Environmental enrichment increases responding to contextual cues but decreases overall conditioned fear in the rat.

This study aimed at investigating the effects of environmental enrichment on various aspects of contextual processing in adult female rats. In experiment 1, simple conditioning was studied using either a training procedure allowing overshadowing of the contextual cues by signalling footshock with a discrete tone or a training procedure allowing a reduction of this overshadowing by explicitly unpairing the footshock and the tone. In experiment 2, contextual discrimination and contextual occasion-setting were assessed. Rats were daily exposed to two different contexts. In one context, a footshock was delivered 30s after the offset of a tone, whereas in the other context the same tone was presented alone. Experiment 3 examined familiarization to a new context. Experiment 1 showed that environmental enrichment reduced the overshadowing of contextual cues by the tone and also reduced freezing to the more predictive cue according to the training procedure used. Experiment 2 showed that environmental enrichment increased the ability of rats to discriminate two contexts. Experiment 3 showed that enriched rats familiarized faster to a new context than standard rats. Taken together, these results suggest that environmental enrichment in adult rats enhances learning about contextual cues and reduces overall fear associated with aversive events.

Mechanisms of action of midazolam on expression of contextual fear in rats.

BACKGROUND: Midazolam may suppress conditioned fear after an aversive event by disrupting the memory trace formed during conditioning, by altering the emotional part of the aversive event, or by the combination of both effects. The purpose of the present study was to determine whether affective-related processes contribute to the amnesic-like effects of midazolam on aversive events. METHODS: The effects of acute administration of low doses of midazolam (0.37-3 mg kg(-1)) on fear conditioning (association between a neutral context and an aversive stimulus) and on innate anxiety in fearful surroundings were examined in rats. The effect of midazolam on the deleterious consequences of pre-exposure to the context (a non-aversive event) for subsequent fear conditioning was then compared with its effect on fear conditioning. The role of midazolam as an affective context was assessed by performing the testing phase under midazolam. Possible locomotor impairment or long-term effects of midazolam were controlled in additional experiments. RESULTS: Midazolam reduced both contextual fear conditioning and spontaneous fear. The deleterious effect of midazolam on pre-exposure to the context was of the same magnitude as its effect on the acquisition phase of fear conditioning. The effects of midazolam on both pre-exposure to the context and fear conditioning were unchanged when rats received a second injection of midazolam before the retention phase. CONCLUSIONS: Low doses of midazolam that do not impair locomotion suppress conditioned fear to the context by acting on memory processes rather than on affective or anxiolytic processes.

Differential effect of free intake versus oral perfusion of sucrose in conditioned taste aversion in rats.

Five experiments were designed to investigate LiCl-induced conditioned taste aversion (CTA) obtained in rats whether after free intake of a sucrose solution (active mode) or after forced administration through an intraoral cannula (passive mode). It was found in Experiment 1 that actively conditioned rats showed a slower extinction rate as revealed by repeated two-bottle tests (active testing) as opposed to passively conditioned ones. As these rats underwent a mode change between conditioning and testing, the differential extinction rate might have arisen from this change inducing a generalization decrement effect or acting as a contextual shift. In Experiment 2, no evidence for any generalization decrement was found. The possibility that the mode of sucrose delivery could have contextual properties in CTA through a "renewal test" after extinction and a latent inhibition experiment was further tested in Experiments 3 and 4. When active testing followed passive extinction, a CTA was afresh obtained in rats actively conditioned in active conditions. Latent inhibition was attenuated in rats preexposed in passive conditions and conditioned in active conditions (i.e., when a shift in the drinking mode occurred between preexposure and conditioning). In Experiment 5, intraoral perfusion was used in both groups. The active subjects had to nose poke for intraoral administration of sucrose. The yoked control passive subjects received simultaneously the same amount of sucrose. The levels of CTA differed also from the actively to the passively conditioned subjects. Results are discussed in terms of free intake activity acting as a contextual modulator of CTA.

Associative learning and latent inhibition in a conditioned suppression paradigm in humans.

