Activity-dependent localization in spines of the F-actin capping protein CapZ screened in a rat model of dementia

Actin reorganization in dendritic spines is hypothesized to underlie neuronal plasticity. Actin-related proteins, therefore, might serve as useful markers of plastic changes in dendritic spines. Here, we utilized memory deficits induced by fimbria-fornix transection (FFT) in rats as a dementia model...

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Published in:Genes to cells : devoted to molecular & cellular mechanisms 2010-06, Vol.15 (7), p.737-747
Main Authors: Kitanishi, Takuma, Sakai, Jun, Kojima, Shinichi, Saitoh, Yoshito, Inokuchi, Kaoru, Fukaya, Masahiro, Watanabe, Masahiko, Matsuki, Norio, Yamada, Maki K
Format: Article
Language:English
Subjects:
Actin
Actins - metabolism
Animals
Brain
CapZ Actin Capping Protein - analysis
CapZ Actin Capping Protein - metabolism
Dementia - metabolism
Dementia disorders
Dendritic spines
Dendritic Spines - metabolism
Dentate gyrus
Disease Models, Animal
Electrophoresis, Gel, Two-Dimensional
Fornix
Fornix, Brain - cytology
Fornix, Brain - surgery
Hippocampus
Hippocampus - cytology
Immunohistochemistry
Immunoreactivity
Male
Memory
Mice
Molecular modelling
Neurons
Neurons - metabolism
Perforant paths
Plasticity
Plasticity (neural)
Rats
Rats, Wistar
Synapses
Synapses - metabolism
Tetrodotoxin
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Summary:Actin reorganization in dendritic spines is hypothesized to underlie neuronal plasticity. Actin-related proteins, therefore, might serve as useful markers of plastic changes in dendritic spines. Here, we utilized memory deficits induced by fimbria-fornix transection (FFT) in rats as a dementia model to screen candidate memory-associated molecules by using a two-dimensional gel method. Comparison of protein profiles between the transected and control sides of hippocampi after unilateral FFT revealed a reduction in the F-actin capping protein (CapZ) signal on the FFT side. Subsequent immunostaining of brain sections and cultured hippocampal neurons revealed that CapZ localized in dendritic spines and the signal intensity in each spine varied widely. The CapZ content decreased after suppression of neuronal firing by tetrodotoxin treatment in cultured neurons, indicating rapid and activity-dependent regulation of CapZ accumulation in spines. To test input specificity of CapZ accumulation in vivo, we delivered high-frequency stimuli to the medial perforant path unilaterally in awake rats. This path selectively inputs to the middle molecular layer of the dentate gyrus, where CapZ immunoreactivity increased. We conclude that activity-dependent, synapse-specific regulation of CapZ redistribution might be important in both maintenance and remodeling of synaptic connections in neurons receiving specific spatial and temporal patterns of inputs.
ISSN:1356-9597
1365-2443
DOI:10.1111/j.1365-2443.2010.01411.x