2004
DOI: 10.1016/s0896-6273(04)00184-9
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Plastic Elimination of Functional Glutamate Release Sites by Depolarization

Abstract: To examine persisting effects of depolarizing rises in extracellular potassium concentration ([K+](o)) on synapses, we depolarized cells to simulate ischemia-like rises in [K+](o). Elevated [K+](o) for 1-16 hr severely depressed glutamate signaling, while mildly depressing GABA transmission. The glutamate-specific changes were plastic over several hours and involved a decrease in the size of the pool of releasable vesicles. Rather than a reduction of the number of vesicles per release site, the change involved… Show more

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Cited by 58 publications
(127 citation statements)
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“…We have shown previously that a wide range of depolarizing challenges, ranging from pathophysiological (Moulder et al, 2004) to physiological (Moulder et al, 2006), results in strong presynaptic silencing. Manipulation of spiking within the physiological range of activity requires several days to produce strong presynaptic silencing, whereas strong depolarization requires only hours to produce 70 -80% presynaptic silencing.…”
Section: Recovery From Depolarization-induced Silencingmentioning
confidence: 99%
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“…We have shown previously that a wide range of depolarizing challenges, ranging from pathophysiological (Moulder et al, 2004) to physiological (Moulder et al, 2006), results in strong presynaptic silencing. Manipulation of spiking within the physiological range of activity requires several days to produce strong presynaptic silencing, whereas strong depolarization requires only hours to produce 70 -80% presynaptic silencing.…”
Section: Recovery From Depolarization-induced Silencingmentioning
confidence: 99%
“…We have shown previously that, after strong, depolarization-induced presynaptic silencing, reactivation of synapses occurs over ϳ4 h (Moulder et al, 2004). Ca 2ϩ -sensitive adenylyl cyclases may be particularly important in resetting normal synaptic functioning after removal of the depolarizing challenge, a process important for the resumption of normal neuronal signaling and for resetting appropriate balance between excitation and inhibition.…”
Section: Recovery From Depolarization-induced Silencingmentioning
confidence: 99%
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