Grin1 receptor deletion within CRF neurons enhances fear memory.

Georgette Gafford,Aaron M Jasnow,Kerry J Ressler,Andrey E Ryabinin

doi:10.1371/journal.pone.0111009

Georgette Gafford, Aaron M Jasnow + Show 2 more

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https://doi.org/10.1371/journal.pone.0111009

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Journal: PloS one	Publication Date: Oct 23, 2014
Citations: 72	License type: CC BY 4.0

Affiliation: Emory University, Kent State University

Abstract

Corticotropin releasing factor (CRF) dysregulation is implicated in mood and anxiety disorders such as posttraumatic stress disorder (PTSD). CRF is expressed in areas engaged in fear and anxiety processing including the central amygdala (CeA). Complicating our ability to study the contribution of CRF-containing neurons to fear and anxiety behavior is the wide variety of cell types in which CRF is expressed. To manipulate specific subpopulations of CRF containing neurons, our lab has developed a mouse with a Cre recombinase gene driven by a CRF promoter (CRFp3.0Cre) (Martin et al., 2010). In these studies, mice that have the gene that encodes NR1 (Grin1) flanked by loxP sites (floxed) were crossed with our previously developed CRFp3.0Cre mouse to selectively disrupt Grin1 within CRF containing neurons (Cre+/fGrin1+). We find that disruption of Grin1 in CRF neurons did not affect baseline levels of anxiety, locomotion, pain sensitivity or exploration of a novel object. However, baseline expression of Grin1 was decreased in Cre+/fGrin1+ mice as measured by RTPCR. Cre+/fGrin1+ mice showed enhanced auditory fear acquisition and retention without showing any significant effect on fear extinction. We measured Gria1, the gene that encodes AMPAR1 and the CREB activator Creb1 in the amygdala of Cre+/fGrin1+ mice after fear conditioning. Both Gria1 and Creb1 were enhanced in the amygdala after training. To determine if the Grin1-expressing CRF neurons within the CeA are responsible for the enhancement of fear memory in adults, we infused a lentivirus with Cre driven by a CRF promoter (LV pCRF-Cre/fGrin1+) into the CeA of floxed Grin1 mice. Cre driven deletion of Grin1 specifically within CRF expressing cells in the CeA also resulted in enhanced fear memory acquisition and retention. Altogether, these findings suggest that selective disruption of Grin1 within CeA CRF neurons strongly enhances fear memory.

Highlights

Fear-related disorders such as posttraumatic stress disorder (PTSD) are marked by enhanced fear memory and resistance to fear extinction [1,2,3,4]
We found that knockdown of Grin1 in corticotropin-releasing factor (CRF) containing neurons decreases the expression of Grin1 in the amygdala and enhances fear memory formation and retention without effecting anxiety, activity level, pain sensitivity or novelty seeking behaviors
Previous work has shown that Grin1 receptors in the central amygdala have a role in synaptic plasticity [17] and acquisition of fear memory [5,18], but are not engaged during fear extinction [19]

Summary

Introduction

Fear-related disorders such as posttraumatic stress disorder (PTSD) are marked by enhanced fear memory and resistance to fear extinction [1,2,3,4]. Pavlovian fear conditioning and fear extinction provide ideal tools to model fear memory processes and define new treatments for anxiety disorders such as PTSD. Fear extinction is an inhibitory learning process where the CS is presented alone without the US, resulting in a gradual decrease in the conditioned fear response (CR). The CeA includes a population of corticotropin-releasing factor (CRF) peptide containing neurons [6]. This population of CRF neurons in the CeA is of interest because they have been implicated in learning and memory [7], and are activated in response to a variety of stressors [8,9,10]. High levels of CRF have been found in the cerebrospinal fluid of those diagnosed with PTSD, with the highest CRF levels correlated with the greatest symptom severity [11,12]

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