Shaowen Tian

Rapid eye movement sleep deprivation selectively impairs recall of fear extinction in hippocampus-independent tasks in rats.

Previous studies have shown that rapid eye movement (REM) sleep deprivation (RSD) exerts a detrimental effect on some memory tasks. However, whether post-learning RSD impairs memory for fear extinction, an important model of inhibitory learning, remains to be elucidated. The present study examined the effects of post-extinction RSD from 0 to 6 h and 6 to 12 h on recall of fear extinction tested 24 h after extinction training. We found that RSD from 0 to 6 h significantly increased freezing when recall of extinction of cued fear was tested in the context in which rats received extinction training whereas RSD from 6 to 12 h had no effect (experiments 1 and 2, two hippocampus-independent memory tasks). RSD at either time point had no effect on freezing when recall of extinction of cued fear was tested in the context different from that in which extinction training occurred (experiment 3, a hippocampus-dependent memory task). Additionally, we observed no effect of RSD at either time point on freezing during recall test for extinction of contextual fear (experiment 4, a hippocampus-dependent memory task). These results suggest that the effects of post-extinction RSD on memory for fear extinction are complex. RSD impairs recall of fear extinction in hippocampus-independent tasks, but does not affect recall of fear extinction in hippocampus-dependent tasks. Our findings extend previous research on the effects of RSD on learning and memory and support the notion that REM sleep is involved in memory process of certain tasks.

Prior chronic nicotine impairs cued fear extinction but enhances contextual fear conditioning in rats

Clinical observations have shown a link for the high comorbid rate between smoking and psychiatric disorders, including anxiety disorders. However, little is known about the neural mechanism underlying the progression from nicotine dependence to an anxiety disorder. A deficit in fear extinction in general is considered to contribute to anxiety disorders. The aim of the present study is to investigate the effects of chronic nicotine on fear extinction in rats. Rats were administrated s.c. nicotine twice per day for 14 days. Two weeks after the last injection rats received a cued or contextual fear conditioning session. Twenty-four hours and 48 h after conditioning, rats received an extinction training session and an extinction test session, respectively. Percent freezing was assessed during all phases of training. In the cued task, prior chronic nicotine did not affect the acquisition of fear response or the within-session fear extinction, but impaired the between-session fear extinction. In the contextual task, the same nicotine treatment schedule did not affect the acquisition of fear response or the within- and between-session fear extinction, but enhanced the retention of fear conditioning. This prior chronic nicotine-induced deficit in cued fear extinction and/or enhanced fear to context may be one of the critical components that contribute to the progression from nicotine dependence to an anxiety disorder.

Antidepressant- and anxiolytic effects of the novel melatonin agonist Neu-P11 in rodent models

AbstractAim:To investigate the potential antidepressant and anxiolytic effects of Neu-P11, a novel melatonin agonist, in two models of depression in rats and a model of anxiety in mice.Methods:In the learned helplessness test (LH), Neu-P11 or melatonin (25–100 mg/kg, ip) was administered to rats 2 h before the beginning of the dark phase once a day for 5 days and the number of escape failures and intertrial crossings during the test phase were recorded. In the forced swimming test (FST), rats received a single or repeated administration of Neu-P11 (25–100 mg/kg, ip). The total period of immobility during the test phase was assessed. In the elevated plus-maze test (EPM), mice were treated with Neu-P11 (25–100 mg/kg, ip) or melatonin in the morning or in the evening and tested 2 h later. The percentage of time spent in the open arms and the open arms entries were assessed.Results:In the LH test, Neu-P11 but not melatonin significantly decreased the escape deficit and had no effect on the intertrial crossings. In the FST, a single or repeated administration of Neu-P11, either in the morning or in the evening, significantly decreased the duration of immobility. In the EPM test, Neu-P11 significantly increased the percentage of time spent in the open arms and the open arms entries irrespective to the time of administration. Melatonin was effective only when administered in the afternoon.Conclusion:The results demonstrate that Neu-P11 exerts antidepressant and anxiolytic activities in rodent models.

Nicotine enhances contextual fear memory reconsolidation in rats.

