Disruption of a selective vesicle pool upon retrograde amnesia dissociates memory at presynaptic terminals
Shun Hiramatsu, Kaito Kabetani, Shu Kondo, Hiromu Tanimoto

TL;DR
The study shows that different types of memories in fruit flies are stored in separate presynaptic vesicle pools, explaining why some memories are more vulnerable to disruption.
Contribution
The paper identifies distinct presynaptic vesicle populations responsible for labile and consolidated memory, revealing a molecular framework for memory stability.
Findings
Disruption of Synapsin clustering selectively impairs labile memory in fruit flies.
Rab3 hyperactivation biases memory toward stabilization by displacing Synapsin.
Selective vesicle pools at presynaptic terminals underlie labile and consolidated memory formation.
Abstract
What determines memory stability? We show that distinct presynaptic vesicle populations underlie the labile and consolidated memories, which are simultaneously formed following odor-shock associative learning in fruit flies. These distinct synaptic mechanisms explain the selective loss of labile memory triggered by traumatic perturbations after learning. Given the evolutionarily conserved regulators of vesicle dynamics, our findings provide insights into memory consolidation across species. A single learning episode induces both labile and consolidated forms of aversive olfactory memory in Drosophila melanogaster. Retrograde amnesia triggered by post-learning perturbations specifically impairs the labile memory. However, synaptic mechanisms for this selectivity remain elusive. Here, we show that diverse amnestic treatments, such as concussion, commonly disrupt the presynaptic…
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Taxonomy
TopicsCellular transport and secretion · Neurobiology and Insect Physiology Research · Neuroscience and Neuropharmacology Research
