Anxiety conditioned to nicotine in the elevated plus-maze is time dependent.

Conditioning to the anxiogenic effects of nicotine has previously been demonstrated in the social interaction test and there was no generalization of conditioning between the social interaction and elevated plus-maze tests. Because the two tests generate distinct states of anxiety, the conditioning could have occurred to the cues associated with the test environment and/or to those associated with the type of anxiety generated by the test. The elevated plus-maze permits separation of these two factors, because quite distinct states of anxiety are generated on trials 1 and 2, whereas the apparatus cues remain the same. Rats that had been tested on day 1 in the plus-maze, 5 min after nicotine (0.45 mg/kg), showed a conditioned anxiogenic response when tested undrugged on day 2. This was shown by significantly lower percentages of open-arm entries and percentage of time spent on the open arms, compared with control groups. Thus, conditioning to apparatus cues is sufficient to mediate a conditioned anxiogenic effect. The importance of the timing of the nicotine-associated cues was demonstrated by the failure to obtain conditioned anxiogenic effects when rats were exposed to the plus-maze on day 1, 30 min after nicotine (0.45 or 0.1 mg/kg).

Anxiolytic actions of the substance P (NK1) receptor antagonist L-760735 and the 5-HT1A agonist 8-OH-DPAT in the social interaction test in gerbils.

The gerbil social interaction test has previously detected anxiolytic effects of nicotine and diazepam. In the present study, the high affinity substance P (NK(1)) receptor antagonist L-760735 (3 mg/kg) significantly increased the time spent in social interaction, whereas its low affinity analogue L-781773 (3 mg/kg) was without effect. Diazepam (0.1 mg/kg) and the 5-HT(1A) receptor agonist 8-OH-DPAT (0.003 and 0.01 mg/kg) also increased social interaction, whereas an acute dose of the selective serotonin re-uptake inhibitor fluoxetine (10 mg/kg) decreased the time spent in social interaction. Diazepam (0.1 mg/kg) significantly increased locomotor activity, but this effect was independent of the increase in social interaction. The other drugs tested were without effect on locomotor activity. The present findings suggest that the gerbil social interaction may well provide a useful assay for detecting both anxiolytic and anxiogenic compounds, and suggests that the high affinity NK(1) receptor antagonist L-760735 may prove to be useful as an anxiolytic therapy.

In adolescence, female rats are more sensitive to the anxiolytic effect of nicotine than are male rats.

Anxiety may play an important role in the onset of smoking, particularly in young girls. This study examined whether there were sex differences in the effects of nicotine on anxiety in adolescent rats and whether social isolation modified these effects. Male and female adolescent rats were housed in groups of the same sex or in social isolation for seven days prior to testing in the social interaction test of anxiety. Nicotine increased social interaction in both males and females, and because there was no concomitant change in locomotor activity, this indicated anxiolytic effects. However, there was a 5-fold sex difference in the lowest dose required to enhance social interaction, with an anxiolytic effect in females at 0.05 mg/kg, but in males only at 0.25mg/kg. Furthermore, in males the anxiolytic effect was seen only in socially isolated animals, whereas in the females it was present in both housing conditions. The depressant effect of nicotine on locomotor activity also depended on both the sex of the animal and on their housing conditions, with greater effects in singly housed animals and in males. This sex difference in sensitivity to nicotine's anxiolytic effects suggests there may be sex differences in the factors initiating and maintaining teenage smoking.

Different treatment regimens and the development of tolerance to nicotine's anxiogenic effects.

The effects of different treatment regimens were investigated on the development of tolerance to the anxiogenic effect of nicotine (0.45 mg/kg) in the social interaction test of anxiety. Rats received nicotine (0.45 mg/kg/day) by intravenous injections (5 days/week), subcutaneous injections (5 or 7 days/week) or continuous infusion by osmotic minipump. In all groups, 4 days of nicotine treatment resulted in significant decreases in social interaction compared with the vehicle control groups, without changes in locomotor activity, indicating a specific anxiogenic effect. These significant anxiogenic effects persisted even after 4 weeks of treatment although they were less marked, indicating development of partial tolerance. No significant changes in the time spent in social interaction were found when rats were tested undrugged 24 and 72 h after the termination of nicotine treatment. There was no evidence that the treatment regimen affected the rate of development of tolerance, despite very different peak plasma nicotine concentrations.