There is increasing evidence that nicotine is involved in learning and memory. However, there remains no study that has explored the relationship between nicotine and memory reconsolidation. At present study, we tested the effects of nicotine on the reconsolidation of contextual fear memory in rats. Behavior procedure involved four training phases: habituation (Day 0), fear conditioning (Day 1), reactivation (Day 2) and test (Day 3). Rats were injected saline or nicotine (0.25, 0.5 and 1.0mg/kg) immediately after reactivation. Percent of time spent freezing was used to measure conditioned fear response. Results showed that compared with saline rats, rats with nicotine at 1.0mg/kg presented a significant increase of freezing response on Day 3. Nicotine at 1.0mg/kg was ineffective when injected 6h after reactivation. Further results showed that the enhancement of freezing response induced by nicotine at 1.0mg/kg was dependent on fear memory reconsolidation, and was not attributed to an enhancement of the nonspecific freezing response 24h after nicotine administration. The results suggest that nicotine administration immediately after reactivation enhances contextual fear memory reconsolidation. Our present finding extends previous research on the nicotinic effects on learning and memory.

Dynamic changes in orbitofrontal neuronal activity in rats during opiate administration and withdrawal

The orbitofrontal cortex is involved in the reinforcing effects of drugs of abuse. However, how the dynamic activity in OFC changes during opiate administration and withdrawal period has not been investigated. We first tested the effects of opiates and drug craving with the conditioned place preference paradigm, using manganese-enhanced magnetic resonance imaging and traditional electroencephalograph recording techniques in rats. T1-weighted 2D MRI (4.7 T) was used after unilateral injection of MnCl(2) (200 nL, 80 mM) into the right orbitofrontal cortex. The manganese-enhanced magnetic resonance imaging data suggested that the OFC activity decreased during the opiate administration period but recovered increasingly during the withdrawal period. Also, we found decreases and increases in gamma-band (20-100 Hz) activity during the opiate administration and withdrawal period, respectively. Our results showed that orbitofrontal cortex activity decreased during morphine administration and then went up progressively over several days during withdrawal. The time course of the recovery of orbitofrontal activity from inhibition during the withdrawal period may be related to the experience of drug craving.

Chronic morphine selectively impairs cued fear extinction in rats: implications for anxiety disorders associated with opiate use.

Previous studies have shown that opioid transmission plays an important role in learning and memory. However, little is known about the course of opiate-associated learning and memory deficits after cessation of chronic opiate use in a behavioral animal model. In the present study, we examined the effects of chronic morphine on fear extinction, an important preclinical model for behavior therapy of human anxiety disorders. Rats were administrated subcutaneously morphine hydrochloride or saline twice per day for continuous 10 days. Rats received a cued or contextual fear conditioning session 7 days after the last morphine injection. During subsequent days, rats received four cued or contextual extinction sessions (one session per day). Percent freezing was assessed during all phases of training. Chronic morphine did not affect the acquisition of cued fear response or the initial encoding of extinction memory within each session, but produced an impairment in the between-session extinction. However, the same morphine treatment schedule did not affect the acquisition or extinction of contextual fear response. These results suggest that the effects of chronic morphine on memory for fear extinction are complex. Chronic morphine selectively impairs extinction of cued fear response. This deficit in fear extinction may be one of those critical components that contribute to the high prevalence of anxiety disorders in opiate addicts.

Rapid eye movement sleep deprivation disrupts consolidation but not reconsolidation of novel object recognition memory in rats

There is increasing evidence that sleep plays a critical role in memory consolidation. However, there are comparatively few studies that have assessed the relationship between sleep and memory reconsolidation. In the present study, we explored the effects of rapid eye movement sleep deprivation (RSD) on the consolidation (experiment 1) and reconsolidation (experiment 2) of novel object recognition memory in rats. In experiment 1 behavioral procedure involved two training phases: sample and test. Rats were subjected to 6h RSD starting either immediately after sample (exposed to 2 objects) or 6h later. In experiment 2 behavioral procedure involved three training phases: sample, reactivation and test. Rats were subjected to 6h RSD starting either immediately after reactivation (exposed to the same 2 sample objects to reactivate the memory trace) or 6h later. Results from experiment 1 showed that post-sample RSD from 0 to 6h but not 6 to 12h disrupted novel object recognition memory consolidation. However, we found that post-reactivation RSD whether from 0 to 6h or 6 to 12h had no effect on novel object recognition memory reconsolidation in experiment 2. The results indicated that RSD selectively disrupted consolidation of novel object recognition memory, suggesting a dissociation effect of RSD on consolidation and reconsolidation.

