Acid-sensing ion channel 1a regulates the specificity of reconsolidation of conditioned threat responses
Erin E. Koffman, Charles M. Kruse, Kritika Singh, Farzaneh Sadat Naghavi, Melissa A. Curtis, Jennifer Egbo, Mark Houdi, Boren Lin, Hui Lu, Jacek Debiec, Jianyang Du
Erin E. Koffman, Charles M. Kruse, Kritika Singh, Farzaneh Sadat Naghavi, Melissa A. Curtis, Jennifer Egbo, Mark Houdi, Boren Lin, Hui Lu, Jacek Debiec, Jianyang Du
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Research Article Neuroscience

Acid-sensing ion channel 1a regulates the specificity of reconsolidation of conditioned threat responses

Abstract

Recent research on altering threat memory has focused on a reconsolidation window. During reconsolidation, threat memories are retrieved and become labile. Reconsolidation of distinct threat memories is synapse dependent, whereas the underlying regulatory mechanism of the specificity of reconsolidation is poorly understood. We designed a unique behavioral paradigm in which a distinct threat memory can be retrieved through the associated conditioned stimulus. In addition, we proposed a regulatory mechanism by which the activation of acid-sensing ion channels (ASICs) strengthens the distinct memory trace associated with the memory reconsolidation to determine its specificity. The activation of ASICs by CO2 inhalation, when paired with memory retrieval, triggers the reactivation of the distinct memory trace, resulting in greater memory lability. ASICs potentiate the memory trace by altering the amygdala-dependent synaptic transmission and plasticity at selectively targeted synapses. Our results suggest that inhaling CO2 during the retrieval event increases the lability of a threat memory through a synapse-specific reconsolidation process.

Authors

Erin E. Koffman, Charles M. Kruse, Kritika Singh, Farzaneh Sadat Naghavi, Melissa A. Curtis, Jennifer Egbo, Mark Houdi, Boren Lin, Hui Lu, Jacek Debiec, Jianyang Du

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Figure 5

Blockage of ASIC1a in the amygdala reduces the CO2 effects on selective memory retrieval.

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Blockage of ASIC1a in the amygdala reduces the CO2 effects on selective ...
(A) Schematic protocol for the threat conditioning, PcTX-1 injection, memory retrieval, extinction, memory test–Spon Rec, and renewal. One day after conditioning, the mice were injected with 100 nM PcTX-1 or saline; then the mice were placed in context B and subjected to both tone and noise as retrieval events with or without CO2 followed by extinction and memory test. (BE) Data are presented by the percentage of freezing time during the CSs (tone and noise) in threat conditioning (B), retrievals (tone plus CO2 inhalation and noise) after saline injection in the amygdala (C), 2 sections of extinction with tone (D), Spon Rec and renewal with tone and noise (E), n = 12 mice in each group. (FI) Data are presented by the percentage of freezing time during the CSs (tone and noise) in threat conditioning (F), retrievals (tone plus CO2 inhalation and noise) after PcTx-1 injection in the amygdala (G), 2 sections of extinction with tone (H), Spon Rec and renewal with tone and noise (I), n = 11 mice in each group. (J and K) Comparison data based on Spon Rec and renewal, respectively, from E and I. Data are mean ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001, by 2-tailed paired Student’s t test (E and I) or 1-way ANOVA with Tukey’s post hoc multiple-comparison test (J and K).