New perspectives for the treatment of disorders of sleep and arousal

A variety of molecules with novel mechanisms of action are currently being evaluated for their potential as treatments for sleep disorders. The GABA-A receptor complex remains an important target for hypnotic drugs (eg gaboxadol, indiplon). However, drugs acting through histamine, calcium channels and serotonin receptors may also be of interest for the treatment of insomnia. In the case of the 5HT2A subtype of serotonin receptors, several molecules which improve sleep maintenance and modify sleep architecture by increasing slow wave sleep are currently being tested (eg eplivanserin). Two new drugs with efficacy in excessive sleepiness (modafinil, sodium oxybate) have improved the treatment of this condition. However, the mechanisms of action of these agents are poorly understood. The recent discovery of the hypocretin arousal system in the hypothalamus may aid the identification of additional new drugs. An agonist at receptors for the pineal hormone melatonin is available in some countries (ramelteon) but is currently used only for the treatment of insomnia associated with difficulties of sleep onset. Additional melatonin receptor agonists are being developed and may have potential for treating several conditions including circadian rhythm disorders and depression.

The preclinical pharmacologic profile of tiapride

Tiapride is a benzamide derivative that has been used successfully in the clinic for a number of years for the treatment of agitation and aggressiveness in elderly patients. Like many substituted benzamides, tiapride specifically blocks dopamine receptors in the brain. It has affinity for dopamine D(2) (IC(50) = 110-320 nM) and D(3) (IC(50) = 180 nM) receptors in vitro but lacks affinity for dopamine D(1) and D(4) receptors and for non-dopaminergic receptors including H(1), alpha(1), alpha(2)-adrenergic and serotonergic receptors. Tiapride also shows dose-related inhibition of [3H]-raclopride binding in limbic areas and in the striatum of the rat in vivo (ED(50) approximately 20 mg/kg, ip). In microdialysis experiments, tiapride (over the range 10-30 mg/kg, ip) increased extracellular levels of dopamine in the nucleus accumbens and striatum, a reflection of its blockade of postsynaptic dopamine receptors in these brain areas. In behavioral experiments in rats, lower doses of tiapride (ED(50) = 10 mg/kg, ip) antagonised dopamine agonist-induced hyperactivity while higher doses (ED(50) = 60 mg/kg, ip) were required to block stereotyped movements. In addition, doses of tiapride up to 200 mg/kg, ip failed to induce catalepsy, an effect observed with many other drugs which block dopamine receptors. In tests of conditioned behavior in rats, tiapride was found to give rise to an interoceptive stimulus associated with dopamine receptor blockade at doses (ED(50) = 2.2 mg/kg, ip) much lower than those producing motor disturbances or sedation (ED(50) = 40 mg/kg, ip), in striking contrast to a range of conventional or atypical neuroleptics that produced interoceptive stimulus and sedation at similar doses. Furthermore, the acquisition by rats of a place-learning task in a water maze was not affected by tiapride (over the range 3-30 mg/kg, ip), whereas haloperidol (MED = 0.25 mg/kg, ip) and risperidone (MED = 0.03 mg/kg, ip) impaired performance. The preclinical pharmacologic and behavioral profile of tiapride suggests that its clinical activity may be due to a selective blockade of dopamine D(2) and D(3) receptors in limbic brain regions. The results are also consistent with a lack of motor or cognitive side effects.

The effects of compounds varying in selectivity as 5-HT(1A) receptor antagonists in three rat models of anxiety

Compounds varying in selectivity as 5-HT(1A) receptor antagonists have recently been reported to produce benzodiazepine-like antianxiety effects in mice. To assess the cross-species generality of these findings, the present experiments compared the effects of diazepam (0.625-5 mg/kg) with those of several non-selective (MM-77, 0.03-1 mg/kg and pindobind-5-HT(1A), 0.1-5 mg/kg) and selective (WAY100635, 0.01-10 mg/kg, p-MPPI, 0.01-3 mg/kg and SL88.0338, 0.3-10 mg/kg) 5-HT(1A) receptor antagonists in three well-validated anxiolytic screening tests in rats: punished lever-pressing, punished drinking, and the elevated plus-maze. In the punished lever-pressing conflict test, none of the 5-HT(1A) receptor antagonists modified rates of punished responding, whereas in the punished drinking test, WAY100635 (0.3-1 mg/kg), SL88.0338 (3-10 mg/kg), p-MPPI (1 mg/kg), MM-77 (0.03-0.3 mg/kg), but not pindobind-5-HT(1A), produced clear anticonflict activity. However, the increase in punished responding with the 5-HT(1A) compounds was smaller than that produced by diazepam, indicating weaker anxiolytic-like activity. In the elevated plus-maze test, WAY100635 (0.1-0.3 mg/kg), SL88.0338 (0.3-10 mg/kg), MM-77 (0.01-3 mg/kg), pindobind-5-HT(1A) (0.1-3 mg/kg), but not p-MPPI, showed anxiolytic-like activity on traditional behavioral indices, increasing the percentage of time spent in open arms and the percentage of open arm entries. As was the case in the punished drinking test, the magnitude of the positive effects of the 5-HT(1A) compounds was generally smaller than that of diazepam. Of the ethological measures recorded in the plus-maze, all compounds markedly decreased risk assessment (i.e. attempts) over the entire dose-range, but only diazepam clearly increased directed exploration (i.e. head-dipping). Although the present results demonstrate that 5-HT(1A) receptor antagonists elicit anxiolytic-like effects in rats, this action appears to be test-specific and, unlike previous findings in mice, smaller than that observed with benzodiazepines. The data are discussed in relation to the possible relevance of species differences in 5-HT(1A) receptor function and the nature of the anxiety response studied.

