Dynamic neural systems enable adaptive, flexible memories.
SourceNeuroscience and Biobehavioral Reviews, 36, 7, (2012), pp. 1646-1666
1 augustus 2012
Article / Letter to editor
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Neuroscience and Biobehavioral Reviews
SubjectDCN MP - Plasticity and memory
Almost all studies on memory formation have implicitly put forward a rather static view on memory. However, memories are not stable but sensitive to changes over time. Here we argue that memory alterations arise from the inherent predictive function of memory. Within this framework, we draw an analogy between the lateral temporal-lateral prefrontal system that supports prediction based on simple stimulus-response associations and propose that a similar system centring on the hippocampus and medial prefrontal cortex (mPFC) exists for complex episodic memories. We consider the hippocampus to be elementary for regularity detection and the mPFC for regularity storage together with response options, which form the basis of abstract knowledge. As such, abstract knowledge can come to guide behaviour in novel situations that only share partial overlap with episodic experiences that have given rise to the formation of abstract knowledge. Furthermore, we suggest that systems consolidation and sleep contribute to the formation of abstract knowledge, and that abstract knowledge can function as pre-existing schemas to the encoding of novel memories. Finally, we discuss that reconsolidation supports the updating of memories to optimize prediction. We accentuate that memory formation requires dynamic interactions between brain regions, and that rapid formation of detailed memories depends on synaptic weight changes, whereas rather stable abstract knowledge is supported by cortico-cortical rewiring. Together, we attempt explaining that apparent memory alterations and distortions are adaptive.
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