Reactivation of Fear Memory Renders Consolidated Amygdala Synapses Labile

Authors
Kim, JeongyeonSong, BeomjongHong, IngieKim, JihyeLee, JunukPark, SungmoEom, Jae YongLee, C. JustinLee, SukwonChoi, Sukwoo
Issue Date
2010-07-14
Publisher
SOC NEUROSCIENCE
Citation
JOURNAL OF NEUROSCIENCE, v.30, no.28, pp.9631 - 9640
Abstract
It is believed that memory reactivation transiently renders consolidated memory labile and that this labile or deconsolidated memory is reconsolidated in a protein synthesis-dependent manner. The synaptic correlate of memory deconsolidation upon reactivation, however, has not been fully characterized. Here, we show that 3,5-dihydroxyphenylglycine (DHPG), an agonist for group I metabotropic glutamate receptors (mGluRI), induces synaptic depotentiation only at thalamic input synapses onto the lateral amygdala (T-LA synapses) where synaptic potentiation is consolidated, but not at synapses where synaptic potentiation is not consolidated. Using this mGluRI-induced synaptic depotentiation (mGluRI-depotentiation) as a marker of consolidated synapses, we found that mGluRI-depotentiation correlated well with the state of memory deconsolidation and reconsolidation in a predictable manner. DHPG failed to induce mGluRI-depotentiation in slices prepared immediately after reactivation when the reactivated memory was deconsolidated. DHPG induced mGluRI-depotentiation 1 h after reactivation when the reactivated memory was reconsolidated, but it failed to do so when reconsolidation was blocked by a protein synthesis inhibitor. To test the memory-specificity of mGluRI-depotentiation, conditioned fear was acquired twice using two discriminative tones (2.8 and 20 kHz). Under this condition, mGluRI-depotentiation was fully impaired in slices prepared immediately after reactivation with both tones, whereas mGluRI-depotentiation was partially impaired immediately after reactivation with the 20 kHz tone. Consistently, microinjection of DHPG into the LA 1 h after reactivation reduced fear memory retention, whereas DHPG injection immediately after reactivation failed to do so. Our findings suggest that, upon memory reactivation, consolidated T-LA synapses enter a temporary labile state, displaying insensitivity to mGluRI-depotentiation.
Keywords
LONG-TERM POTENTIATION; RIBOTOXIC STRESS-RESPONSE; ACTIVATED PROTEIN-KINASE; LATERAL AMYGDALA; INPUT SYNAPSES; RECONSOLIDATION; DEPOTENTIATION; EXTINCTION; REVERSAL; LTP; LONG-TERM POTENTIATION; RIBOTOXIC STRESS-RESPONSE; ACTIVATED PROTEIN-KINASE; LATERAL AMYGDALA; INPUT SYNAPSES; RECONSOLIDATION; DEPOTENTIATION; EXTINCTION; REVERSAL; LTP
ISSN
0270-6474
URI
https://pubs.kist.re.kr/handle/201004/131257
DOI
10.1523/JNEUROSCI.0940-10.2010
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KIST Article > 2010
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