Pharmacological and molecular targets in the search for novel antipsychotics

The recent enthusiasm among clinicians for the so-called 'atypical antipsychotics' has both improved treatment for schizophrenic patients and provided a welcome stimulus for basic research on antipsychotic mechanisms. Even the newer drugs have shortcomings, and research is underway aimed at identifying novel agents with greater efficacy and safety. Much of this effort is directed towards compounds which, in addition to blocking dopamine receptors, also act on other neurotransmitter receptors such as 5-HT2, 5-HT1A and alpha2-adrenergic receptors. However, there is also a large amount of scientific activity seeking to discover and develop selective dopamine receptor subtype antagonists (including compounds which specifically block D3 or D4 receptors) or drugs that specifically target the dopamine autoreceptor. Finally, a number of drug development programmes are searching for non-dopaminergic antipsychotics. Drugs that do not have affinity for dopamine receptors but act through neurotensin, sigma or cannabinoid CB1 receptors or glutamatergic mechanisms are currently being evaluated. If any of these agents prove to have clinical efficacy this may lead to a third generation of antipsychotics. It is likely, however, that the mechanisms of action of such drugs will nevertheless imply the intimate involvement of dopaminergic pathways.

Characterisation of the effects of nicotine in the five-choice serial reaction time task in rats: antagonist studies

RATIONALE

Nicotine has been shown to decrease reaction time and increase anticipatory responses in a five-choice serial reaction time task (5-CSRTT) in rats, but the receptor mechanisms mediating this effect remain unknown.

OBJECTIVES

To evaluate further the effects of nicotine in this task and to characterise the receptors mediating these effects.

METHODS

Using a standard 5-CSRTT protocol, rats were trained to respond to a 0.5-s visual stimulus, which was reduced to 0.25 s for experimental sessions to induce a performance decrement. The effects of acute (0.03-0.3 mg/kg IP) and repeated (0.1 and 0.3 mg/kg IP for 5 days) nicotine were studied, as was the ability of mecamylamine (1 mg/kg IP), hexamethonium (5 mg/kg IP), dihydro-beta-erythroidine (6 mg/kg IP) and methyllycaconitine (10 mg/kg IP) to antagonise the effects of acute nicotine.

RESULTS

Nicotine had no effect on accuracy, but decreased response latencies, improved performance in the less-well attended stimulus locations and increased inappropriate responding after both acute and repeated treatment. The data suggest that nicotine improves readiness to respond and improves target scanning, and decreases the ability to withhold premature responses (i.e. increased impulsivity). Except for the reduction in error latency, all of the effects of nicotine were antagonised by the non-selective, centrally acting antagonist mecamylamine, whereas the peripheral antagonist hexamethonium had no effect, demonstrating that nicotine's actions are central in origin. Dihydro-beta-erythroidine, a competitive nicotinic antagonist, antagonised all of the effects of nicotine. In contrast, the alpha7 antagonist methyllycaconitine had no significant effects against nicotine.

CONCLUSIONS

These results demonstrate that the alpha7 receptor subtype is not involved in the effects of nicotine in the 5-CSRTT and that its effects are more likely to be mediated by a receptor(s) such as alpha4beta2, alpha4beta4 and/or alpha3beta2 which is sensitive to antagonism by dihydro-beta-erythroidine.

Haloperidol-induced catalepsy is absent in dopamine D(2), but maintained in dopamine D(3) receptor knock-out mice

We have previously found that mice homozygous for the deletion of the dopamine D(2) receptor gene (D(2)(-/-) mice) do not present spontaneous catalepsy when tested in a "bar test". In the present study, we sought to analyse the reactivity of D(2) receptor mutant mice to the cataleptogenic effects of dopamine D(2)-like or D(1)-like receptor antagonists. In parallel, we assessed the cataleptogenic effects of these antagonists in dopamine D(3) receptor mutant mice. D(2)(-/-) mice were totally unresponsive to the cataleptogenic effects of the dopamine D(2)-like receptor antagonist haloperidol (0.125-2 mg/kg i.p.), while D(2)(+/-) mice, at the highest haloperidol doses tested, showed a level of catalepsy about half that of wild-type controls. The degree of haloperidol-induced catalepsy was thus proportional to the level of striatal dopamine D(2) receptor expression (0.50, 0.30 and 0.08 pmol/mg protein as measured at 0.25 nM [3H]spiperone for D(2)(+/+), D(2)(+/-) and D(2)(-/-) mice, respectively). However, D(2)(-/-) and D(2)(+/-) mice were as sensitive as their wild-type counterparts to the cataleptogenic effects of the dopamine D(1)-like receptor antagonist R-(+)-7-chloro-8-hydroxy-3-methyl-1-phenyl-2,3,4, 5-tetrahydro-1H-3-benzazepine hydrochloride (SCH 23390: 0.03-0.6 mg/kg s.c.). Striatal dopamine D(1) receptor expression (as measured using [3H]SCH 23390 binding) was not significantly affected by the genotype. The ability of SCH 23390 to induce catalepsy in D(2)(-/-) mice suggests that their resistance to haloperidol-induced catalepsy is due to the absence of dopamine D(2) receptors, and not to the abnormal striatal synaptic plasticity that has been shown by others to occur in these mice. In agreement with the observation that dopamine D(2) and dopamine D(1) receptor expression was essentially identical in D(3)(+/+), D(3)(+/-) and D(3)(-/-) mice, dopamine D(3) receptor homozygous and heterozygous mutant mice, on the whole, did not differ from their controls in the time spent in a cataleptic position following administration of either haloperidol (0.5-2 mg/kg i.p.) or SCH 23390 (0.03-0.6 mg/kg s.c.). Also, dopamine D(3) receptor mutant mice were no more responsive than wild-type controls when co-administered subthreshold doses of haloperidol (0.125 mg/kg) and SCH 23390 (0.03 mg/kg), suggesting that dopamine D(3) receptor knock-out mice are not more sensitive than wild-types to the synergistic effects of concurrent blockade of dopamine D(2) and dopamine D(1) receptors in this model. These results suggest that the dopamine D(2) receptor subtype is necessary for haloperidol to produce catalepsy, and that the dopamine D(3) receptor subtype appears to exert no observable control over the catalepsy produced by dopamine D(2)-like, D(1)-like and the combination of D(1)-like and D(2)-like receptor antagonists.

