Differential stress induced c-Fos expression and identification of region-specific miRNA-mRNA networks in the dorsal raphe and amygdala of high-responder/low-responder rats

Cohen, Joshua L.; Ata, Anooshah E.; Jackson, Nateka L.; Rahn, Elizabeth J.; Ramaker, Ryne C.; Cooper, Sara J.; Kerman, Ilan A.; Clinton, Sarah M.

doi:10.1016/j.bbr.2016.11.015

Cited by 36 publications

(43 citation statements)

References 82 publications

(94 reference statements)

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“…Alterations in these genes could potentially contribute to the observed HR/LR neurophysiological differences and/or may be involved in known behavioral differences. For instance, recent studies have associated increased expression of GRM5 with positive stress coping and resilience (Piers et al, ; Sun et al, ), so it is conceivable that HR rats' increased GRM5 levels relative to LRs may be associated with their proactive coping styles (Cohen et al, ). Additionally, the increased GRM5 levels in HR rats may contribute to other neurophysiological differences, such as changes in mGluR dependent LTD. Other studies have demonstrated enhanced mGluR dependent LTD in young, congenitally learned helpless rats (Pignatelli et al, ) and after acute treatment with corticosterone (Chaouloff, Hemar, & Manzoni, ), suggesting high mGluR receptor activation in animals with more depressive‐like behaviors.…”

Section: Discussionmentioning

confidence: 99%

“…These observed HR/LR differences in coping during the active avoidance task are consistent with several previous observations of disparate HR versus LR stress coping style. HR rats generally display a proactive response to stress, such as low immobility in the FST (Clinton et al, ; Cohen et al, ; Garcia‐Fuster et al, ; Glover et al, ; Stedenfeld et al, ), high aggression in the resident‐intruder test (Kerman et al, ), and high levels of probe burying behavior in the defensive burying task (Cohen et al, ). LR rats, on the other hand, consistently display “reactive coping” behavior, showing high FST immobility, low aggression, and high levels of freezing and almost no time burying the probe in the Defensive burying task.…”

Section: Discussionmentioning

confidence: 99%

“…Here we found that LRs generally displayed more freezing behavior over both days (b), but showed similar amounts of rearing relative to HRs (c). Data represent mean percent time freezing ± SEM; * indicates p-value <.05 associated with their proactive coping styles (Cohen et al, 2017).…”

Section: Distinct Ltp and Expression Of Synaptic Plasticity-relatedmentioning

confidence: 99%

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Rats bred for high anxiety exhibit distinct fear‐related coping behavior, hippocampal physiology, and synaptic plasticity‐related gene expression

et al. 2019

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The hippocampus is essential for learning and memory but also regulates emotional behavior. We previously identified the hippocampus as a major brain region that differs in rats bred for emotionality differences. Rats bred for low novelty response (LRs) exhibit high levels of anxiety‐ and depression‐like behavior compared to high novelty responder (HR) rats. Manipulating the hippocampus of high‐anxiety LR rats improves their behavior, although no work to date has examined possible HR/LR differences in hippocampal synaptic physiology. Thus, the current study examined hippocampal slice electrophysiology, dendritic spine density, and transcriptome profiling in HR/LR hippocampus, and compared performance on three hippocampus‐dependent tasks: The Morris water maze, contextual fear conditioning, and active avoidance. Our physiology experiments revealed increased long‐term potentiation (LTP) at CA3–CA1 synapses in HR versus LR hippocampus, and Golgi analysis found an increased number of dendritic spines in basal layer of CA1 pyramidal cells in HR versus LR rats. Transcriptome data revealed glutamate neurotransmission as the top functional pathway differing in the HR/LR hippocampus. Our behavioral experiments showed that HR/LR rats exhibit similar learning and memory capability in the Morris water maze, although the groups differed in fear‐related tasks. LR rats displayed greater freezing behavior in the fear‐conditioning task, and HR/LR rats adopted distinct behavioral strategies in the active avoidance task. In the active avoidance task, HRs avoided footshock stress by pressing a lever when presented with a warning cue; LR rats, on the other hand, waited until footshocks began before pressing the lever to stop them. Taken together, these findings concur with prior observations of HR rats generally exhibiting active stress coping behavior while LRs exhibit reactive coping. Overall, our current findings coupled with previous work suggest that HR/LR differences in stress reactivity and stress coping may derive, at least in part, from differences in the developing and adult hippocampus.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Rats bred for high anxiety exhibit distinct fear‐related coping behavior, hippocampal physiology, and synaptic plasticity‐related gene expression

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“…Previous studies also show that stress-induced c-Fos activation in CeA may be predictive of coping strategy. For example, rats selectively bred for high freezing and low defensive burying behaviors when presented with a shock probe (low novelty responding rats; passive/reactive copers) show more CeA c-Fos activation following footshocks than their low freezing/high defensive burying counterparts (high novelty responding rats; active copers) [29]. Here, we found that Avoiders have more c-Fos+ cells in CeA than Non-Avoiders, Controls, and Single Stress rats not indexed for avoidance, and that the number of CeA c-Fos+ cells is positively correlated with avoidance of the predator odor-paired context (Fig.…”

