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KMID : 0606920060140020075
Biomolecules & Therapeutics
2006 Volume.14 No. 2 p.75 ~ p.82
Polyadenylation-Dependent Translational Control of New Protein Synthesis at Activated Synapse
Shin Chan-Young

Yang Sung-Il
Kim Kyung-Hwan
Ko Kwang-Ho
Abstract
Synaptic plasticity, which is a long lasting change in synaptic efficacy, underlies many neural processes like learning and memory. It has long been acknowledged that new protein synthesis is essential for both the expression of synaptic plasticity and memory formation and storage. Most of the research interests in this field have focused on the events regulating transcriptional activation of gene expression from the cell body and nucleus. Considering extremely differentiated structural feature of a neuron in CNS, a neuron should meet a formidable task to overcome spatial and temporal restraints to deliver newly synthesized proteins to specific acti- vated synapses among thousands of others, which are sometimes several millimeters away from the cell body. Recent advances in synaptic neurobiology has found that almost all the machinery required for the new protein translation are localized inside or at least in the vicinity of postsynaptic compartments. These findings led to the hypothesis that dormant mRNAs are translationally activated locally at the activated synapse, which may enable rapid and delicate control of new protein synthesis at activated synapses. In this review, we will describe the mechanism of local translational control at activated synapses focusing on the role of cytoplasmic polyadenylation of dormant mRNAs.
KEYWORD
Synaptic plasticity, polyadenylation, cytoplasmic polyadenylation element binding protein(CPEB), translation, RNA binding protein
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