Differences in anxiety-related behaviours and in sensitivity to diazepam in inbred and outbred strains of mice

RATIONALE

Natural strain differences exist in mice for behavioural traits such as emotional reactivity.

OBJECTIVE

The present experiments compared the behavioural profiles of nine strains of mice (BALB/c, C57BL/6, C3H, CBA, DBA/2, NMRI, NZB, SJL, Swiss) in two models of anxiety after the administration of the benzodiazepine diazepam.

METHODS

The tests used were the light/dark choice task and the elevated plus-maze, two well-validated anxiolytic screening tests.

RESULTS

In vehicle-treated animals, differences on variables designed to measure anxiety-related behaviours were observed in both tests. In the light/dark test, the strains could be divided into three distinct groups: two non-reactive strains (NZB and SJL), an intermediate-reactive group (C3H, CBA, DBA/2, NMRI, C57BL/6 and Swiss), and one highly reactive strain (BALB/c). In the elevated plus-maze, SJL, NMRI, CBA and, to a lesser extent, C3H strains of mice, consistently showed low levels of anxiety-related behaviours. Intermediate levels were seen in the Swiss and BALB/c strains, and high levels of emotional reactivity were seen in C57BL/6, DBA/2 and NZB. The strain distribution between the light/dark and the elevated plus-maze tests shows similarities and differences, suggesting that each of these experimental procedures represents a different set of behaviours. Marked differences between a number of strains of mice in their sensitivity to the anxiolytic-like action of diazepam were observed in both the light/dark and the elevated plus-maze tests. Mice of the BALB/c, Swiss and, to a lesser extent, CBA and C3H strains were responsive to diazepam in both tests, although in the case of CBA mice, effects may have been contaminated by behavioural suppression. SJL mice were largely unresponsive to the action of the benzodiazepine in both tests, whereas in C57, DBA/2, NMRI and NZB mice, diazepam produced positive effects only in the elevated plus-maze.

CONCLUSION

The finding of differential strain distributions both with and without diazepam treatment in the light/dark and the elevated plus-maze tests, indicates that not all strains of mice are suitable for investigating the effects of GABA/BZ receptor ligands. This study may thus provide a useful guide for choosing the best strain of mice for studying the pharmacology of fear-related behaviours.

Decreased locomotor activity after microinjection of dopamine D2/D3 receptor agonists and antagonists into lobule 9/10 of the cerebellum: a D3 receptor mediated effect?

The restricted localization of dopamine (DA) D3 receptors in the rat cerebellum lobule 9/10 appears to provide a method for investigating the in vivo selectivity of dopaminergic compounds for the D3 receptor subtype. Sprague-Dawley rats implanted with a cannula aimed at lobule 9/10 were microinjected with DA receptor ligands and immediately placed into activity chambers to record their spontaneous locomotor activity for short term (0 to 20 min) and delayed (20 to 40 min) effects. The DA D2/D3 receptor agonists quinelorane (0.1 to 2.5 microg) and 7-OH-DPAT (0.1 to 10 microg) decreased locomotor activity in the first 20 min post-microinjection. In contrast, the DAD1, receptor agonist 6-Br-APB (0.1 to 10 microg) did not affect locomotor activity during this time period, but markedly increased locomotion between 20 and 40 min at the highest dose tested. The DA receptor antagonists haloperidol and raclopride (1 to 10 microg) were also found to reduce locomotor activity. Furthermore, quinelorane and 7-OH-DPAT, but not haloperidol, when microinjected into lobules 1/2 or 6/7 (where no DA D3 receptors have been detected) decreased locomotor scores. These results show that both DA receptor agonists and antagonists decrease locomotor activity when microinjected into lobule 9/10 of the cerebellum. Additionally, DA receptor agonists can reduce spontaneous locomotion when microinjected outside of lobule 9/10. This would suggest that, at least for quinelorane and 7-OH-DPAT, the locomotor decreasing effects following microinjection into cerebellar lobule 9/10 may not be mediated by activity at DA D3 receptors, and that this behavioural assay is unlikely to provide a means for studying the in vivo pharmacology of the DA D3 receptor.

The D3 antagonist PNU-99194A potentiates the discriminative cue produced by the D3 agonist 7-OH-DPAT

Based on correlations between potencies of various dopamine D2/D3 agonists to substitute for the 7-OH-DPAT discriminative cue and their in vitro (mitogenesis test) potencies, it has been suggested that the 7-OH-DPAT cue is mediated by activity at the D3 subtype. We sought to verify that the 7-OH-DPAT cue could be blocked by PNU-99194A, a commercially available preferential D3 antagonist. Rats were trained (FR10 two-lever, food-reinforced schedule) to press one lever following 7-OH-DPAT (0.1 mg/kg i.p.) and the other lever following saline. Rats were then tested with various doses of 7-OH-DPAT alone or in combination with PNU-99194A. 7-OH-DPAT (0.003 to 0.3 mg/kg) engendered dose-dependent substitution; PNU-99194A (1 to 10 mg/kg) failed to antagonize the cue induced by 0.1 mg/kg of 7-OH-DPAT and, at 10 mg/kg, given in combination with 0.003 to 0.1 mg/kg of 7-OH-DPAT, PNU-99194A markedly shifted the 7-OH-DPAT dose-effect curve to the left, i.e., potentiated the 7-OH-DPAT cue. If PNU-99194A is a preferential D3 antagonist, the present data do not confirm the previous hypothesis that the 7-OH-DPAT cue is mediated by the D3 subtype.

