The systemic effects of the enriched environment on the conditioned fear reaction

In this review, a hypothesis is proposed to explain the beneficial effect of an enriched environment (EE) on the conditioned fear reaction (CFR) from the perspective of a functional system of behavioral control. According to the hypothesis, the EE affects all behavioral act components, including the processing of sensory information, memory, motivational and reinforcing systems, and motor activities, which weakens the CFR. Animals raised in the EE have effects that are comparable to those of context (CTX) and CS pre-exposures at latent inhibition. An abundance of stimuli in the EE and constant contact with them provide the formation of CS-noUS and CTX-noUS connections that later, during CFR learning, slow down and diminish fear. The EE also contributes to faster processing of information and habituation to it. As a result, many stimuli in the context lose their significance, and subjects simply ignore them. And finally, the EE affects the motivational and reinforcing brain mechanisms, induces an impairment of search activity, and worsens memory consolidation, which leads to a reduction of CFR.

The influence of long-term housing in enriched environment on behavior of normal rats and subjected to neonatal pro-inflammatory challenge

It is well known that neonatal pro-inflammatory challenge (NPC) acquire a predisposition to the development of a number of neuropsychiatric diseases: depression, anxiety disorders, autism, attention deficit hyperactivity disorder. Symptoms of these diseases can manifest themselves in adulthood and adolescent after repeated exposure to negative influences. Preventing the development of the negative consequences of NPC is one of the main tasks for researchers. The exposure to an enriched environment (EE) was shown to have anxiolytic, anti-depressive, and pro-cognitive effects. The present work was aimed to investigate the effects of the long-term EE on anxious-depressive and conditioned fear behavior in normal male and female rats and subjected to NPC. The NPC was induced by subcutaneous administration of lipopolysaccharide (LPS, 50 μg/kg) on 3d and 5th PNDs. The control animals received saline (SAL). The rats were placed in the EE from 25 to 120 PND. Animals housed in the standard conditions (STAND) served as controls. In adult female and male rats of the STAND groups, LPS did not affect the anxiety, depressive-like behavior and conditioned fear. The EE increased motor and search activity in males and females. In the open field, the EE reduced anxiety in males of the SAL and LPS groups and in females of SAL groups compared to the STAND housed animals. In the elevated plus maze, the EE decreased anxiety only in males of the SAL group. In the sucrose preference test, the EE did not change sucrose consumption in males and females of SAL and LPS groups, while, in the forced swimming test, the EE reduced depressive-like behavior in females of both SAL and LPS groups. The enrichment decreased the contextual conditioned fear in male and female of SAL groups, but not of the LPS group, and did not affect the cue conditioned fear. The corticosterone reactivity to the forced swimming stress increased in males of the EE groups. The basal level of IL-1beta in blood serum decreased in males of the SAL-EE group. Thus, the EE reduced anxiety in males, depressive-like behavior in females, and contextual conditioned fear in males and females compared to the STAND housed animals. Although the NPC did not affect these behaviors in the STAND groups, LPS prevented the beneficial EE effects on anxiety and conditioned fear. The opposing effects of LPS were dependent on sex and type of testing.

Acute and Chronic Lipopolysaccharide-Induced Stress Changes Expression of Proinflammatory Cytokine Genes in the Rat Brain Region-Specifically and Affects Learning and Memory

Goal of the current work was to conduct comparative analysis of the effects of acute and chronic lipopolysaccharide-induced stress on the behavior of rats in the Morris water maze test and on expression of mRNA of proinflammatory cytokines and BDNF in different brain structures. Relevance of this study is related to poor understanding of the effects of acute and chronic stress on manifestation of cognitive brain functions, as well as ambiguity of the literature data on the effects of both stresses on hypothalamic pituitary axis and expression of the proinflammatory cytokine genes. In the experiments with rats, acute lipopolysaccharide (LPS)-induced stress improved learning in the Morris water maze. For the period of learning, the rats under acute stress swam on average less distance to reach a hidden platform, spent less time in the peripheral zone of the pool (thigmotaxis), and had low speed compared to the control animals and to the group of rats under chronic LPS-induced stress. In the test without a platform in the pool there were no significant differences between the groups on the time spent in the platform quadrant and distance swum. Acute stress caused substantial increase of the TNF-α and IL-1β mRNA concentrations in the hippocampus and amygdala, but not in the frontal lobe in comparison with the control animals. Although chronic stress increased the levels of the TNF-α and IL-1β mRNA in the amygdala and hippocampus compared to the control groups, significance between the groups was only marginal and BDNF concentration did not differ from the control animals in any of the brain structures mentioned. Expression of the IL-6 mRNA only marginally increased in the amygdala of the animals under the acute LPS-induced stress and marginally decreased in the animals under chronic LPS stress in the hippocampus relative to the control groups. In total, the most pronounced molecular-biochemical changes occurred in the amygdala and hippocampus, where increase of the expression of the TNF-α and IL-1β interleukins mRNAs were observed in the animals under acute and chronic LPS-induced stress and no changes in the BDNF mRNA concentration were observed in the frontal lobe.

