Journal
NATURE
Volume 462, Issue 7275, Pages 920-U114Publisher
NATURE PUBLISHING GROUP
DOI: 10.1038/nature08577
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Funding
- National Institutes of Health [R01 NS047325]
- Dart Foundation Fellowship
- Ellison/AFAR Postdoctoral Fellowship
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Changes in synaptic connections are considered essential for learning and memory formation(1-6). However, it is unknown how neural circuits undergo continuous synaptic changes during learning while maintaining lifelong memories. Here we show, by following postsynaptic dendritic spines over time in the mouse cortex(7,8), that learning and novel sensory experience lead to spine formation and elimination by a protracted process. The extent of spine remodelling correlates with behavioural improvement after learning, suggesting a crucial role of synaptic structural plasticity in memory formation. Importantly, a small fraction of new spines induced by novel experience, together with most spines formed early during development and surviving experience-dependent elimination, are preserved and provide a structural basis for memory retention throughout the entire life of an animal. These studies indicate that learning and daily sensory experience leave minute but permanent marks on cortical connections and suggest that lifelong memories are stored in largely stably connected synaptic networks.
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