Editors' ChoiceSynaptic Plasticity

Synaptic Tag Tagged

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Science Signaling  19 May 2009:
Vol. 2, Issue 71, pp. ec167
DOI: 10.1126/scisignal.271ec167

Input-dependent synaptic plasticity is critical for the reproducible activation of a specific neuronal assembly encoding a particular memory. The synaptic tagging hypothesis, which suggests how input specificity is maintained in late-phase synaptic plasticity, attempts to explain the persistence of long-term memory. However, it has been difficult to identify proteins that behave as the hypothesis predicts. Okada et al. investigated whether the regulated spine entry of a late-phase-related somatically synthesized plasticity-related protein, Vesl-1S, works as a synaptic tag. Vesl-1S protein was carried from the soma to every dendrite and recruited into spines by synaptic activation in an input-specific manner. Spine entry was protein-synthesis independent, was NMDA-receptor dependent, and had a persistent lifetime of activation. These results provide long-sought evidence for the input-specific capturing of a plasticity-related protein as postulated by the synaptic tagging hypothesis.

D. Okada, F. Ozawa, K. Inokuchi, Input-specific spine entry of soma-derived Vesl-1S protein conforms to synaptic tagging. Science 324, 904–909 (2009). [Abstract] [Full Text]

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