Journal Article10.1146/ANNUREV.PHYSIOL.64.092501.114547
Short-Term Synaptic Plasticity
Robert S. Zucker,Wade G. Regehr +1 more
TL;DR: The evidence for this hypothesis, and the origins of the different kinetic phases of synaptic enhancement, as well as the interpretation of statistical changes in transmitter release and roles played by other factors such as alterations in presynaptic Ca(2+) influx or postsynaptic levels of [Ca(2+)]i are discussed.
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Abstract: ▪ Abstract Synaptic transmission is a dynamic process. Postsynaptic responses wax and wane as presynaptic activity evolves. This prominent characteristic of chemical synaptic transmission is a crucial determinant of the response properties of synapses and, in turn, of the stimulus properties selected by neural networks and of the patterns of activity generated by those networks. This review focuses on synaptic changes that result from prior activity in the synapse under study, and is restricted to short-term effects that last for at most a few minutes. Forms of synaptic enhancement, such as facilitation, augmentation, and post-tetanic potentiation, are usually attributed to effects of a residual elevation in presynaptic [Ca2+]i, acting on one or more molecular targets that appear to be distinct from the secretory trigger responsible for fast exocytosis and phasic release of transmitter to single action potentials. We discuss the evidence for this hypothesis, and the origins of the different kinetic phases...
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References
Short-term synaptic plasticity.
TL;DR: The evidence for this hypothesis, the origins of the different kinetic phases of synaptic enhancement, as well as the interpretation of statistical changes in transmitter release and roles played by other factors such as alterations in presynaptic Ca 2+ influx or postsynaptic levels of [Ca 2+]i are discussed.
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The neural code between neocortical pyramidal neurons depends on neurotransmitter release probability
Misha Tsodyks,Henry Markram +1 more
TL;DR: In this article, a wide range of rates of synaptic depression between different pairs of pyramidal neurons was found, suggesting that the relative contribution of rate and temporal signals varies along a continuum.
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Endogenous cannabinoids mediate retrograde signalling at hippocampal synapses.
Rachel Wilson,Roger A. Nicoll +1 more
TL;DR: The transient suppression of GABA-mediated transmission that follows depolarization of hippocampal pyramidal neurons is mediated by retrograde signalling through release of endogenous cannabinoids, indicating that the function of endogenous cannabinoid released by depolarized hippocampal neurons might be to downregulate GABA release.
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Synaptotagmin I: a major Ca2+ sensor for transmitter release at a central synapse.
Martin Geppert,Yukiko Goda,Robert E. Hammer,Cai Li,Thomas W. Rosahl,Charles F. Stevens,Thomas C. Südhof +6 more
TL;DR: It is proposed that synaptotagmin I is the major low affinity Ca2+ sensor mediating Ca2-regulation of synchronous neurotransmitter release in hippocampal neurons and not essential for asynchronous or Ca(2+)-independent release.
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Long-Lasting Neurotrophin-Induced Enhancement of Synaptic Transmission in the Adult Hippocampus
Hyejin Kang,Erin M. Schuman +1 more
TL;DR: Long-term potentiation could still be elicited in slices previously potentiated by exposure to the neurotrophic factors, which implies that these two forms of plasticity may use at least partially independent cellular mechanisms.
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