Add to ORKGWhen neuronal activity is reduced over a period of days, compensatory changes in synaptic strength and/or cellular excitability are triggered, which are thought to act in a manner to homeostatically recover normal activity levels. The time course over which changes in homeostatic synaptic strength and cellular excitability occur are not clear. Although many studies show that 1–2 days of activity block are necessary to trigger increases in excitatory quantal strength, few studies have been able to examine whether these mechanisms actually underlie recovery of network activity. Here, we examine the mechanisms underlying recovery of embryonic motor activity following block of either excitatory GABAergic or glutamatergic inputs in vivo. We find...
The nervous system is faced with perturbations in activity levels throughout development and in dise...
A neuron’s identity and function are dictated by its electrophysiological signature. The firing patt...
Background\ud During development both Hebbian and homeostatic mechanisms regulate synaptic efficacy,...
When neuronal activity is reduced over a period of days, compensatory changes in synaptic strength a...
Synaptic activity in the central nervous system undergoes rapid state-dependent changes, requiring c...
SummarySpontaneous network activity (SNA) has been described in most developing circuits, including ...
Synaptic scaling represents a process whereby the distribution of a cell's synaptic strengths are al...
Fast synaptic inhibition in the brain is mediated by the pre-synaptic release of the neurotransmitte...
Homeostatic synaptic plasticity (HSP) regulates synaptic strength in response to changing neuronal f...
During the first few weeks in vitro, cultured neuronal networks exhibit spontaneous bursts of action...
Synaptic scaling represents a process whereby the distribution of a cell’s synaptic strengths are al...
Stabilization of neuronal activity by homeostatic control systems is fundamental for proper function...
The magnitude and timing of neural activity precisely determines adaptive responses to stimuli. Neu...
Fast synaptic inhibition in the brain is mediated by the pre-synaptic release of the neurotransmitte...
Chronic changes in the level of neuronal activity (over a period of days) trigger compensatory chang...
The nervous system is faced with perturbations in activity levels throughout development and in dise...
A neuron’s identity and function are dictated by its electrophysiological signature. The firing patt...
Background\ud During development both Hebbian and homeostatic mechanisms regulate synaptic efficacy,...
When neuronal activity is reduced over a period of days, compensatory changes in synaptic strength a...
Synaptic activity in the central nervous system undergoes rapid state-dependent changes, requiring c...
SummarySpontaneous network activity (SNA) has been described in most developing circuits, including ...
Synaptic scaling represents a process whereby the distribution of a cell's synaptic strengths are al...
Fast synaptic inhibition in the brain is mediated by the pre-synaptic release of the neurotransmitte...
Homeostatic synaptic plasticity (HSP) regulates synaptic strength in response to changing neuronal f...
During the first few weeks in vitro, cultured neuronal networks exhibit spontaneous bursts of action...
Synaptic scaling represents a process whereby the distribution of a cell’s synaptic strengths are al...
Stabilization of neuronal activity by homeostatic control systems is fundamental for proper function...
The magnitude and timing of neural activity precisely determines adaptive responses to stimuli. Neu...
Fast synaptic inhibition in the brain is mediated by the pre-synaptic release of the neurotransmitte...
Chronic changes in the level of neuronal activity (over a period of days) trigger compensatory chang...
The nervous system is faced with perturbations in activity levels throughout development and in dise...
A neuron’s identity and function are dictated by its electrophysiological signature. The firing patt...
Background\ud During development both Hebbian and homeostatic mechanisms regulate synaptic efficacy,...