Reduction of oral ethanol self-administration in rats by monoamine oxidase inhibitors

Evidence for a role of dopamine and serotonin in the control of ethanol intake in animals suggests that monoamine oxidase (MAO) inhibitors, which increase the synaptic availability of serotonin and dopamine by blocking their metabolism, might have efficacy in the treatment of alcohol dependence. The aim of the present study was, therefore, to evaluate several MAO inhibitors for their capacity to affect ethanol self-administration in rats trained to self-administer ethanol (10% v/v) orally in a free-choice two-lever operant task. The nonselective and irreversible MAO inhibitors, phenelzine (3-10 mg/kg), tranylcypromine (1-3 mg/kg), and nialamide (30 mg/kg), decreased rates of responding maintained by ethanol reinforcement. The reversible MAO-A inhibitor, befloxatone (0.3-3 mg/kg), and the irreversible MAO-A inhibitor, clorgyline (10-30 mg/kg), also reduced ethanol self-administration. However, befloxatone-induced effects leveled off at a 50% decrease. The irreversible MAO-B inhibitors, pargyline (30 mg/kg) and l-deprenyl (3-10 mg/kg) also decreased responding maintained by ethanol reinforcement; these results are consistent with previous findings that both drugs decreased ethanol intake in mice. In conclusion, the present results showing that several MAO inhibitors decreased ethanol self-administration in rats are consistent with previous findings that synaptic levels of serotonin and dopamine play a critical role in the control of ethanol self-administration.

The effect of repeated nicotine administration on the performance of drug-naive rats in a five-choice serial reaction time task

Nicotine improves cognitive performance both in animals and in humans, particularly in tests involving attentional processes. The five-choice serial reaction time task (5-CSRTT) is widely used as a model of attentional performance in rats, and previous studies have demonstrated effects of nicotine in this task on measures such as improved reaction time. Using a modified version of this task (in which rats were required to respond to the disappearance of one of five stimulus lights), we evaluated the effects of repeated nicotine administration (0.3 mg/kg, intraperitoneally, on three occasions over 7 days) in drug-naive rats. After the first administration, nicotine increased accuracy and reduced inappropriate responding (anticipatory responses and responses during time-out) compared to performance following vehicle administration on the preceding day. However, with repeated administration the improvement in accuracy disappeared, and other effects became apparent. Thus, after the third administration the main effects of nicotine were to increase inappropriate responding and to reduce reaction times. A fourth administration 1-2 weeks later produced similar results to the third administration, suggesting that the effects of nicotine were now constant. Despite the general increase in inappropriate responding, there was no impairment in accuracy. In contrast to the response to repeated nicotine, the performance of the rats on the 3 vehicle days remained constant. These data demonstrate that the administration of nicotine to drug-naive subjects improves performance in the 5-CSRTT but that with repeated administration this effect disappears and is replaced by a profile in which inappropriate and impulsive responding predominate.

Discriminative stimulus effects of drugs acting at GABA(A) receptors: differential profiles and receptor selectivity

The GABA(A) receptor complex contains a number of binding sites at which a variety of psychotropic drugs, including benzodiazepines, barbiturates, and some neurosteroids, act to potentiate or inhibit the effect of the transmitter. Many studies have reported that these drugs can produce discriminative stimulus actions, but the cueing effects of compounds acting at different sites to enhance the effects of GABA are not identical. The discriminative stimulus effects of benzodiazepines have been analyzed in detail, and there is also a great deal of information available on the effects of nonbenzodiazepine compounds acting at BZ(omega) recognition sites, which form part of the GABA(A) receptor complex. Of particular interest are compounds with selectivity for the BZ1(omega1) receptor subtype including zolpidem, zaleplon, and CI 218,872. BZ1(omega1)-selective drugs substitute for the discriminative stimulus produced by chlordiazepoxide only partially and at sedative doses. This is consistent with the view that sedative effects of BZ(omega) receptor agonists are mediated by the BZ1(omega1) receptor subtype, whereas the discriminative stimulus produced by chlordiazepoxide may be produced by activity at the BZ2(omega2) subtype. Analysis of this hypothesis is complicated by the variety of levels of intrinsic activity shown by different drugs.

Dopamine D2 receptor knock-out mice are insensitive to the hypolocomotor and hypothermic effects of dopamine D2/D3 receptor agonists

The dopamine (DA) D2-like family of receptors is comprised of three subtypes, the D2, D3, and D4 receptors. It has been suggested that the potency of DA receptor agonists to produce hypothermia and hypolocomotion in rodents correlates more strongly with the in vitro affinity for, or potency (mitogenesis test) at the D3 than at the D2 subtype. However, it has recently been reported that when tested in DA D3 receptor knock-out mice, several DA D2/D3 receptor agonists (7-OH-DPAT, PD 128907 and quinelorane) induced levels of hypothermia and decreases of locomotor activity similar to those obtained in control (wild-type) mice. These results do not argue in favour of an implication of DA D3 receptors in these in vivo effects. In order to investigate whether the DA D2 receptor is the subtype that mediates hypothermia and hypolocomotion produced by DA D2/D3 receptor agonists, we tested the effects of ip administration of the DA D2/D3 receptor agonists 7-OH-DPAT and PD 128907, on core temperature and locomotor activity in DA D2 receptor knock-out mice (homozygotes: D2(-/-) and heterozygotes: D2(+/-)), and in wild-type (D2(+/+)) mice. 7-OH-DPAT (0.1-3 mg/kg) and PD 128907 (1-10 mg/kg) induced hypothermia and decreased locomotion in D2(+/+) mice, but had no effects in D2(-/-) mice; the magnitude of the hypothermic and locomotor-reducing effects of these two agonists in D2(+/+) mutants was approximately half that of D2(+/+) mice. During the first 10 min in the activity chambers, the level of spontaneous locomotor activity of D2(-/-) individuals was almost 50% below that of D2(+/+) mice; basal locomotor activity of D2(+/-) mice was between that of D2(-/-) and D2(+/+) individuals. Neither type of mutant showed spontaneous catalepsy or deficits in forelimb muscle strength (grip-strength test). These results show that the presence of DA D2 receptors is necessary for the expression of the locomotor- and core temperature-decreasing effects of DA D2/D3 receptor agonists such as 7-OH-DPAT and PD 128907.