Apelin-13 Protects PC12 Cells from Corticosterone-Induced Apoptosis Through PI3K and ERKs Activation

It is widely accepted that environmental stress is a risk factor for mental disorders. Glucocorticoid hormones play a vital role in the regulation of physiological response to stress. High concentrations of corticosterone can induce cellular damage in PC12 cells, which possess typical neuronal features. Apelin and its receptor APJ are widely distributed in the central nervous system including limbic structures involved in stress responses. Previous studies have suggested that apelin has a neuroprotective function. However, the effect of apelin on corticosterone-induced neuronal damage remains to be elucidated. In the present study, we explored the potential protective activity of apelin-13 in PC12 cells treated with corticosterone and its underling mechanisms. The viability of the cells, the apoptosis of the cells, the level of phosphorylation of Akt (p-Akt) and extracellular signal-regulated kinases (p-ERKs) and cleaved caspase-3 expression were detected by MTT, Hoechst staining and flow cytometer assays and Western blotting. Results showed that corticosterone induced cells viability loss, cell apoptosis, down-regulation of p-Akt and p-ERKs and up-regulation of cleaved caspase-3. The effects induced by corticosterone were attenuated by apelin-13 pretreatment. Furthermore, apelin-13-mediated anti-viability loss, antiapoptosis and caspase-3 suppression activities were blocked by specific inhibitors of phosphatidylinositol 3-kinase (PI3K) (LY294002) and ERKs (PD98059). The data suggest that apelin-13 protects PC12 cells from corticosterone-induced apoptosis through activating PI3K/Akt and ERKs signaling pathways.

Ventrolateral prefrontal cortex is required for fear extinction in a modified delay conditioning paradigm in rats

Recent evidence has demonstrated that the ventromedial prefrontal cortex (vmPFC) is a critical site of the neural circuits underlying fear extinction memory. The ventrolateral prefrontal cortex (vlPFC) is not directly involved in extinction processes within the aversive domain. However, most of the current cumulated data on extinction is based on a classical delay fear conditioning paradigm in which the interval between the onset of the conditioned stimulus (CS) and the unconditioned stimulus (US) is consistent in a given protocol. In the present study, we developed a modified delay fear conditioning paradigm in which the temporal distribution of the footshock US during the duration of the tone CS is programmed to be pseudorandom. Here, we examined the effects of electrolytic vmPFC and vlPFC lesions made before training on conditioned fear response in the modified paradigm. The behavioral procedure involved four sessions with a 24-h interval: habituation, fear conditioning, extinction training, and extinction test. Percent freezing to tone was assessed as a measure of conditioned fear response. The results show that neither vmPFC nor vlPFC lesions affect acquisition or extinction of conditioned fear response during the fear conditioning and extinction training sessions, respectively. During the extinction test session, both vmPFC- and vlPFC-lesioned rats showed deficits in the recall of the between-session extinction memory. The deficits could not be attributed to altered nonspecific responses (footshock sensitivity, locomotor activity, and nonspecific freezing response). Furthermore, vlPFC lesions made before training had no effect on conditioned fear response in the classical fear conditioning paradigm. These data suggest a preserved role of the vmPFC in fear extinction and a selective involvement of the vlPFC in extinction process in certain fear conditioning tasks.

Rapid eye movement sleep deprivation does not affect fear memory reconsolidation in rats

There is increasing evidence that sleep may be involved in memory consolidation. However, there remain comparatively few studies that have explored the relationship between sleep and memory reconsolidation. At present study, we tested the effects of rapid eye movement sleep deprivation (RSD) on the reconsolidation of cued (experiment 1) and contextual (experiment 2) fear memory in rats. Behaviour procedure involved four training phases: habituation, fear conditioning, reactivation and test. Rats were subjected to 6h RSD starting either immediately after reactivation or 6h later. The control rats were returned to their home cages immediately after reactivation and left undisturbed. Contrary to those hypotheses speculating a potential role of sleep in reconsolidation, we found that post-reactivation RSD whether from 0 to 6h or 6 to 12h had no effect on the reconsolidation of both cued and contextual fear memory. However, our present results did not exclude the potential roles of non-rapid eye movement sleep in the reconsolidation of fear memory or sleep in the reconsolidation of other memory paradigms.