Long-term plasticity in the hippocampus: maintaining within and 'tagging' between synapses
- PMID: 34109726
- DOI: 10.1111/febs.16065
Long-term plasticity in the hippocampus: maintaining within and 'tagging' between synapses
Abstract
Synapses between neurons are malleable biochemical structures, strengthening and diminishing over time dependent on the type of information they receive. This phenomenon known as synaptic plasticity underlies learning and memory, and its different forms, long-term potentiation (LTP) and long-term depression (LTD), perform varied cognitive roles in reinforcement, relearning and associating memories. Moreover, both LTP and LTD can exist in an early transient form (early-LTP/LTD) or a late persistent form (late-LTP/LTD), which are triggered by different induction protocols, and also differ in their dependence on protein synthesis and the involvement of key molecular players. Beyond homosynaptic modifications, synapses can also interact with one another. This is encapsulated in the synaptic tagging and capture hypothesis (STC), where synapses expressing early-LTP/LTD present a 'tag' that can capture the protein synthesis products generated during a temporally proximal late-LTP/LTD induction. This 'tagging' phenomenon forms the framework of synaptic interactions in various conditions and accounts for the cellular basis of the time-dependent associativity of short-lasting and long-lasting memories. All these synaptic modifications take place under controlled neuronal conditions, regulated by subcellular elements such as epigenetic regulation, proteasomal degradation and neuromodulatory signals. Here, we review current understanding of the different forms of synaptic plasticity and its regulatory mechanisms in the hippocampus, a brain region critical for memory formation. We also discuss expression of plasticity in hippocampal CA2 area, a long-overlooked narrow hippocampal subfield and the behavioural correlate of STC. Lastly, we put forth perspectives for an integrated view of memory representation in synapses.
Keywords: hippocampus; long-term depression; long-term potentiation; synaptic plasticity; synaptic tagging and capture.
© 2021 Federation of European Biochemical Societies.
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References
-
- Carew TJ, Castellucci VF & Kandel ER (1971) An analysis of dishabituation and sensitization of the gill-withdrawal reflex in Aplysia. Int J Neurosci 2, 79-98.
-
- Kahsai L & Zars T (2011) Learning and memory in Drosophila: behavior, genetics, and neural systems. Int Rev Neurobiol 99, 139-167.
-
- Vorhees CV & Williams MT (2014) Assessing spatial learning and memory in rodents. ILAR J 55, 310-332.
-
- Martin SJ, Grimwood PD & Morris RG (2000) Synaptic plasticity and memory: an evaluation of the hypothesis. Annu Rev Neurosci 23, 649-711.
-
- James W (1890) The principles of psychology. H. Holt and company, NY.
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