New evidence that the pharmacological effects of benzodiazepine receptor ligands can be associated with activities at different BZ (omega) receptor subtypes

RATIONALE

It has been suggested that different BZ (omega) receptor subtypes may mediate distinct behavioural effects of BZ receptor ligands.

OBJECTIVE

The present study examined this hypothesis further.

METHODS

The antagonism exerted by the selective BZ(1) (omega(1)) receptor antagonist beta-CCT on the pharmacological effects of the selective BZ(1) (omega(1)) receptor agonist zolpidem and the non-selective BZ (omega) receptor agonist diazepam in behavioural, biochemical and electrophysiological experiments was assessed.

RESULTS

beta-CCT which was devoid of activity per se, antagonized the effects of the non-selective BZ (omega) receptor full agonist diazepam and the selective BZ(1) (omega(1)) receptor full agonist zolpidem against seizures produced by isoniazid, but beta-CCT failed to affect their action on seizures produced by pentylenetetrazole (PTZ), suggesting that BZ(2) (omega(2)) receptors may be primarily involved in the convulsant action of PTZ. In the light/dark test, beta-CCT abolished the anxiolytic-like action of diazepam. In tests designed to investigate the central depressant activity of drugs, beta-CCT antagonized the sedative effects of diazepam and zolpidem, but failed to modify clearly the myorelaxant effects of diazepam. These differences may be related to the selectivity of beta-CCT for BZ(1) (omega(1)) sites as indicated by the preferential displacement of [(3)H]flumazenil in BZ(1) (omega(1))-enriched structures as compared to BZ(2) (omega(2))-enriched structures in the mouse. In in vitro experiments, beta-CCT antagonized the potentiation of the GABA-induced Cl(-) current produced by zolpidem in HEK cells expressing the alpha(1)beta(2)gamma(2) receptor or in cerebellar Purkinje neurones, while it failed to modify the diazepam potentiation at either alpha(3)beta(2)gamma(2) or alpha(5)beta(3)gamma(2) receptor subtypes.

CONCLUSION

These results are consistent with the hypothesis that BZ(1) (omega(1)) receptors play an important role in the anxiolytic and sedative/hypnotic effects of BZ (omega) receptor ligands, whereas activity at BZ(2) (omega(2)) sites might be associated primarily with muscle relaxation.

Comparison of the pharmacological properties of classical and novel BZ-omega receptor ligands

The experiments in this study compared the pharmacological properties of several BZ-omega receptor ligands, including the imidazobenzodiazepine imidazenil, the beta-carboline abecarnil, the pyridazinone Y-23684, the pyrido [1,2-a]benzimidazole RWJ 46771 and the 1,6-naphthyridin-2(1H)-one derivative SX-3228, with the prototypical BZs diazepam, clobazam and bretazenil. In in vitro experiments diazepam, bretazenil, imidazenil and Y-23684 displaced [3H]flumazenil binding non-selectively in membranes from rat cerebellum and spinal cord, two brain areas enriched in the BZ-omega 1 and BZ-omega 2 receptor subtypes, respectively. In contrast, abecarnil, RWJ 46771 and SX-3228 were more potent in displacing [3H]flumazenil binding to membranes from rat cerebellum than from spinal cord or hippocampus, indicating selectivity for the BZ-omega 1 receptor subtype. The in vivo experiments showed that all compounds increased the latency to clonic seizures produced by isoniazid. However, the maximal increase in latency induced by diazepam, clobazam, abecarnil, RWJ 46771 and SX-3228 was greater than that of bretazenil, imidazenil and Y-23684, thereby indicating that these latter compounds have low intrinsic efficacy. In the punished drinking, the punished lever pressing and the elevated plus-maze tests in rats, three models of anxiety, diazepam, clobazam and imidazenil elicited clear anxiolytic-like effects but at doses which were close to those producing hypolocomotion, ataxia and myorelaxation as measured in activity cages, the rotarod and the loaded grid tests, respectively. In contrast, bretazenil and Y-23684 induced anxiolytic-like activity at much lower doses than those which impaired motor performances. The magnitude of the positive effects of Y-23684 was similar to that of the reference BZs, suggesting that it may become a valuable alternative to currently used agents for the treatment of anxiety disorders. Abecarnil, RWJ 46771 and SX-3228 produced weaker or non-specific anxiolytic-like effects as they decreased anxiety-related behaviours at doses similar or close to those impairing motor performance. However, unlike the other compounds they induced myorelaxation at doses which were 3-10 times higher than those needed to produce decrease in exploratory activity. It is suggested that the behavioural profiles of abecarnil, RWJ 46771 and SX-3228 may be attributed to their selectivity for the BZ-omega 1 receptor subtype which may account for their sedative activity, thereby masking other effects including anxiolytic-like activity. This suggests that BZ receptor modulation of anxiety may involve BZ receptor subtypes other than BZ-omega 1.