A paradigm based on conditioned suppression of ongoing motor activity, sensitive to latent inhibition (LI), was developed and tested in healthy volunteers. Subjects were trained to move disks from one peg to another with a high degree of regularity in the Tower of Toronto puzzle, a well-known cognitive skill learning task. Once this was achieved, they were submitted to a Pavlovian conditioning procedure. The conditioned stimulus (CS) was a pure tone and the unconditioned stimulus (US) a loud white noise. The resulting response suppression was assessed by a transient increase in latency of the hand movements. In control subjects, there was non-contingent CS and US presentation. The results evidenced conditioning after a single CS-US pairing. Following five preexposures to the to-be-conditioned CS, however, conditioning was abolished, seemingly expressing LI. Because a weak unconditioned response to the tone was observed after its first two presentations, an additional experiment was performed with two preexposures to the to-be-conditioned CS. With such procedure, conditioning was obtained, supporting the existence of LI in the preceding experiment. These results indicate that the present paradigm may be useful for the study of LI in human subjects, having the advantage of being similar to the experimental conditions used in the majority of LI studies in experimental animals.

A neurotoxic lesion of serotonergic neurones using 5,7-dihydroxytryptamine does not disrupt latent inhibition in paradigms sensitive to low doses of amphetamine.

Testing the effects of low doses of d-amphetamine on latent inhibition (LI) in two different conditioning paradigms, passive avoidance and conditioned taste aversion, provided evidence of their pharmacological equivalence. For passive avoidance, LI was expressed by the decreased latency to enter a shock compartment in preexposed rats placed 5 min in the compartment during 3 consecutive days before conditioning. In the conditioned taste aversion paradigm, a group of rats was preexposed to a solution of sucrose also for 3 consecutive days prior to the establishment of an association between sucrose and sickness elicited by an injection of LiCl. On the following day, the preexposed rats drunk more sucrose when allowed to choose between one tube containing water and an other containing sucrose. In both paradigms, 0.25 mg/kg d-amphetamine, injected daily on the 3 preexposure days and on the conditioning day, decreased LI. A dose of 0.5 mg/kg suppressed LI in the passive avoidance paradigm. The effect of a serotonergic lesion induced by i.c.v. injection of 5,7-dihydroxytryptamine (5,7-DHT) was evaluated in the same paradigms. The lesion procedure that lowered hippocampal serotonin and 5 HIAA levels by more than 80% did not affect LI. Taken together, the present results lessens the hypothesis that LI is prone to an opposing influence of the two monoaminergic systems considered in this work.

Effect of nonsedative doses of propofol on an innate anxiogenic situation in rats.

BACKGROUND: The effect of propofol on anxiety has not been well studied. In humans, such investigations are confused by the fact that sedation often coexists with anxiolysis. Therefore, the authors evaluated the effects of minimal sedation with propofol in rats placed in an innate anxiogenic situation, the elevated plus-shaped maze. METHODS: In experiment 1, spontaneous locomotor activity was determined in rats as a measure of sedative effect induced by propofol (0-9 mg/kg administered intraperitoneally). In experiment 2, groups of rats received propofol (0-9 mg/kg) or diazepam (0-2 mg/kg) and then were placed on a plus-shaped maze elevated above the ground that was composed of two opposite closed arms and two opposite open arms. On an initial exposure to the maze, undrugged rats avoid the open arms, with the number of entries into and time spent within the open arms constituting approximately 20% of their total activity. This reflects normal anxiety in a rodent for any elevated open platform. RESULTS: In experiment 1, 0-9 mg/kg propofol did not alter spontaneous activity in rats. In experiment 2, propofol and diazepam significantly increased the number of entries into and the time spent within the open arms. Propofol at a dose of 9 mg/kg significantly increased the rats' level of exploration of the open arms to about 50% of all exploratory activity, and a similar observation was made with 2 mg/kg diazepam. CONCLUSIONS: In a standard animal model, propofol has anxiolytic properties at doses that do not produce sedation.

Recovery from one-trial overshadowing.