The dorsal raphé nucleus is a crucial structure mediating nicotine's anxiolytic effects and the development of tolerance and withdrawal responses.

RATIONALE: Smokers frequently report that they obtain anxiety-reducing (anxiolytic) effects from smoking, and this may be one factor which contributes to nicotine dependence. OBJECTIVE: The aim of this study was to investigate the role of the dorsal raphé nucleus (DRN) in mediating the acute anxiolytic effect of nicotine, the development of tolerance to this effect and the anxiogenic response observed on withdrawal from chronic nicotine. METHODS: The social interaction test of anxiety was used to investigate the effects of a range of doses of (-)-nicotine (2.5-4000 ng) following DRN infusion, and whether co-administration of the specific 5-HT1A receptor antagonist WAY 100635 could antagonise the anxiolytic action of nicotine. We then examined the effects of intra-DRN nicotine (2.5-7 ng) following six daily injections of subcutaneous (s.c.) (-)-nicotine (0.1 mg/kg). Finally, we examined whether s.c. or intra-DRN (-)-nicotine could antagonise the anxiogenic response seen 72 h after the termination of 7 days of nicotine treatment. RESULTS: Acute nicotine administration into the DRN produced dose-related effects: low doses (2.5-10 ng) induced an anxiolytic effect, intermediate doses were behaviourally silent (100-1000 ng), and an anxiogenic effect was seen following administration of a high dose (4 micrograms). The anxiolytic effect of (-)-nicotine (5 ng) was reversed by co-administration of a behaviourally inactive dose of WAY 100635 (200 ng). Following 6 days of treatment with s.c. 0.1 mg/kg per day (-)-nicotine, tolerance developed to its anxiolytic action in the DRN. Rats withdrawn for 72 h following this chronic treatment showed an anxiogenic response which was reversed by (-)-nicotine injected s.c. (0.1 mg/kg) or into the DRN (5 ng). CONCLUSIONS: The present findings therefore suggest that the DRN plays an important role in mediating the acute effects of nicotine on anxiety, as measured in the social interaction test, and that the anxiolytic effect is mediated by activation of somatodendritic 5-HT1A autoreceptors. The DRN is also concerned with mediating the development of tolerance to nicotine's anxiolytic effects and because there is an anxiogenic response 72 h after withdrawal from chronic nicotine, this suggests that an oppositional, compensatory mechanism is mediating the tolerance.

Tolerance to midazolam's anxiolytic effects after short-term nicotine treatment.

In the social interaction test of anxiety, microinjections of midazolam (2-8 microg) into the dorsal hippocampus or dorsal raphé nucleus significantly increased the time spent in active social interaction, without changing locomotor activity, thus indicating specific anxiolytic effects. However, tolerance developed to these effects in rats that had been pre-treated for 6 days with (-)-nicotine (0.1 mg/kg/day; subcutaneous). Thus, cross-tolerance to the anxiolytic effects of midazolam develops rapidly following a short period of treatment with a low dose of nicotine, which contrasts with the more slowly developing tolerance (about 3 weeks) that develops after benzodiazepine treatment. Following 6 days of nicotine treatment there was a significant reduction in [(3)H]flunitrazepam binding at 2 and 10 nM in the hippocampus, but no change in the midbrain. The decrease in benzodiazepine binding could explain tolerance to the effects of midazolam when administered to the dorsal hippocampus, but other mechanisms, such as indirect effects on the serotonergic (5-HT) system, might be involved in tolerance to the effects of dorsal raphé nucleus administration.

Tolerance to nicotine's effects in the elevated plus-maze and increased anxiety during withdrawal.