Behavioral effects of acute and chronic fluoxetine in Wistar-Kyoto rats

It has been previously reported that Wistar-Kyoto (WKY) rats may be useful in the study of the biological mechanisms involved in stress-related disorders. In the present study, WKY were treated acutely or chronically (one daily i.p. injection for 22-24 days) with the selective 5-HT reuptake inhibitor and clinically effective antidepressant and anxiolytic fluoxetine (5 and 20 mg/kg) and exposed to the forced swimming test (FST) and to the elevated plus-maze (EPM) at different times postinjection (30, 60, min or 24 h). In the FST, WKY failed to respond to fluoxetine, regardless of treatment. In the EPM, acute fluoxetine (20 mg/kg) produced anxiolytic-like effects when animals were tested 24 h, but not 30 min after drug administration. Positive effects in the EPM were evident on both conventional (open-arm activity) and ethological (risk assessment) measures in the absence of effect on activity measures (total and closed-arm entries). No evidence for anxiolytic-like activity was observed following chronic fluoxetine. These results indicate that WKY rats are resistant to fluoxetine treatment in the FST, while their behavior may be modified in the EPM when animals received a single fluoxetine challenge 24 h before testing. Overall, these findings provided little evidence that WKY rats may represent a valid model of stress-related disorders.

Orphanin FQ, a novel neuropeptide with anti-stress-like activity

Potential anxiolytic-like properties of intracerebroventricular (i.c. v.) infusion of orphanin FQ (OFQ), a recently discovered neuropeptide, were investigated in the mouse defense test battery, a well-validated anxiolytic screening test. In this model, Swiss mice are directly confronted with a natural threat (a rat) as well as situations associated with this threat. Primary measures taken during and after rat confrontation were flight, risk assessment, defensive attack and escape attempts. Unlike the anxiolytic drug diazepam (3-10 microgram/5 microliter, i.c.v.), which affected all defensive responses, OFQ (0.3-3 nM/5 microliter) only clearly reduced defensive upright postures and biting reactions. Subjects displayed these latter defensive behaviors upon forced contact with the threat stimulus, a situation which is considered to be highly stressful. These results suggest that the OFQ system may not be primarily involved in anxiety-related responses including cognitive aspects (i. e., risk assessment), while it may play a role in the adaptative responses to unavoidable or extreme stress stimuli.

Pharmacological studies on synthetic flavonoids: comparison with diazepam

The present experiments compared the central BZ-omega binding characteristics and pharmacological profiles of two synthetic flavonoids (6-bromoflavone and 6-bromo-3'-nitroflavone) with those of the benzodiazepine (BZ) diazepam. In vitro experiments showed that while diazepam displaced [3H]flumazenil binding to the GABA(A) receptor in membranes from rat cerebellum and spinal cord, two brain areas enriched in the BZ-omega1 and BZ-omega2 receptor subtypes, with nearly equivalent half maximally effective concentrations, 6-bromo-3'-nitroflavone was somewhat more potent in displacing [3H]flumazenil binding to membranes from rat cerebellum (IC50 = 31 nM) than from spinal cord (IC50 = 120 nM), indicating selectivity for the BZ-omega1 receptor subtype. 6-Bromoflavone displayed weak (IC50 = 970 nM) affinity for the BZ-omega1 and no affinity for the BZ-omega2 (IC50 > 1000 nM) receptor subtypes. Diazepam, but not the synthetic flavonoids increased the latency to clonic seizures produced by isoniazid, thereby indicating that neither 6-bromoflavone nor 6-bromo-3'-nitroflavone display detectable intrinsic activity at GABA(A) receptors in vivo. Results from two conflict tests in rats showed that 6-bromoflavone (3-10 mg/kg) and 6-bromo-3'-nitroflavone (0.3-1 mg/kg) elicited anxiolytic-like activity in the punished drinking test, while both drugs were inactive in the punished lever pressing test. The positive effects displayed by the synthetic flavonoids in the punished drinking procedure were smaller than that of diazepam and were not antagonized by the BZ receptor antagonist flumazenil. In two models of exploratory activity, 6-bromoflavone (3-30 mg/kg) and 6-bromo-3'-nitroflavone (0.3-1 mg/kg) produced anxiolytic-like effects in the rat elevated plus-maze test, whereas both compounds failed to modify the behavior of mice in the light/dark test over a wide dose-range. The effects in the elevated plus-maze were antagonized by flumazenil. In the mouse defense test battery, where mice were confronted with a natural threat (a rat), 6-bromoflavone and 6-bromo-3'-nitroflavone failed to decrease flight reactions after the rat was introduced into the test area and risk assessment behavior displayed when subjects were constrained in a straight alley, and only weakly affected risk assessment of mice chased by the rat and defensive biting upon forced contact with the threat stimulus. In a drug discrimination experiment 6-bromoflavone and 6-bromo-3'-nitroflavone up to 30 and 3 mg/kg, respectively, did not substitute for the BZ chlordiazepoxide. Taken together, these results failed to demonstrate that the synthetic flavonoids 6-bromoflavone and 6-bromo-3'-nitroflavone possess anxiolytic-like properties similar or superior to that of diazepam, as was suggested previously. Furthermore, they question the contribution of BZ-omega receptors to the behavioral effects of 6-bromoflavone and 6-bromo-3'-nitroflavone.

