Acute stress causes rapid synaptic insertion of Ca2+-permeable AMPA receptors to facilitate long-term potentiation in the hippocampus | Zendy

Garry Whitehead | Zendy; Jihoon Jo | Zendy; Ellen L. Hogg | Zendy; Thomas M. Piers | Zendy; Dong-Hyun Kim | Zendy; Gillian Seaton | Zendy; Heon Seok | Zendy; Gilles Bru–Mercier | Zendy; Gi Hoon Son | Zendy; Philip Regan | Zendy; Lars Hildebrandt | Zendy; Eleanor Waite | Zendy; Byeong C. Kim | Zendy; Talitha L. Kerrigan | Zendy; Kyungjin Kim | Zendy; Daniel J. Whitcomb | Zendy; Graham L. Collingridge | Zendy; Stafford L. Lightman | Zendy; Kwangwook Cho | Zendy

Open Access

Acute stress causes rapid synaptic insertion of Ca2+-permeable AMPA receptors to facilitate long-term potentiation in the hippocampus

Author(s) -

Garry Whitehead,

Jihoon Jo,

Ellen L. Hogg,

Thomas M. Piers,

Dong-Hyun Kim,

Gillian Seaton,

Heon Seok,

Gilles Bru–Mercier,

Gi Hoon Son,

Philip Regan,

Lars Hildebrandt,

Eleanor Waite,

Byeong C. Kim,

Talitha L. Kerrigan,

Kyungjin Kim,

Daniel J. Whitcomb,

Graham L. Collingridge,

Stafford L. Lightman,

Kwangwook Cho

Publication year - 2013

Publication title -

brain

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.142

H-Index - 336

eISSN - 1460-2156

pISSN - 0006-8950

DOI - 10.1093/brain/awt293

Subject(s) - long term potentiation , ampa receptor , nmda receptor , hippocampus , neuroscience , long term depression , hippocampal formation , glutamate receptor , receptor , synaptic plasticity , effects of stress on memory , chronic stress , medicine , chemistry , biology , memory consolidation

The neuroendocrine response to episodes of acute stress is crucial for survival whereas the prolonged response to chronic stress can be detrimental. Learning and memory are particularly susceptible to stress with cognitive deficits being well characterized consequences of chronic stress. Although there is good evidence that acute stress can enhance cognitive performance, the mechanism(s) for this are unclear. We find that hippocampal slices, either prepared from rats following 30 min restraint stress or directly exposed to glucocorticoids, exhibit an N-methyl-d-aspartic acid receptor-independent form of long-term potentiation. We demonstrate that the mechanism involves an NMDA receptor and PKA-dependent insertion of Ca2+ -permeable AMPA receptors into synapses. These then trigger the additional NMDA receptor-independent form of LTP during high frequency stimulation.

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