Activity‐induced secretion of semaphorin 3A mediates learning

The semaphorin family is a well‐characterized family of secreted or membrane‐bound proteins that are involved in activity‐independent neurodevelopmental processes, such as axon guidance, cell migration, and immune functions. Although semaphorins have recently been demonstrated to regulate activity‐d...

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Veröffentlicht in:The European journal of neuroscience 2021-05, Vol.53 (10), p.3279-3293
Hauptverfasser: Jitsuki‐Takahashi, Aoi, Jitsuki, Susumu, Yamashita, Naoya, Kawamura, Meiko, Abe, Manabu, Sakimura, Kenji, Sano, Akane, Nakamura, Fumio, Goshima, Yoshio, Takahashi, Takuya
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Sprache:eng
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Zusammenfassung:The semaphorin family is a well‐characterized family of secreted or membrane‐bound proteins that are involved in activity‐independent neurodevelopmental processes, such as axon guidance, cell migration, and immune functions. Although semaphorins have recently been demonstrated to regulate activity‐dependent synaptic scaling, their roles in Hebbian synaptic plasticity as well as learning and memory remain poorly understood. Here, using a rodent model, we found that an inhibitory avoidance task, a hippocampus‐dependent contextual learning paradigm, increased secretion of semaphorin 3A in the hippocampus. Furthermore, the secreted semaphorin 3A in the hippocampus mediated contextual memory formation likely by driving AMPA receptors into hippocampal synapses via the neuropilin1–plexin A4–semaphorin receptor complex. This signaling process involves alteration of the phosphorylation status of collapsin response mediator protein 2, which has been characterized as a downstream molecule in semaphorin signaling. These findings implicate semaphorin family as a regulator of Hebbian synaptic plasticity and learning. Contextual fear learning task increased the secretion of semaphorin 3A, a secreted type of semaphorin, in the hippocampus. Furthermore, the secreted semaphorin 3A in the hippocampus mediated contextual memory formation by driving AMPA receptors into hippocampal synapses via the neuropilin 1/plexin A4 semaphorin receptor complex. Thus, the semaphorin family regulates both Hebbian synaptic plasticity and learning.
ISSN:0953-816X
1460-9568
DOI:10.1111/ejn.15210