5-HT1A receptor antagonists neither potentiate nor inhibit the effects of fluoxetine and befloxatone in the forced swim test in rats

Recent clinical data suggest that coadministration of pindolol with an antidepressant, particularly the 5-hydroxytryptamine (5-HT) reuptake inhibitor fluoxetine, can shorten the time to onset of clinical activity and increase the proportion of responders. We have examined the interaction of antidepressants with 5-HT1A receptors using the forced swim test in rats using both (+/-)-pindolol and the selective 5-HT1A receptor antagonist WAY 100,635 (N-[2-[4-(2-methoxyphenyl)-1-piperazinyl]ethyl]-N-(pyridinyl) cyclohexanecarboxamide trihydrochloride) in combination with either fluoxetine or the selective monoamine oxidase-A inhibitor befloxatone. 8-Hydroxy-dipropylaminotetralin (8-OH-DPAT; 0.125-1 mg/kg s.c.), used as a reference for 5-HT1A agonist activity, reduced immobility in the forced swim test and this effect was significantly antagonised by WAY 100,635. WAY 100,635 alone (0.01-0.1 mg/kg s.c.) was without effect, although a higher dose, 0.3 mg/kg s.c., had a nonsignificant tendency to increase immobility. In contrast, (+/-)-pindolol (1-16 mg/kg s.c.) significantly reduced immobility, but to a lesser extent than 8-OH-DPAT. As expected, the antidepressants fluoxetine (10-80 mg/kg p.o.) and befloxatone (0.03-1 mg/kg p.o.) dose-dependently reduced immobility time. When the antidepressants were combined with WAY 100,635 (0.1 mg/kg), WAY 100,635 either had no effect or, at relatively high doses, significantly reduced their activity in this test. Combination of the antidepressants with (+/-)-pindolol (2 or 4 mg/kg s.c.) failed to reveal a significant interaction. These results demonstrate that the anti-immobility effects of fluoxetine and befloxatone are neither facilitated nor antagonised by doses of WAY 100,635 that completely reverse the effects of 8-OH-DPAT. Furthermore, there was no evidence that coadministration of the antidepressants with (+/-)-pindolol was able to facilitate their antidepressant-like effects. Thus, whereas direct agonist activity at 5-HT1A receptors can modulate immobility in the forced swim test, this receptor subtype does not appear to play a major role in the antidepressant-like effects of fluoxetine or befloxatone under the conditions used in this study.

Behavioural profiles in the mouse defence test battery suggest anxiolytic potential of 5-HT(1A) receptor antagonists

RATIONALE

Compounds varying in selectivity as 5-HT1A receptor antagonists have recently been reported to produce anxiolytic-like effects comparable to those of benzodiazepines in the mouse elevated plus-maze procedure.

OBJECTIVE

In view of the potential clinical significance of these findings, the present experiments compared the behavioural effects of diazepam (0.5-3.0 mg/kg) with those of several non-selective 5-HT1A receptor antagonists [NAN-190, 0.1-3.0 mg/kg, MM-77, 0.03-1.0 mg/kg, (S)-UH-301, 0.3-3.0 mg/kg and pindobind-5-HT1A, 0.03-1.0 mg/kg], and three selective 5-HT1A receptor antagonists (WAY100635, 0.01-3.0 mg/kg, p-MPPI, 0.1-3.0 mg/kg and SL88.0338, 0.3-3.0 mg/kg) in the mouse defence test battery (MDTB).

METHODS

In this well-validated anxiolytic screening test, Swiss mice are directly confronted with a natural threat (a rat) as well as situations associated with this threat. Primary measures taken during and after rat confrontation were flight, risk assessment (RA), defensive threat/attack and escape attempts.

RESULTS

Diazepam significantly decreased flight reactions after the rat was introduced into the runway, reduced RA activities of mice chased by the rat, increased RA responses displayed when subjects were constrained in a straight alley and reduced defensive upright postures and biting upon forced contact. All the selective 5-HT1A receptor antagonists and NAN-190 also reduced flight, RA in the chase test, and defensive threat and attack behaviours. (S)-UH-301 and pindobind-5-HT1A reduced RA in the chase test, but only partially modified defensive threat and attack. Unlike the other drugs tested, MM-77 produced significant effects only at doses which also markedly reduced spontaneous locomotor activity, suggesting a behaviourally non-specific action. In contrast to diazepam, the 5-HT1A receptor ligands failed to affect RA in the straight alley test. Following removal of the rat from the test area, only diazepam and (S)-UH-301 reduced escape behaviour (contextual defence) at doses which did not decrease locomotion. Overall, the present findings indicate that except for one RA behaviour and escape responses, the 5-HT1A receptor ligands studied modified the same defensive behaviours as diazepam, suggesting potential therapeutic efficacy in the management of anxiety disorders. However, the magnitude of the effects of the 5-HT1A compounds on defence was generally smaller than that of the benzodiazepine.

CONCLUSION

As all of the 5-HT1A compounds tested in this series share antagonistic activity in models of postsynaptic 5-HT1A receptor function, it is proposed that this action accounts for their effects on defence.

Dopamine D3 receptor agonists produce similar decreases in body temperature and locomotor activity in D3 knock-out and wild-type mice