In the elevated plus-maze test of anxiety, nicotine (0.1 mg/kg sc; 30 min after injection) had a significant anxiogenic effect, shown by specific decreases in the percentage of time spent on the open arms and in the percentage of open-arm entries. Tolerance developed to this anxiogenic effect after 7 days of nicotine treatment (0.1 mg/kg/day). Five minutes after an acute injection, nicotine (0.1 mg/kg) was ineffective, but after 7 days of treatment a significant anxiolytic effect, shown by specific increases in the percentage of time spent on the open arms and in the percentage of open-arm entries, emerged. After 14 days of nicotine treatment, tolerance developed to this anxiolytic effect. There was a complete dissociation between the effects of nicotine on the measures of anxiety, and on the locomotor activity as measured by closed-arm entries. No changes in closed-arm entries were found after acute administration of nicotine, but rats tested 30 min after their 7th injection made significantly fewer, and those tested 5 min after their 14th injection made significantly more, entries than their respective controls. Rats that were tested after 24 h withdrawal from six daily nicotine injections showed a significant anxiogenic effect. A low dose of nicotine (5 ng) injected into the dorsal hippocampus was without effect in vehicle pretreated rats, but it was able to reverse the anxiogenic effect found after 24 h of withdrawal from 6 days of nicotine treatment.

Development of tolerance to nicotine's anxiogenic effect in the social interaction test.

The purpose of the present experiment was to explore the role of the dorsal hippocampus in mediating the development of tolerance to the anxiogenic effect of nicotine in the social interaction test of anxiety, and to determine whether tolerance develops to the effects of nicotine on [3H]-5-HT release in this area. Nicotine (1 microg) administered bilaterally into the dorsal hippocampus significantly reduced the time spent in social interaction in vehicle pre-treated rats, indicating an anxiogenic effect, but tolerance to this effect was seen in the rats pre-treated for 6 days with s.c. nicotine (0.1 mg/kg/day). In rats that had been pre-treated with vehicle for 6 days, nicotine (50-200 microM), significantly stimulated [3H]-5-HT release from dorsal hippocampal slices. This stimulation was significantly reduced in rats pre-treated with nicotine (0.1 mg/kg/day) for 6 days, indicating the development of tolerance to the effects of nicotine on 5-HT release. This suggests that tolerance to the anxiogenic effect of nicotine administered into the dorsal hippocampus could be mediated by a reduction in the nicotine enhancement of 5-HT release in this area.

Social isolation modifies nicotine's effects in animal tests of anxiety.

1. These experiments determined whether the housing conditions of rats influenced the effects of nicotine in two animal tests of anxiety, social interaction and elevated plus-maze tests. 2. In animals housed singly for 7 days, (-)nicotine (0.025 mg kg(-1) s.c.) was ineffective, but 0.05, 0.1 and 0.25 mg kg(-1) (s.c.) significantly increased the time spent in social interaction, without changing locomotor activity, thus indicating anxiolytic actions. (-)Nicotine (0.45 mg kg(-1) s.c.) significantly reduced social interaction, indicating an anxiogenic effect. 3. However, in group-housed animals, (-)nicotine (0.025 mg kg(-1) s.c.) had a significant anxiolytic effect in the social interaction test, but 0.01, 0.05, 0.1, 0.25 and 0.45 mg kg(-1) were ineffective. (-)Nicotine (1 mg kg(-1)) reduced motor activity and social interaction in the group-housed animals. 4. In the elevated plus-maze, the time-course and the dose-response curve to nicotine were investigated. In both singly- and group-housed rats, (-) nicotine (0.1 - 0.45 mg kg(-1) s.c.) decreased the per cent entries into, and per cent time spent on, the open arms, indicating anxiogenic effects. 5. The housing condition influenced the time course, with significant effects at 5 and 30 min after injection in group-housed rats, and significant effects at 30 and 60 min in singly-housed rats. 6. In the social interaction test there was no difference in the scores of the first and last rats removed from group cages, whereas the order of removal from the cages did affect the scores in the elevated plus-maze. 7. These results provide further evidence that the two animal tests model distinct states of anxiety, and show how social isolation powerfully modifies both anxiolytic and anxiogenic effects of nicotine.

Diazepam and nicotine increase social interaction in gerbils: a test for anxiolytic action.

The effects of two drugs with anxiolytic actions, diazepam (0.1, 0.3 and 1 mg/kg) and nicotine (0.1 and 0.5 mg/kg) were examined on the time spent in social interaction by pairs of male gerbils. In a test arena lit by high light, diazepam (0.1 mg/kg) increased social interaction, without changing locomotor activity. Diazepam (0.3 and 1 mg/kg) produced a dose-related increase in locomotor activity, which reached significance at the higher dose. Nicotine produced a dose-related increase in social interaction, which reached significance at 0.5 mg/kg, but was without effect on locomotor activity. The specific increases in social interaction observed with diazepam and nicotine are similar to those seen in the well-validated social interaction test of anxiety in rats and suggest that social interaction in gerbils may also be used to screen for anxiolytic action of novel compounds.

