. K¨OLLIKER-FRERS, AND F. CAPANI
Revista:
Neural Plasticity
Editorial:
Hindawi Publishing Corporation
Referencias:
Año: 2012 p. 1 - 10
ISSN:
1687-5443
Resumen:
Perinatal asphyxia (PA) affects the synaptic function and morphological organization. In previous works, we have shown neuronal
and synaptic changes in rat neostriatum subjected to hypoxia leading to long-term ubi-protein accumulation. Since F-actin is
highly concentrated in dendritic spines, modifications in its organization could be related with alterations induced by hypoxia in
the central nervous system (CNS). In the present study, we investigate the effects of PA on the actin cytoskeleton of hippocampal
postsynaptic densities (PSD) in 4-month-old rats. PSD showed an increment in their thickness and in the level of ubiquitination.
Correlative fluorescence-electron microscopy photooxidation showed a decrease in the number of F-actin-stained spines in
hippocampal excitatory synapses subjected to PA. Although Western Blot analysis also showed a slight decrease in â-actin in
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
postsynaptic densities (PSD) in 4-month-old rats. PSD showed an increment in their thickness and in the level of ubiquitination.
Correlative fluorescence-electron microscopy photooxidation showed a decrease in the number of F-actin-stained spines in
hippocampal excitatory synapses subjected to PA. Although Western Blot analysis also showed a slight decrease in â-actin in
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
and synaptic changes in rat neostriatum subjected to hypoxia leading to long-term ubi-protein accumulation. Since F-actin is
highly concentrated in dendritic spines, modifications in its organization could be related with alterations induced by hypoxia in
the central nervous system (CNS). In the present study, we investigate the effects of PA on the actin cytoskeleton of hippocampal
postsynaptic densities (PSD) in 4-month-old rats. PSD showed an increment in their thickness and in the level of ubiquitination.
Correlative fluorescence-electron microscopy photooxidation showed a decrease in the number of F-actin-stained spines in
hippocampal excitatory synapses subjected to PA. Although Western Blot analysis also showed a slight decrease in â-actin in
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
postsynaptic densities (PSD) in 4-month-old rats. PSD showed an increment in their thickness and in the level of ubiquitination.
Correlative fluorescence-electron microscopy photooxidation showed a decrease in the number of F-actin-stained spines in
hippocampal excitatory synapses subjected to PA. Although Western Blot analysis also showed a slight decrease in â-actin in
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
ffects the synaptic function and morphological organization. In previous works, we have shown neuronal
and synaptic changes in rat neostriatum subjected to hypoxia leading to long-term ubi-protein accumulation. Since F-actin is
highly concentrated in dendritic spines, modifications in its organization could be related with alterations induced by hypoxia in
the central nervous system (CNS). In the present study, we investigate the effects of PA on the actin cytoskeleton of hippocampal
postsynaptic densities (PSD) in 4-month-old rats. PSD showed an increment in their thickness and in the level of ubiquitination.
Correlative fluorescence-electron microscopy photooxidation showed a decrease in the number of F-actin-stained spines in
hippocampal excitatory synapses subjected to PA. Although Western Blot analysis also showed a slight decrease in â-actin in
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
postsynaptic densities (PSD) in 4-month-old rats. PSD showed an increment in their thickness and in the level of ubiquitination.
Correlative fluorescence-electron microscopy photooxidation showed a decrease in the number of F-actin-stained spines in
hippocampal excitatory synapses subjected to PA. Although Western Blot analysis also showed a slight decrease in â-actin in
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
ffects of PA on the actin cytoskeleton of hippocampal
postsynaptic densities (PSD) in 4-month-old rats. PSD showed an increment in their thickness and in the level of ubiquitination.
Correlative fluorescence-electron microscopy photooxidation showed a decrease in the number of F-actin-stained spines in
hippocampal excitatory synapses subjected to PA. Although Western Blot analysis also showed a slight decrease in â-actin in
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
â-actin in
PSD in PA animals, the difference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
have role in PSD alterations which would be a spread phenomenon induced by PA.
fference was not significant. Taken together, this data suggests that long-term actin cytoskeleton might
have role in PSD alterations which would be a spread phenomenon induced by PA.
