eIF2 alpha controls memory consolidation via excitatory and somatostatin neurons
Sharma, Vijendra; Sood, Rapita; Khlaifia, Abdessattar; Eslamizade, Mohammad Javad; Hung, Tzu-Yu; Lou, Danning; Asgarihafshejani, Azam; Lalzar, Maya; Kiniry, Stephen J.; Stokes, Matthew P.; Cohen, Noah; Nelson, Alissa J.; Abell, Kathryn; Possemato, Anthony
NATURE
2020
VL / 586 - BP / 412 - EP / +
abstract
Stimulation of de novo protein synthesis in both excitatory and inhibitory, somatostatin-expressing neurons in the mouse hippocampus enhances memory consolidation. An important tenet of learning and memory is the notion of a molecular switch that promotes the formation of long-term memory(1-4). The regulation of proteostasis is a critical and rate-limiting step in the consolidation of new memories(5-10). One of the most effective and prevalent ways to enhance memory is by regulating the synthesis of proteins controlled by the translation initiation factor eIF2(11). Phosphorylation of the alpha-subunit of eIF2 (p-eIF2 alpha), the central component of the integrated stress response (ISR), impairs long-term memory formation in rodents and birds(11-13). By contrast, inhibiting the ISR by mutating the eIF2 alpha phosphorylation site, genetically(11)and pharmacologically inhibiting the ISR kinases(14-17), or mimicking reduced p-eIF2 alpha with the ISR inhibitor ISRIB11, enhances long-term memory in health and disease(18). Here we used molecular genetics to dissect the neuronal circuits by which the ISR gates cognitive processing. We found that learning reduces eIF2 alpha phosphorylation in hippocampal excitatory neurons and a subset of hippocampal inhibitory neurons (those that express somatostatin, but not parvalbumin). Moreover, ablation of p-eIF2 alpha in either excitatory or somatostatin-expressing (but not parvalbumin-expressing) inhibitory neurons increased general mRNA translation, bolstered synaptic plasticity and enhanced long-term memory. Thus, eIF2 alpha-dependent mRNA translation controls memory consolidation via autonomous mechanisms in excitatory and somatostatin-expressing inhibitory neurons.
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