Antagonism of the anxiolytic effect of nicotine in the dorsal raphe nucleus by dihydro-beta-erythroidine.

Nicotine has been reported to reduce anxiety in humans and in a number of animal tests. In the social interaction test of anxiety, administration of low doses of nicotine into the dorsal raphé nucleus (DRN) increases the time spent in social interaction without producing accompanying changes in locomotor activity, suggesting that nicotine acts specifically to reduce anxiety in this brain region. The present study examined the ability of the high-affinity competitive nicotinic receptor antagonist dihydro-beta-erythroidine hydrobromide (DH beta E) to antagonise the anxiolytic effect of nicotine following intra-DRN infusion using the social interaction test. The increase in social interaction observed after administration of nicotine (5 ng) into the DRN was completely reversed by coadministration of 100 ng DH beta E. DH beta E (100 ng), when administered alone into the DRN, did not modify the time spent in social interaction. However, it did significantly increase locomotor activity, and this effect was not antagonised by coadministration of nicotine (5 ng) into the DRN. Because of the pharmacological profile of DH beta E, our results suggest that the anxiolytic effect of nicotine in the DRN is mediated by the alpha 4 beta 2 nicotinic receptor subtype.

Hippocampal and septal injections of nicotine and 8-OH-DPAT distinguish among different animal tests of anxiety.

1. Different animal tests model different anxiety disorders. Thus, the social interaction test is a model of generalised anxiety disorder, plus-maze Trial 1 models elements of panic disorder and Trial 2 in the elevated plus-maze is a model of specific phobia. 2. Studies of the neuroanatomical and neurochemical pathways controlling behaviour in these different tests provides information on the neurobiological mechanisms modulating anxiety disorders. 3. In the social interaction test, nicotine and 8-OH-DPAT had anxiogenic effects when injected into the dorsal hippocampus or the lateral septum. 4. These ligands were without effect on Trial 1 in the plus-maze when injected into the dorsal hippocampus, but had anxiogenic effects when injected into the lateral septum. 5. On Trial 2 in the elevated plus-maze, nicotine had an anxiolytic effect, but 8-OH-DPAT had an anixiogenic effect when injected into the dorsal hippocampus.

The role of 5-HT1A receptors in mediating the anxiogenic effects of nicotine following lateral septal administration.

The purpose of the present study was to determine the role of the 5-HT1A receptors in the lateral septum in the mediation of the anxiogenic effects of nicotine in the social interaction and elevated plus maze tests of anxiety in the rat. Bilateral infusion of (-)-nicotine (4 and 8 microg) and of the 5-HT1A receptor agonist 8-OH-DPAT (200 and 500 ng) into the lateral septum decreased the time spent in social interaction, indicating anxiogenic effects. The anxiogenic effect of 8-OH-DPAT (500 ng) was completely reversed by coadministration of a behaviourally inactive dose of the 5-HT1A receptor antagonist, WAY 100635 (200 ng). The anxiogenic effect of the lower dose of (-)-nicotine (4 microg) was completely reversed by WAY 100635 (200 ng), but the reversal was only partial following administration of 8 microg nicotine. In a second test of anxiety, the elevated plus maze, lateral septal administration of 8-OH-DPAT (500 ng) and nicotine (4 microg) induced anxiogenic effects. In this test, the anxiogenic effect of nicotine (4 microg) was completely reversed by coadministration of WAY 100635 (200 ng). The effects of 8-OH-DPAT demonstrate that stimulation of 5-HT1A receptors in the lateral septum has anxiogenic effects in two animal tests and that the anxiogenic effects of nicotine are mediated at least in part by these 5-HT1A receptors.

The role of the dorsal hippocampal serotonergic and cholinergic systems in the modulation of anxiety.

