Author
Listed:
- K.L. Shires
(Centre for Cognitive and Neural Systems (CCNS), University of Edinburgh
Present address: Brain Repair Group, Cardiff School of Biosciences, Biomedical Sciences Building, Museum Avenue, Cardiff, CF10 3AX, UK)
- B.M. Da Silva
(Centre for Cognitive and Neural Systems (CCNS), University of Edinburgh)
- J.P. Hawthorne
(Centre for Cognitive and Neural Systems (CCNS), University of Edinburgh)
- R.G.M. Morris
(Centre for Cognitive and Neural Systems (CCNS), University of Edinburgh)
- S.J. Martin
(Centre for Cognitive and Neural Systems (CCNS), University of Edinburgh)
Abstract
In isolated hippocampal slices, decaying long-term potentiation can be stabilized and converted to late long-term potentiation lasting many hours, by prior or subsequent strong high-frequency tetanization of an independent input to a common population of neurons—a phenomenon known as ‘synaptic tagging and capture’. Here we show that the same phenomenon occurs in the intact rat. Late long-term potentiation can be induced in CA1 during the inhibition of protein synthesis if an independent input is strongly tetanized beforehand. Conversely, declining early long-term potentiation induced by weak tetanization can be converted into lasting late long-term potentiation by subsequent strong tetanization of a separate input. These findings indicate that synaptic tagging and capture is not limited to in vitro preparations; the past and future activity of neurons has a critical role in determining the persistence of synaptic changes in the living animal, thus providing a bridge between cellular studies of protein synthesis-dependent synaptic potentiation and behavioural studies of memory persistence.
Suggested Citation
K.L. Shires & B.M. Da Silva & J.P. Hawthorne & R.G.M. Morris & S.J. Martin, 2012.
"Synaptic tagging and capture in the living rat,"
Nature Communications, Nature, vol. 3(1), pages 1-11, January.
Handle:
RePEc:nat:natcom:v:3:y:2012:i:1:d:10.1038_ncomms2250
DOI: 10.1038/ncomms2250
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