[Impulsive Choice Improves the Cue Memory at an 8-arms Radial Maze Learning in Rats]

At the process of learning in an 8-arm radial maze the impulsive animals found the reinforced arms and ate the pellets faster, than self-control and ambivalent rats. They committed less working memory errors at the cue memory task, though there was no difference in the rate of learning and a number of errors of reference memory in animals of different groups. During reversion learning at the change of reinforced arms on unre- inforced, and vice versa, the impulsive animals spent less time to enter into the reinforced arms compared to other groups. They had fewer errors of cue working and reference memory, but the rate of learning was the same as in other groups. The date obtained indicate that in the impulsive rats in comparison with the other groups of animals are stronger the general motor activity and better the working memory.

[Propranolol Impairs Memory Reconsolidation at Single and Multiple Paired with Tone Painful Electrocutaneous Stimulations]

In the current paper there were used two methods for assessment of the propranolol effect on reactivated memory at reconsolidation phase--a classical pavlovian conditioning and the two-ways escape reflex. The difference between these two models was that in the first case a tone was paired with electrocutaneous painful stimulation only once, while in the second case it was applied multiply. Reminding was produced in the first case by placing the animals into the same context, whereas in the second case by application of the same amount of pairings of conditional and unconditional stimuli as it was used at the first day of learning. Propranolol reduced intensity of freezing reaction on 25% from the baseline at the classical conditioning approach and practically led to disappearance of memory and complete regress of the two-ways escape reflex. There was suggested on existence of the possible different mechanisms of noradrenergic blockade on memory loss at the stage of its reconsolidation in the used models of learning.

[Does Impulsivity Affect a Long-term and Working Memory in rats?]

In the present paper usingthe method of delay discounting three groups of animals were discovered: a) those that at choice between immediate weak and delayed strong rewards have chosen an immediate reinforcement (high impulsive rats); b) those that were able to inhibit its own behavior and get the delayed reinforcement (low impulsive rats); and c) the rats with both types of reactions. In the water maze the different groups of rats did find a hidden platform for different time, swum various distance and with different speed. The differences however were significant only at overall comparison (for all days and trials) of the above mentioned parameters of the water maze learning. ANOVAs Group x Days, Group x Trials, and Groups x Days x Trials interactions were insignificant. The data obtained indicate that the difference between groups was appeared evidently due to the difference in general motor activity, rather than difference in their cognitive abilities assessed by reference and working memory tasks.

[Animal Models of Depression: Behavior as the Basis for Methodology, Assessment Criteria and Classifications]

Analysis of the current state modeling of depression in animals is presented. Criteria and classification systems of the existing models are considered as well as approaches to the assessment of model validity. Though numerous approaches to modeling of depressive states based on disturbances of both motivational and emotional brain mechanisms have been elaborated, no satisfactory model of stable depression state has been developed yet. However, the diversity of existing models is quite positive since it allows performing targeted studies of selected neurobiological mechanisms and laws of depressive state development, as well as to investigate mechanisms of action and predict pharmacological profiles of potential antidepressants.

[Stress reactivity and stress-resilience in the pathogenesis of depressive disorders: involvement of epigenetic mechanisms]

The data of epigenetic studies of stress reactivity and resilience in the pathogenesis of depression in experimental animals and humans subjected to stress at different periods of life are analyzed. Specific chromatin modifications, first of all histone acetylation and methylation, are controlling expression of definite genes in distinct brain structures. Epigenetic modulation of particular genes related to development of pro-depressive or antidepressive stress response are discussed (5HT transporter and receptors, corticotropin releasing hormone, glucocorticoid and their receptors, BDNF and other neurotrophic factors).

[Role of glycogen synthase kinase-3 in mechanisms of learning and memory]

In the current paper a review of the role of GSK-3b in mechanisms of learning and memory is presented. A regulation of GSK-3 by phosphorylation of serine and tyrosine sites and through Wnt signaling pathway by disruption of axin-β-catenin complex is described. The data on participation of GSK-3b in regulation of NMDA-dependent long-term depression and potentiation, and the possible mechanisms of enzyme's influence through NMDA receptors and AMPA endocytosis are shown. A role of GSK-3b in development of Alzheimer's disease through inhibition of Wnt signaling parthway by beta-amyloid resulting in a strengthening of GSK-3b activity with further hyperphosphorylation of tay and formation of the neurofibrillary complexes are also considered. Behaviour of animals with knockout and overexpression of GSK-3b gene and effects of GSK-3 inhibitors in different behavioural models are also described.