A review of the literature suggests that the dorsal hippocampal serotonergic system, and, in particular, the postsynaptic 5-HT(1A) receptor, mediates an anxiogenic response, whereas endogenous dorsal hippocampal cholinergic tone mediates an anxiolytic response. Accordingly, it has been shown that direct dorsal hippocampal administration of the 5-HT(1A) receptor agonist, 8-OH-DPAT, the nicotinic receptor antagonist, mecamylamine, and the M(1) muscarinic receptor antagonist, pirenzepine, all have anxiogenic effects in rats tested in the social interaction test. It is therefore surprising that nicotine also has an anxiogenic effect in this test following dorsal hippocampal administration. However, the anxiogenic effects of mecamylamine and nicotine in the dorsal hippocampus are blocked by coadministration of the 5-HT(1A) receptor antagonist, WAY 100635, suggesting that both of these compounds act by enhancing hippocampal serotonergic transmission, thereby stimulating postsynaptic 5-HT(1A) receptors. This conclusion is supported by the observation that both nicotine and mecamylamine stimulate basal [3H]-5-HT release from dorsal hippocampal slices. A possible mechanism by which nicotinic receptor ligands modulate hippocampal 5-HT release is discussed, and it is proposed that the dorsal hippocampal serotonergic and cholinergic systems are tightly coupled and function antagonistically in the modulation of anxiety, as measured in the social interaction test. These systems are relatively unimportant in controlling behaviour on trial 1 in the plus-maze. On trial 2 in the elevated plus-maze, a model of specific phobia, the endogenous cholinergic system, nicotine, and the M(1) receptor agonist, McN-A-343, all mediate an anxiolytic effect, whereas stimulation of 5-HT(1A) receptors mediates an anxiogenic effect. It is proposed that the hippocampus may predominantly control the avoidance components of phobic anxiety, with other regions, such as the dorsomedial hypothalamus, controlling the escape components.

Neurobiological mechanisms by which nicotine mediates different types of anxiety.

The effects of nicotine administration into the dorsal hippocampus and lateral septum provide further evidence that different neurochemical and neuroanatomical substrates control behaviour in different animal tests. Thus, in the social interaction test (a model of generalised anxiety disorder), bilateral administration of nicotine (1-4 microg) into both regions has anxiogenic effects in test conditions that generate moderate anxiety. The anxiogenic effects are mediated by a nicotine-evoked increase in 5-hydroxytryptamine (5-HT) release and are reversed by co-administration of the 5-HT(1A) receptor antagonist, N-(2-(6-(2-methoxyphenyl)-1-piperazinyl)ethyl)-N-(2-pyridyl)-cyclohex -ane carboxamide trichloride (WAY 100,635). On trial 1 in the elevated plus-maze (which models the escape components of panic disorder), nicotine is without effect when administered to the dorsal hippocampus, but has anxiogenic effects after lateral septal administration. On trial 2 in the elevated plus-maze (a model of specific phobia), nicotine (1 microg) has anxiolytic effects when administered to the dorsal hippocampus, but is ineffective (4 and 8 microg) in the lateral septum.

Anxiogenic effects of nicotine in the dorsal hippocampus are mediated by 5-HT1A and not by muscarinic M1 receptors.

After direct administration into the dorsal hippocampus nicotine decreased the time spent in social interaction, without changing locomotor activity, indicating an anxiogenic effect. The possibility that post-synaptic M1 muscarinic receptors mediated this effect was examined by determining whether dorsal hippocampal administration of a specific M1 receptor agonist (McN-A-343) had anxiogenic effects, and whether the anxiogenic effect of nicotine could be reversed by co-administration of the M1 receptor antagonist, pirenzepine. McN-A-343 (0.3, 1.6, 3.2, 15.8 nmol) was without effect on social interaction, and pirenzepine (0.7 and 2.4 nmol) injection into the dorsal hippocampus failed to reverse the decrease in social interaction caused by nicotine (6.3 nmol) injection into this area. However, the decrease in social interaction after nicotine (50 nmol) was completely reversed by the specific 5-HT1A receptor antagonist, WAY 100635 (0.4 nmol) after co-administration of both drugs into the dorsal hippocampus. Thus, the anxiogenic effect of nicotine in this brain region seems to be mediated by 5-HT1A, but not M1, receptors. In contrast to the effect of nicotine in naive animals, those retested after a second injection of 50 nmol did not show a significant anxiogenic effect. The theoretical implications of this are discussed and from a practical point of view this suggests caution in the retesting of animals after central injections.

Time-course of changes in the social interaction test of anxiety following acute and chronic administration of nicotine.