Section: Discussionmentioning

confidence: 99%

The Role of Central Amygdala Corticotropin-Releasing Factor in Predator Odor Stress-Induced Avoidance Behavior and Escalated Alcohol Drinking in Rats

Weera

Schreiber

Avegno

et al. 2019

Preprint

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Post-traumatic stress disorder (PTSD) is characterized by avoidance of trauma-associated stimuli and amygdala hyperreactivity, and is highly co-morbid with alcohol use disorder (AUD). Our lab uses a predator odor (bobcat urine) stress model that produces conditioned avoidance of an odorpaired context in a subset of rats, mirroring avoidance symptoms that manifest in some but not all humans exposed to trauma. We previously showed that after predator odor stress, Avoiders exhibit escalated alcohol drinking, higher aversion-resistant operant alcohol responding, hyperalgesia, and greater anxiety-like behavior compared to unstressed Controls. We also showed that systemic antagonism of corticotropin-releasing factor-1 receptors (CRFR1) reduced escalation of alcohol drinking in rats not indexed for avoidance, that corticotropin-releasing factor (CRF) infusions into the central amygdala (CeA) produced conditioned place avoidance in stressnaïve rats, and that intra-CeA infusion of a CRFR1 antagonist reduced hyperalgesia in Avoiders.Here, we show that avoidance behavior is persistent after repeated predator odor exposure and is resistant to extinction. In addition, Avoiders showed lower weight gain than Controls after predator odor re-exposure. In the brain, higher avoidance was correlated with higher number of c-Fos+ cells and CRF immunoreactivity in the CeA. Finally, we show that intra-CeA CRFR1 antagonism reversed post-stress escalation of alcohol drinking and reduced avoidance behavior in Avoiders. Collectively, these findings suggest that elucidation of the mechanisms by which CRFR1-gated CeA circuits regulate avoidance behavior and alcohol drinking may lead to better understanding of the neural mechanisms underlying co-morbid PTSD and AUD.

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“…We focused our analyses on the basolateral amygdala (BLA) because of the known contribution of this region to fear learning and memory storage at remote time points [16][17][18][19] We recently demonstrated that exposure to a single acute stressor (120 minutes of restraint stress) induces a change in the molecular profile of the BLA, including differential expression of 18 miRNAs an entire month after stress [5]. Differential miRNA expression has also been reported in the serum of patients with PTSD [20] [21] and between rats selectively bred for high or low stress reactivity [22]. The behavioral consequences of stress exposure have also been linked to miRNA function in the amygdala in several reports.…”

Section: Introductionmentioning

confidence: 99%

microRNA mir-598-3p mediates susceptibility to stress-enhancement of remote fear memory

Jones

Sillivan

Jamieson

et al. 2019

Preprint

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Number of words in abstract: 214Number of words in main text: 5,913Running title: BLA mir-598-3p supports stress-enhanced memory ABSTRACT microRNAs (miRNAs) have emerged as potent regulators of learning, recent memory and extinction. However, our understanding of miRNAs directly involved in regulating complex psychiatric conditions perpetuated by aberrant memory, such as in posttraumatic stress disorder (PTSD), remains limited. To begin to address the role of miRNAs in persistent memory, we performed small-RNA sequencing on basolateral amygdala (BLA) tissue to identify miRNAs altered by auditory fear conditioning (FC) one month after training. mir-598-3p, a highly conserved miRNA previously unstudied in the brain, was downregulated in the BLA. Further decreasing BLA mir-598-3p levels did not alter the expression or extinction of the remote fear memory. Given that stress is a critical component in PTSD, we next assessed the impact of stress-enhanced fear learning (SEFL) on mir-598-3p levels, finding the miRNA is elevated in the BLA of male, but not female, mice susceptible to the effects of stress in SEFL. Accordingly, intra-BLA inhibition of mir-598-3p interfered with expression and extinction of the remote fear memory in male, but not female, mice. This effect could not be attributed to an anxiolytic effect of miRNA inhibition. Finally, bioinformatic analysis following quantitative proteomics on BLA tissue collected 30 days post-SEFL training identified putative mir-598-3p targets and related pathways mediating the differential susceptibility, with evidence for regulation of the actin cytoskeleton.

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Differential stress induced c-Fos expression and identification of region-specific miRNA-mRNA networks in the dorsal raphe and amygdala of high-responder/low-responder rats

Cited by 36 publications

References 82 publications

Rats bred for high anxiety exhibit distinct fear‐related coping behavior, hippocampal physiology, and synaptic plasticity‐related gene expression

Rats bred for high anxiety exhibit distinct fear‐related coping behavior, hippocampal physiology, and synaptic plasticity‐related gene expression

The Role of Central Amygdala Corticotropin-Releasing Factor in Predator Odor Stress-Induced Avoidance Behavior and Escalated Alcohol Drinking in Rats

microRNA mir-598-3p mediates susceptibility to stress-enhancement of remote fear memory

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