Prevailing models of associative learning can all account for multitrial overshadowing. However, they fail to account for one-trial overshadowing, which is ordinarily explained in terms of distraction of the subject by the more salient of two simultaneously trained cues from the less salient cue, which interferes with associative acquisition. In the present study, we demonstrate that recovery from overshadowing can be obtained through two techniques that have previously been found to restore responding to overshadowed cues in multitrial training situations. Specifically, recovery from one-trial overshadowing was obtained by extinguishing the overshadowing stimulus and also by administering a posttraining reminder treatment consisting of brief exposure to the overshadowed cue. The similarity of these observations to those in multitrial overshadowing suggests that one-trial and multitrial overshadowing arise from a common underlying mechanism and further augments the view that all cue competition is due (at least in part) to a failure to express acquired information, rather than to a failure to learn.

Effect of midazolam on propofol-induced positive affective state assessed by place conditioning in rats.

BACKGROUND: The effect of either midazolam or the combination of midazolam and propofol on the affective state was assessed in rats at subanesthetic doses and at recovery from anesthesia. METHODS: The putative drug(s)-induced affective states were repeatedly paired with one of two distinguishable compartments of an experimental cage, whereas the vehicle(s)-induced effect was repeatedly paired with the other compartment. During a subsequent choice test for one compartment over the other, the rats' preference for the drug(s)-paired compartment over the vehicle(s)-paired compartment is indicative of a pleasant state induced by the drug(s). In experiment 1, rats were conditioned with different doses of midazolam either at subanesthetic states or at recovery from anesthesia. In experiment 2, groups of rats were conditioned with different combinations of midazolam and propofol either at subanesthetic states or at recovery from anesthesia induced jointly by midazolam (10 mg/kg) and propofol (60 mg/kg). Experiment 3 was conducted in the same way as experiment 2, except that midazolam was paired with both compartments. In addition, these groups were tested not only in an undrugged state but also in a drugged (with midazolam) state. RESULTS: In experiment 1, rats exhibited a place preference for the environment previously associated with midazolam, at subanesthetic and anesthetic doses. Experiment 2 showed that a propofol-induced place preference was found to be dose-dependently suppressed by midazolam. Experiment 3 replicated the findings of experiment 2 and extended them to the mechanism by which midazolam blocked a propofol-induced place preference. CONCLUSIONS: Midazolam administered before propofol blocked the expression of a propofol-induced pleasant state.

Antagonism of amphetamine-induced disruption of latent inhibition by the atypical antipsychotic olanzapine in rats.

The present study aimed at characterising the effects of the new antipsychotic olanzapine in a Latent Inhibition (LI) paradigm. A conditioned emotional response (CER) procedure was used, consisting of three stages: pre-exposure, in which the to-be-conditioned stimulus (a tone) was presented six times without being followed by reinforcement; conditioning, in which the pre-exposed stimulus was paired twice with reinforcement (a foot shock); and test, in which LI was assessed by the suppression of licking during the tone presentation. In Experiment I, it was found that pre-treatment with an intermediate dose (0.312mg/kg) of olanzapine, but not with lower (0.003; 0.031mg/kg) or higher doses (0.625; 1.25mg/kg), restored LI in amphetamine-treated (1.5mg/kg) animals. This effect could not be attributed to a disruptive effect of olanzapine on CER learning, as olanzapine per se had no effect on this conditioning (Experiment 2). In Experiment 3, olanzapine did not antagonise the amphetamine-induced locomotor hyperactivity. As olanzapine has not only dopaminergic, but also serotonergic, adrenergic, histaminergic and cholinergic activities, the differential effects of olanzapine on amphetamine-induced disruption of LI and hyperactivity may reflect an action on several pharmacological targets, possibly interacting with one another.

Effect of propofol on affective state as assessed by place conditioning paradigm in rats.