The purpose of these experiments was to explore the hypothesis that the effects of nicotine on anxiety depend on the time since administration and the duration of treatment. In the social interaction test of anxiety, acute nicotine administration (0.1 mg/kg, subcutaneously) decreased social interaction when rats were tested 5 min after injection, but increased it when they were tested 30 min after injection. Social interaction was also decreased 1 h post-injection, but levels returned to baseline between 3 and 30 h. As these changes were independent of any changes in locomotor activity, nicotine seemed to be having both anxiogenic and anxiolytic effects at different times after injection. An anxiolytic effect was also observed 30 min after the second nicotine injection, and the anxiogenic effect observed 5 min after injection remained after 4 days of nicotine administration. However, after 7 days of nicotine treatment, tolerance was observed to both these effects. When rats were tested 72 h after the last of 7 or 14 days of nicotine treatment, an anxiogenic withdrawal response was observed. Thus, an oppositional mechanism may underlie tolerance to the anxiolytic effects, whereas there is as yet no evidence for this type of mechanism mediating tolerance to the anxiogenic effects.

"Depression" increases "craving" for sweet rewards in animal and human models of depression and craving.

This study consisted of two experiments, one in rats and one in human volunteers, that used the identical progressive ratio (PR) operant procedure. In both experiments, responding was reinforced under a progressively increasing work requirement, and different groups of subjects received reinforcers that varied in sweetness. In experiment 1, rats were subjected to chronic mild stress, a well-validated animal model of depression. Performance under the PR schedule increased in subjects reinforced with conventional precision pellets (which contain 10% sucrose) or very sweet pellets, but not in subjects reinforced with sugar-free pellets. In experiment 2, volunteers were subjected to a depressive musical mood induction. Performance under the PR schedule increased in subjects reinforced with chocolate buttons, but not in subjects reinforced with with buttons made from the relatively unpalatable chocolate substitute carob. In experiment 2, depressive mood induction also increased chocolate craving, as measured by a novel questionnaire, and there were significant correlations between chocolate craving and chocolate-reinforced PR performance. These results suggest that performance under the PR schedule provides a measure of craving rather than reward, and that craving for sweet rewards is increased by depressive mood induction in both animal and human models. Implications for the interpretation of pharmacological studies using the PR procedure are also discussed.

Real time measurement of stimulated dopamine release in the conscious rat using fast cyclic voltammetry: dopamine release is not observed during intracranial self stimulation.

Fast cyclic voltammetry (FCV) was used to measure real time release of electrically stimulated endogenous dopamine in the nucleus accumbens (NAc) of conscious freely moving rats for up to 17 days. The method of electrode construction, implantation, electrical stimulation and recording of changes of extracellular dopamine concentration in the conscious rat are described. Rats trained on a continuous reinforcement schedule to perform intracranial self stimulation (ICSS) were implanted with electrodes for FCV. During ICSS, no faradaic signal was observed at an electrode implanted in the NAc. Decreasing the intensity of the stimulating current abolished ICSS, increasing the stimulating current disrupted ICSS. Operator delivered electrical stimulations using currents greater than those needed for ICSS yielded dopamine signals. It is concluded that during ICSS, sufficient dopamine does not reach the extracellular fluid space to yield a faradaic signal detectable by FCV.

Changes in sleep architecture following chronic mild stress.

Chronic exposure to mild unpredictable stress causes subsensitivity to rewards (anhedonia). These effects are reversible by chronic treatment with antidepressant drugs, and have been proposed as an animal model of depression. In the present study, sleep architecture, particularly the rapid eye movement (REM) component, was mapped in rats following exposure to chronic mild stress. The study used a unique large scale automated sleep system to record and analyze the sleep signals from 32 rats simultaneously. The effects of stress on sleep were maximal following 21 days of stress, at which time the stressed animals demonstrated decreases in active waking and deep sleep, and disruptions of REM sleep. The changes in REM sleep included increases in the duration of and transitions into REM sleep over the sleep part of the sleep-wake cycle, and most importantly, a reduced latency to the onset of the first REM period. These sleep abnormalities, and in particular the decrease in REM latency, are consistent with those reported in endogenous depression. The results provide further support for the validity of the chronic mild stress paradigm as an animal model to study the mechanisms underlying endogenous depression.