Properties of synchronous and asynchronous release during pulse train depression in cultured hippocampal neurons.

@article{Hagler2001PropertiesOS,
  title={Properties of synchronous and asynchronous release during pulse train depression in cultured hippocampal neurons.},
  author={D. J. Hagler and Yukiko Goda},
  journal={Journal of neurophysiology},
  year={2001},
  volume={85 6},
  pages={
          2324-34
        }
}
Neurotransmitter release displays at least two kinetically distinct components in response to a single action potential. The majority of release occurs synchronously with action-potential-triggered Ca(2+) influx; however, delayed release--also called asynchronous release--persists for tens of milliseconds following the peak Ca(2+) transient. In response to trains of action potentials, synchronous release eventually declines, whereas asynchronous release often progressively increases, an effect… 
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Intraterminal Ca2+ concentration and asynchronous transmitter release at single GABAergic boutons in rat collicular cultures
TLDR
Asynchronous release represents a powerful but delicately regulated mechanism that ensures the maintenance of appropriate inhibition when the readily releasable pool of vesicles is depleted.
Dynamic modulation of phasic and asynchronous glutamate release in hippocampal synapses.
TLDR
It is verified that a number of manipulations of Ca(2+) handling and influx selectively alter asynchronous release relative to phasic transmitter release during action potential trains in cultured excitatory autaptic hippocampal neurons, and suggested the possibility of differential control of synchronous versus asynchronous vesicle release.
Autonomous Function of Synaptotagmin 1 in Triggering Synchronous Release Independent of Asynchronous Release
Competition between Phasic and Asynchronous Release for Recovered Synaptic Vesicles at Developing Hippocampal Autaptic Synapses
TLDR
Despite depression of phasic release during train stimulation, transmission can be maintained at a near-maximal rate by switching to an asynchronous mode that takes advantage of a bulk presynaptic [Ca2+]i.
Spontaneous neurotransmitter release and Ca2+--how spontaneous is spontaneous neurotransmitter release?
Two Ca2+-Dependent Steps Controlling Synaptic Vesicle Fusion and Replenishment at the Cerebellar Basket Cell Terminal
Doc2 Is a Ca2+ Sensor Required for Asynchronous Neurotransmitter Release
The role of calcium in modulation of the kinetics of synchronous and asynchronous quantal release at the neuromuscular junction
TLDR
The hypothesis of participation of low- and high-affinity calcium sensors with different calcium binding kinetics in regulation of, respectively, synchronous and asynchronous release of neurotransmitter quanta is supported.
Synaptotagmin-7-Mediated Asynchronous Release Boosts High-Fidelity Synchronous Transmission at a Central Synapse
A dual-Ca2+-sensor model for neurotransmitter release in a central synapse
TLDR
The results reveal that release triggered in wild-type synapses at low Ca2+ concentrations is physiologically asynchronous, and that asynchronous release completely empties the readily releasable pool of vesicles during sustained elevations of Ca2+.
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