BACKGROUND: Whether propofol produces a pleasant affective state remains unclear from clinical studies. In the current study, the effect on affective state of subanesthetic and anesthetic doses of propofol was assessed at a preclinical level with rats in a place conditioning paradigm. Propofol was compared with methohexital. METHODS: In the place conditioning paradigm, propofol-induced effect was repeatedly paired with one of two distinguishable compartments of the apparatus, whereas the vehicle-induced effect was repeatedly paired with the other compartment. During a subsequent free-choice test, a preference for the drug-paired compartment over the vehicle-paired compartment would be indicative of pleasant state induced by the drug. For all experiments, the conditioning session lasted 8 days and consisted of four pairings of the drug with one compartment and four pairings of the equivalent volume of vehicle with the other compartment. In experiment 1A, four groups of rats were designated according to the dose of propofol that they received intraperitoneally: 0,30,60, or 90 mg/kg. In experiment 1B, the same procedure was used with subanesthetic doses of intraperitoneal methohexital: 0,10,20, or 30 mg/kg. In experiment 2, the rats were conditioned during the recovery period from short-term anesthesia. For one group, anesthesia was induced by propofol (100 mg/kg) whereas for the other group, anesthesia was induced by an equivalent anesthetic dose of methohexital (40 mg/kg). RESULTS: In experiment 1A, the 30-mg/kg, 60-mg/kg, and 90-mg/kg groups showed a place preference for the drug-paired compartment, but only the group conditioned with 60 mg/kg propofol significantly differed from the 0-mg/kg group. In experiment 1B, the groups conditioned with methohexital showed no place preference for the drug-paired compartment. In experiment 2, the rats showed a place preference for the compartment in which they recovered from propofol-induced anesthesia but no place preference for the compartment in which they recovered from methohexital-induced anesthesia. CONCLUSIONS: Propofol, but not methohexital, induced a pleasant affective state in rats at subanesthetic doses as well as during recovery from an anesthetic dose.

Facilitation of conditioned odor aversion by entorhinal cortex lesions in the rat.

This study examined the role of the entorhinal cortex (EC) in conditioned odor aversion learning (COA). Lateral EC lesions did not impair but rather facilitated COA. In the experiments the delay separating the odor cue presentation from the subsequent toxicosis was varied during acquisition. EC-lesioned rats demonstrated COA for delays up to 2 hr, whereas sham-operated rats displayed COA only if toxicosis immediately followed the odor cue. This facilitation was not dependent on the intensity of the odor and corresponded to a facilitated long-delay learning. EC lesion did not affect conditioned taste aversion, confirming that the facilitation effect does not correspond to a general facilitation of conditioned aversion learning. Taken together, these results indicate that the removal of the EC may allow odor-toxicosis associations across longer delays by extending the duration of the olfactory trace.

Amphetamine-induced conditioned activity does not result from a failure of rats to habituate to novelty.

Psychostimulant-induced conditioned activity is characterized by the presence of a hyperactivity in drug-free rats exposed to an environment previously paired with the effects of a psychostimulant. According to the habituation hypothesis, conditioned activity arises not through a Pavlovian conditioning process but rather because rats under the effects of the psychostimulant would be unable to habituate normally to the environment paired with these effects. This hypothesis predicts that conditioned activity should not develop in a previously habituated environment. This prediction was tested using a within-subject design. In this design, conditioned activity is evidenced when a group of rats, following a vehicle injection, was more active in a previously amphetamine-paired environment than in a previously vehicle-paired environment. The drug-environment pairing involved administering rats with d-amphetamine (1.25 mg/kg; SC) immediately prior to their placement in one of two distinctive environments. On alternate days, the rats received the vehicle and were placed in the other environment. With this design, it was found that: a) conditioned activity developed in a previously habituated environment; b) its magnitude was independent of the number of amphetamine-environment pairings (two, four or eight pairings); c) this development of conditioned activity did not result from a forgetting of the habituated environment due to a state-dependent retention of the habituation. Taken together, these results do not support the habituation hypothesis of psychostimulant-induced conditioned activity.

Distribution of lithium in the rat brain after a single administration known to elicit aversive effects.

In order to get insight into the brain areas involved in the initial unpleasant effects resulting from the administration of lithium (Li+), its distribution was mapped in the rat brain using the 6Li(n,alpha)3H nuclear reaction after a single injection of 6Li2SO4 at doses and latencies corresponding to the elicitation of such unpleasant effects. An improved method for visualization and measurement of local Li+ concentrations was used consisting in diffracting light along the tracks left by alpha particles in a dielectric detector. The distribution of Li+ was found less homogeneous than when Li+ was administered chronically. Periaqueductal and periventricular structures were the brain areas containing the highest concentrations of Li+.

