Sybaptic Plasticity
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biology
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published 26/11/2007
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SummaryIn its simplest form, the postsynaptic response to neurotransmitter release can be mediated by a single protein complex. For example, nicotinic acetylcholine receptors are self-contained stimulus-response modules that both detect a stimulus, acetylcholine, and generate a response, passage of ion currents. In a similar vein, other members of this superfamily of ionotropic receptors, including g-aminobutyric acid (GABA) and glutamate receptors, have the ability to function in a manner that is independent of the intracellular signaling pathways discussed. Thus, in contrast to growth factor or G-protein–coupled receptors, which often recruit elaborate cascades to elicit a response, the simplicity of self-sufficient ionotropic receptor complexes represents an optimal design for achieving reliability, precision, and speed. However, this view of ionotropic receptors as insulated from their social environment has had to be abandoned in the face of overwhelming evidence that this class of receptors is dynamically regulated by intraneuronal signaling pathways. Although these receptors do not rely on intraneuronal signaling pathways to operate ion channels, because these channels are an intrinsic feature of the receptor complex the linkage between ligand binding and ion channel gating is nevertheless subject to regulation by the network of intraneuronal signaling pathways just described. For example, phosphorylation of the GABA or glutamate receptors modulates their response to ligand exposure.
Table of Contents
- Long-Term Depression The principle that ion channels are regulated by second messenger pathways is of central importance in considering how neuronal responses are altered by experience.
- Long-Term Potentiation The notion that coactivation of multiple second messenger pathways can have a qualitatively different impact than any one individually is also borne out in another well-known model of synaptic plasticity, long-term potentiation.
- This unusual property of NMDA receptors provides a molecular mechanism for conferring associative properties on long-term potentiation.
- Role of Phosphorylation The associative property of this model of synaptic plasticity has focused attention on deciphering the intraneuronal signaling pathways that mediate the long-term change in synaptic transmission triggered by NMDA receptor stimulation.
- Actions of Psychotropic Drugs In addition to providing insight into the molecular mechanism underlying synaptic plasticity, studies of intraneuronal signaling pathways are also directly relevant to deciphering the mode of action of psychotropic drugs.
- Evidence supporting this theory has been provided by recent studies demonstrating that opiate withdrawal is attenuated in transgenic animals that are deficient in CREB.
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