Theta driving both inhibits and potentiates the effects of nicotine on dentate gyrus responses

The medial septal area of conscious rats was stimulated through previously implanted electrodes at a frequency of 7.7 Hz for 20 min each day for 7 days to evoke rhythmic slow activity in CA1 at a similar frequency to spontaneous theta. Two weeks later in the anaesthetized rats the effects of a single subcutaneous injection of nicotine (0.4 mg/kg) on fEPSPs, evoked in the dentate gyrus by separate stimulation of the MPP and LPP, were studied and compared with those obtained in controls. Nicotine increased the firing of locus coeruleus neurons and the slope of the fEPSPs evoked by LPP stimulation, but not by MPP stimulation. Prior theta driving considerably increased the effect of nicotine on the responses evoked by stimulation of the MPP and abolished the nicotine-induced potentiation of the responses evoked by stimulation of the LPP. The results are attributed to theta driving increasing the amount of noradrenaline released by nicotine and to noradrenaline producing a beta-adrenoceptor long-lasting potentiation at the medial perforant path synapse and a long-lasting depression at the lateral perforant path synapse.

Biphasic effects of atropine on sensory-evoked hippocampal rhythmical slow activity in urethane-anaesthetized rats

This study investigated the response of hippocampal RSA, recorded from electrodes in CA1 and the contralateral dentate gyrus of urethane-anaesthetized rats, to atropine sulphate administered at 15 min intervals in a cumulative dose-response schedule (1, 3, 10, 50 and 50 mg x kg(-1) i.p.). The power of CA1 and dentate gyrus RSA in the 3-7 Hz band was increased after administering the first 3 doses of atropine (1, 3 and 10 mg x kg(-1) cumulatively) in rats held in the stereotaxic frame or removed from the frame and given electrical sensory stimulation to the base of the tail. This increase in RSA was dependent on sensory input, since it was not seen in animals outside the frame unless sensory stimulation was given, and it was abolished by increasing the dose of atropine (an additional 50 and 50 mg x kg(-1) cumulatively). Methylatropine (6 mg x kg(-1) i.p.) did not increase RSA power. The biphasic effect of atropine on sensory-evoked hippocampal RSA activity may be explained by differential effects at pre- and post-synaptic sites e.g. in the septo-hippocampal system or on pathways processing sensory information.

Theta driving both inhibits and potentiates the effects of nicotine on dentate gyrus responses

The medial septal area of conscious rats was stimulated through previously implanted electrodes at a frequency of 7.7 Hz for 20 min each day for 7 days to evoke rhythmic slow activity in CA1 at a similar frequency to spontaneous theta. Two weeks later in the anaesthetized rats the effects of a single subcutaneous injection of nicotine (0.4 mg x kg(-1)) on fEPSPs, evoked in the dentate gyrus by separate stimulation of the MPP and LPP, were studied and compared with those obtained in controls. Nicotine increased the firing of locus coeruleus neurones and the slope of the fEPSPs evoked by LPP stimulation, but not by MPP stimulation. Prior theta driving considerably increased the effect of nicotine on the responses evoked by stimulation of the MPP and abolished the nicotine-induced potentiation of the responses evoked by stimulation of the LPP. The results are attributed to theta driving increasing the amount of noradrenaline released by nicotine and to noradrenaline producing a beta-adrenoceptor long-lasting potentiation at the medial perforant path synapse and a long-lasting depression at the lateral perforant path synapse.

Modulation of latent inhibition in the rat by altered dopamine transmission in the nucleus accumbens at the time of conditioning

Latent inhibition describes a process by which pre-exposure of a stimulus without consequence retards the learning of subsequent conditioned associations with that stimulus. It is well established that latent inhibition in rats is impaired by increased dopamine function and potentiated by reduced dopamine function. Previous evidence has suggested that these effects are modulated via the meso-accumbens dopamine projections. We have now undertaken three experiments to examine this issue directly, especially in the light of one study in which latent inhibition was reported to be unaffected by direct injection of amphetamine into the accumbens. Latent inhibition was studied using the effect of pre-exposure of a tone stimulus on the subsequent formation of a conditioned emotional response to the tone. 6-Hydroxydopamine-induced lesions of dopamine terminals in the nucleus accumbens resulted in potentiation of latent inhibition. Bilateral local injections of the dopamine antagonist haloperidol into the nucleus accumbens (0.5 microg/side) before conditioning also potentiated latent inhibition. Moreover, such injections were able to reverse the disruptive effect of systemic amphetamine (1mg/kg, i.p.) on latent inhibition. Bilateral local injection of amphetamine (5 microg/side) into the nucleus accumbens before conditioning was able to disrupt latent inhibition, provided that it was preceded by a systemic injection of amphetamine (1mg/kg) 24h earlier.We conclude that the attenuation of latent inhibition by increased dopamine function in the nucleus accumbens is brought about by impulse-dependent release of the neurotransmitter occurring at the time of conditioning. The previously reported failure to disrupt latent inhibition with intra-accumbens amphetamine is probably due to impulse-independent release of dopamine. The implications of these conclusions for theories linking disrupted latent inhibition to the attentional deficits in schizophrenia, and to the dopamine theory of this disorder, are discussed.

