1. Protein trafficking from synapse to nucleus in control of activity-dependent gene expression.
- Author
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Kaushik R, Grochowska KM, Butnaru I, and Kreutz MR
- Subjects
- Animals, Humans, Cell Nucleus physiology, Gene Expression physiology, Protein Transport, Synapses physiology
- Abstract
Long-lasting changes in neuronal excitability require activity-dependent gene expression and therefore the transduction of synaptic signals to the nucleus. Synaptic activity is rapidly relayed to the nucleus by membrane depolarization and the propagation of Ca(2+)-waves. However, it is unlikely that Ca(2+)-transients alone can explain the specific genomic response to the plethora of extracellular stimuli that control gene expression. In recent years a steadily growing number of studies report the transport of proteins from synapse to nucleus. Potential mechanisms for active retrograde transport and nuclear targets for these proteins have been identified and recent reports assigned first functions to this type of long-distance signaling. In this review we will discuss how the dissociation of synapto-nuclear protein messenger from synaptic and extrasynaptic sites, their transport, nuclear import and the subsequent genomic response relate to the prevailing concept behind this signaling mechanism, the encoding of signals at their site of origin and their decoding in the nucleus., (Copyright © 2014 IBRO. Published by Elsevier Ltd. All rights reserved.)
- Published
- 2014
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