Behavioral Tagging: A Translation of the Synaptic Tagging and Capture Hypothesis

Similar molecular machinery is activated in neurons following an electrical stimulus that induces synaptic changes and after learning sessions that trigger memory formation. Then, to achieve perdurability of these processes protein synthesis is required for the reinforcement of the changes induced i...

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Bibliographic Details
Published in:Journal of neural transplantation & plasticity 2015-01, Vol.2015 (2015), p.1106-1126-095
Main Authors: Moncada, Diego, Viola, Haydee, Ballarini, Fabricio
Format: Article
Language:English
Subjects:
Animals
Behavior - physiology
Behavior, Animal - physiology
Genetic translation
Humans
Hypotheses
Memory
Memory - physiology
Neuronal Plasticity - physiology
Protein synthesis
Proteins
Review
Synapses - physiology
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Summary:Similar molecular machinery is activated in neurons following an electrical stimulus that induces synaptic changes and after learning sessions that trigger memory formation. Then, to achieve perdurability of these processes protein synthesis is required for the reinforcement of the changes induced in the network. The synaptic tagging and capture theory provided a strong framework to explain synaptic specificity and persistence of electrophysiological induced plastic changes. Ten years later, the behavioral tagging hypothesis (BT) made use of the same argument, applying it to learning and memory models. The hypothesis postulates that the formation of lasting memories relies on at least two processes: the setting of a learning tag and the synthesis of plasticity related proteins, which once captured at tagged sites allow memory consolidation. BT explains how weak events, only capable of inducing transient forms of memories, can result in lasting memories when occurring close in time with other behaviorally relevant experiences that provide proteins. In this review, we detail the findings supporting the existence of BT process in rodents, leading to the consolidation, persistence, and interference of a memory. We focus on the molecular machinery taking place in these processes and describe the experimental data supporting the BT in humans.
ISSN:0792-8483
2090-5904
1687-5443
DOI:10.1155/2015/650780