Activity-dependent changes in synaptic structure and spine morphology are required for learning and memory, and depend on protein translation. We show that the kinase for eukaryotic elongation factor 2 (eEF2K) regulates dendritic spine stability and synaptic structure by modulating activity-dependent dendritic BDNF synthesis. Specifically RNAi knockdown of eEF2K reduces dendritic spine stability and inhibits dendritic BDNF protein expression; whereas overexpression of a constitutively activated eEF2K induces spine maturation and increases expression of dendritic BDNF. Furthermore, BDNF overexpression rescues the spine stability reduced by RNAi knockdown of eEF2K. We also show that synaptic activity-dependent spine maturation and dendritic B...
Structural plasticity of dendritic spines is a key component of the refinement of synaptic connectio...
Brain-derived neurotrophic factor (BDNF) is encoded by multiple mRNA variants whose differential sub...
Highly specific activity-dependent neuronal responses are necessary for modulating synap-ses to faci...
Activity-dependent regulation of dendritic protein synthesis is critical for enduring changes in syn...
SummaryActivity-dependent regulation of dendritic protein synthesis is critical for enduring changes...
Neuronal activity results in long lasting changes in synaptic structure and function by regulating m...
Dendritic spines are highly dynamic small protusions of dendrites corresponding to the post-synaptic...
AbstractOne of the hallmarks of learning processes in any species studied so far is that they requir...
Highly specific activity-dependent neuronal responses are necessary for modulating synapses to facil...
Our brain function depends on communication between neurons through synaptic transmission. Most exci...
Dendritic spines are small protrusive structures on dendritic surfaces, and function as postsynaptic...
The fine tuning of neural networks during development and learning relies upon both functional and s...
SummaryProper neuronal function and several forms of synaptic plasticity are highly dependent on pre...
Structural plasticity of excitatory synapses is a vital component of neuronal development, synaptic ...
AbstractMemory and synaptic plasticity exhibit distinct temporal phases, with long-lasting forms dis...
Structural plasticity of dendritic spines is a key component of the refinement of synaptic connectio...
Brain-derived neurotrophic factor (BDNF) is encoded by multiple mRNA variants whose differential sub...
Highly specific activity-dependent neuronal responses are necessary for modulating synap-ses to faci...
Activity-dependent regulation of dendritic protein synthesis is critical for enduring changes in syn...
SummaryActivity-dependent regulation of dendritic protein synthesis is critical for enduring changes...
Neuronal activity results in long lasting changes in synaptic structure and function by regulating m...
Dendritic spines are highly dynamic small protusions of dendrites corresponding to the post-synaptic...
AbstractOne of the hallmarks of learning processes in any species studied so far is that they requir...
Highly specific activity-dependent neuronal responses are necessary for modulating synapses to facil...
Our brain function depends on communication between neurons through synaptic transmission. Most exci...
Dendritic spines are small protrusive structures on dendritic surfaces, and function as postsynaptic...
The fine tuning of neural networks during development and learning relies upon both functional and s...
SummaryProper neuronal function and several forms of synaptic plasticity are highly dependent on pre...
Structural plasticity of excitatory synapses is a vital component of neuronal development, synaptic ...
AbstractMemory and synaptic plasticity exhibit distinct temporal phases, with long-lasting forms dis...
Structural plasticity of dendritic spines is a key component of the refinement of synaptic connectio...
Brain-derived neurotrophic factor (BDNF) is encoded by multiple mRNA variants whose differential sub...
Highly specific activity-dependent neuronal responses are necessary for modulating synap-ses to faci...