What brain structures are active during emotions? Effects of brain stimulation elicited aversion on c-fos immunoreactivity and behavior.

Aversive behavior is produced by stimulating some brain structures, such as the dorsal periaqueductal gray and the medial hypothalamus. We have used c-fos immunoreactivity to map brain areas which are influenced by stimulation of these two structures. Stimulation was produced in freely moving rats by electrical stimulation or by microinjections of either excitatory amino acids or GABA blocking drugs. Behavior was monitored to detect emotional changes. The effects on labeling induced by the stimulation of either structure were then compared. Structures labeled include the amygdala, the stria terminalis, the supramamillary area, the hypothalamus, the periaqueductal gray, the superior colliculus, the nucleus cuneiformis, and the locus coeruleus. Regardless whether chemical or electrical stimulation was used or the structure stimulated, there was a large overlap among the brain areas labeled. We then compared our results with data from the literature where other methods of inducing aversion have been used, including pain and stress. There was remarkable similarity in the patterning of labeling irrespective of the type of stimulation (central-peripheral, chemical-electrical). There was, however, one interesting difference produced by central vs. peripheral stimulation. Labeling was unilateral in the former case and bilateral in the latter case. Our results suggest that there is a neural substrate that mediates aversive behavior, no matter how it is produced. Nevertheless, that peripheral stimulation produces mainly bilateral activation of this substrate whereas central stimulation produces mainly unilateral activation suggests that natural peripheral stimuli are also integrated at a higher functional level. Future work could be directed toward explicit comparisons of central versus peripheral stimulation to identify the structures involved in higher level integration of aversive behavior.

Biphasic effect on nociception and antiopiate activity of the neuropeptide FF (FLFQPQRFamide) in the rat.

The purpose of the present study was to systematically investigate the effects of the mammalian neuropeptide Phe-Leu-Phe-Gln-Pro-Gln-Arg-Phe-NH2 (NPFF) on nociception, using the tail-flick test. We report that ICV administration of NPFF induces a rapid and short-lasting hyperesthesic effect during day or night, for doses ranging from 10 ng to 10 micrograms. During the night, this hyperesthesic effect is followed by a long-lasting analgesic effect, the magnitude of which is related to the magnitude of the hyperesthesic effect. In addition to this intrinsic effect of NPFF, we report that NPFF reverses morphine-induced analgesia and that the magnitude of the response elicited by NPFF increases as a function of morphine-induced analgesia.

Evidence for state-dependent retrieval in conditioned place aversion.

State-dependent retrieval (SDR) in conditioned place aversion (CPA) was observed using Long-Evans male rats, with three different aversive drugs injected ip: lithium chloride (31.8 mg/kg), FG 7142 (10 mg/kg), and naloxone (5 mg/kg). Experiment 1 showed that state-dependent dissociation was complete with lithium chloride following two conditioning trials, but disappeared when the number of learning sessions was increased. Experiment 2 showed that following two conditioning trials, such complete state-dependent dissociations were also observed when FG 7142 or naloxone were used during conditioning. The results of this study showed that the expression of SDR is not monotonic in CPA paradigm but depends on the stage of learning. In addition, SDR can be observed following administration of a variety of drugs known to produce CPA, but differing in their neurochemical targets and the nature of the aversive effects they induce. Finally, these results are discussed with regard to what is known about SDR in other paradigms.

Conditioned place preference induced by Ro 16-6028, a benzodiazepine receptor partial agonist.

A place conditioning situation was used to assess the putative affective properties of benzodiazepine receptor ligands in the rat. The benzodiazepine receptor partial agonist Ro 16-6028 induced a conditioned place preference, suggesting that this compound has rewarding properties. The benzodiazepine receptor antagonist Ro 15-1788 induced neither place preference nor aversion, but prevented the place preference induced by Ro 16-6028, suggesting that the rewarding effects of Ro 16-6028 are due to its action on the benzodiazepine receptor. The benzodiazepine receptor full agonist diazepam did not induce a conditioned place preference in our hands, in contrast with previous studies. The sensitivity of place conditioning with benzodiazepine ligands to situational factors, such as the existence of a preconditioning preference, is discussed.