The role of mesolimbic dopaminergic and retrohippocampal afferents to the nucleus accumbens in latent inhibition: implications for schizophrenia

Latent inhibition (LI) consists in a retardation of conditioning seen when the to-be-conditioned stimulus is first presented a number of times without other consequence. Disruption of LI has been proposed as a possible model of the cognitive abnormality that underlies the positive psychotic symptoms of acute schizophrenia. We review here evidence in support of the model, including experiments tending to show that: (1) disruption of LI is characteristic of acute, positively-symptomatic schizophrenia; (2) LI depends upon dopaminergic activity; (3) LI depends specifically upon dopamine release in n. accumbens; (4) LI depends upon the integrity of the hippocampal formation and the retrohippocampal region reciprocally connected to the hippocampal formation; (5) the roles of n. accumbens and the hippocampal system in LI are interconnected.

Are the cognitive-enhancing effects of nicotine in the rat with lesions to the forebrain cholinergic projection system mediated by an interaction with the noradrenergic system?

Experiments were conducted to test the hypothesis that the enhancing effect of nicotine on water maze performance in rats with lesions of the forebrain cholinergic projection systems (FCPS) is mediated by an interaction with the noradrenergic system, in particular the ascending dorsal noradrenergic bundle (DNAB) and its projection areas. Three groups of rats received lesions of either: i) the nucleus basalis (NBM) and medial septal area/diagonal band (MSA/DB) by infusion of alpha-amino-3-hydroxy-4-izoxazole propionic acid (AMPA) (FCPS group), ii) DNAB, by infusion of 6-hydroxydopamine (6-OHDA) (NOR group), or iii) both FCPS plus DNAB (COMB group). Control animals received vehicle. Choline acetyltransferase activity was reduced in the cortex and hippocampus of the FCPS and COMB groups and in the hippocampus of the NOR group. NA level was reduced in the cortex and hippocampus of the FCPS and COMB groups, but not the FCPS group. In a reference memory task, the performance of both the NOR and COMB groups, but not the NOR group, was significantly worse than that of controls; there was no effect of nicotine administration (0.1 mg/kg) on escape latency or other measures in this task. In a working memory task, FCPS and COMB rats took longer to find the submerged platform on the second and following trials, and there was a significant enhancement of performance by nicotine in both groups, but not in controls. These results indicate that the enhancing effects of nicotine in rats with FCPS lesions are not mediated by an interaction with the DNAB.

Interactions between the effects of propranolol and nicotine on radial maze performance of rats with lesions of the forebrain cholinergic projection system

This experiment investigated the hypothesis that nicotine-induced regional release of noradrenaline contributes to the improvements in radial maze performance following nicotine treatment in rats with lesions to the forebrain cholinergic projection system (FCPS), by examining whether pretreatment with the noradrenergic beta-receptor antagonist propranolol abolished the facilitative effects of nicotine. After S-AMPA (8.0mM) lesions to the nuclei of origin of the FCPS in the nucleus basalis and medial septal areas, rats displayed long-lasting impairment in long-term reference and short-term working memory in both spatial (place) and associative (cue) radial maze tasks. Performance of control and lesioned rats was assessed after administration of nicotine (0.1mg/kg), propranolol (either 0.5 or 5.0mg/kg) and both treatments. Nicotine reduced working memory error rates in lesioned animals, but did not affect the performance of controls. Propranolol dose-relatedly increased error rates in both control and lesioned animals. Adverse effects were more marked in controls, all four types of error being increased under the high dose of propranolol, whereas in lesioned rats significant increases in error rates above baseline were confined to working memory. The low dose of propranolol, in conjunction with nicotine, abolished the improvement in working memory seen with nicotine alone in lesioned rats. However, under joint treatment with the high dose, the substantial increases in working memory error rates seen in lesioned rats after propranolol alone were reduced to baseline level. In controls, reduction in errors to baseline was seen only in the cue task; place task errors remained significantly elevated. These results suggest that both cholinergic depletion and noradrenergic blockade exert disruptive effects on cognition, but that these effects are largely independent, since an additive or interactive mechanism would be predicted to produce greater disruption, following noradrenergic blockade, in lesioned rather than in control animals. Although facilitative effects of nicotine were abolished with the low dose of propranolol, the results further suggest that these effects are independent of release of noradrenaline, since nicotine continued to reduce errors in control and lesioned animals following blockade of beta receptors with the high dose of propranolol.