The function of the dopamine (DA) D3 receptor, a member of the D2-like family, has not been firmly established. It has been reported that the potency of DA receptor agonists in producing hypothermia and hypolocomotion in rodents correlates more strongly with the in vitro affinity for, or potency (mitogenesis test) at the D3 than the D2 subtype. In order to investigate further the role of D3 receptors in hypothermia and hypolocomotion, we tested the effects of ip administration of three DA receptor agonists reported to be selective for the D3 receptor subtype (7-OH-DPAT, quinelorane and PD 128907) on core temperature and spontaneous locomotor activity in homozygous (D3-/-), heterozygous (D3+/-) mutant and wild-type (D3+/+) mice. Quinelorane (0.003-0.3 mg/kg), PD 128907 (1-10 mg/kg) and 7-OH-DPAT (0.1-3 mg/kg) induced hypothermia and decreased locomotion to a similar extent in the three genotypes. Additionally, the putatively selective DA D3 receptor antagonist PNU 99194A (3-20 mg/kg i.p.) increased locomotor activity in habituated mice and reversed the hypothermia induced by 30 microg/kg of quinelorane, with no apparent difference between D3-/-, D3+/- and D3+/+ genotypes. The spontaneous level of locomotor activity of mutants (D3-/- or D3+/-) was found to be either at, below, or above that of controls, with no consistent trend between different batches of mice. These results show that the presence of DA D3 receptors is not necessary for the expression of these effects induced by the three agonists or the antagonist supposedly selective for the D3 receptor subtype. This raises the question of the involvement of the D3 receptor in these behavioural effects and the issue of the in vivo selectivity of these four compounds for the D3 receptor subtype. Alternatively, possible adaptive mechanisms taking place in D3-/- mice might have compensated for the absence of DA D3 receptors.

Differences in anxiolytic-like profile of two novel nonbenzodiazepine BZ (omega) receptor agonists on defensive behaviors of mice

The present experiments compared the behavioral effects of two novel BZ (omega) receptor agonists, the pyridazinone Y-23684 (1-30 mg/kg) and the pyrido[1,2-a]benzimidazole RWJ-46771 (0.01-0.3 mg/kg) with the BZs diazepam (0.5-3 mg/kg) and clobazam (1-30 mg/kg) in the mouse defense test battery (MDTB), a model for the screening of anxiolytic drugs. In the MDTB, Swiss mice were confronted with a natural threat (a rat) and situations associated with this threat. Primary measures taken during and after rat confrontation were flight, risk assessment, defensive threat/attack, and escape attempts. Results showed that clobazam and Y-23684 significantly modified all defense responses in the presence of the rat at doses that did not decrease spontaneous locomotor activity. These drugs decreased avoidance reactions after the rat was introduced into the runway, reduced flight speed and risk assessment activities of mice chased by the rat, increased risk assessment displayed when subjects were constrained in a straight alley, and reduced defensive threat and attack behaviors upon forced contact. Diazepam significantly decreased all but one (number of avoidances when the rat was first introduced into the runway) defensive behaviors. RWJ-46771 reduced risk assessment in the chase test, avoidance responses, flight speed, and defensive threat and attack reactions, but these effects occurred in the great part at motor-impairing doses, suggesting that the decrease in defensiveness may have been contaminated by behavioral suppression. Finally, following the removal of the rat from the runway, only Y-23684 reduced escape behavior at doses that did not decrease spontaneous behavior. Taken together, these findings demonstrate that Y-23684 displayed anxiolytic-like activity comparable to that of BZs in the MDTB. Although RWJ-46771 significantly modified most defensive behaviors, the effects may have been confounded by decreases in locomotor activity.

Limited anxiolytic-like effects of non-benzodiazepine hypnotics in rodents

The present experiments compared the anxiolytic-like effects of the benzodiazepine (BZD) hypnotic triazolam with those of four non-BZD hypnotics including one non-selective (zopiclone) and three omega1-BZD selective (zolpidem, zaleplon and SX-3228) receptor ligands, in classical animal models including conflict tests (punished lever pressing and punished drinking tests in rats) and exploratory models (elevated plus-maze test in rats and light/dark choice test in mice), and a recently developed mouse defence test battery (MDTB) which has been validated for the screening of anxiolytic drugs. Results from both conflict procedures showed that zopiclone (0.3-10 mg/kg) produced anxiolytic-like effects comparable to those of triazolam (0.1-3 mg/kg), whereas the selective omega1-BZD receptor hypnotics zolpidem (0.3-3 mg/kg), zaleplon (0.1-3 mg/kg) and SX-3228 (0.1-1 mg/kg) displayed weaker and/or non-specific anxiolytic-like effects. Similarly, in the light/dark test in mice, zolpidem (0.1-1 mg/kg), zaleplon (0.3-10 mg/kg) and SX-3228 (0.03-0.3 mg/kg) showed a reduced potential to produce anxiolytic-like effects as compared to the non-selective omega-BZD receptor hypnotics triazolam (0.03-1 mg/kg) and zopiclone (1-30 mg/kg). In the elevated plus-maze test, zopiclone (1-10 mg/kg), zolpidem (0.1-1 mg/kg), zaleplon (0.3-3 mg/kg) and SX-3228 (0.1-1 mg/kg) displayed anxiolytic-like activity at doses close to those producing behavioural impairment, whereas triazolam (0.03-1 mg/kg) exhibited anxiolytic-like effects over a wide dose range in the absence of decreases in general activity. In the MDTB, zaleplon (0.3-10 mg/kg) decreased all defensive responses, a profile which was similar to that of triazolam (0.03-1 mg/kg), while zopiclone (1-30 mg/kg), zolpidem (0.3-10 mg/kg) and SX-3228 (0.03-1 mg/kg) had fewer effects on defensive behaviours with several effects occurring only at motor-impairing doses. Taken together, these results demonstrate that, although selective omega1-BZD receptor hypnotics display anxiolytic-like activity, the effects are generally weaker than those observed with non-selective omega-BZD receptor selective hypnotics such as triazolam or zopiclone. In particular, the anxiety-reducing potential of the omega1-BZD receptor selective compounds is limited to certain anxiety measures and may be confounded and/or masked by behavioural suppression.

Intracranial self-stimulation under a progressive-ratio schedule in rats: effects of strength of stimulation, d-amphetamine, 7-OH-DPAT and haloperidol

Progressive-ratio (PR) schedules, which have been widely used to study the reinforcing efficacy of various reinforcers (in particular IV psychostimulants), have been very seldom applied to the study of positively reinforcing electrical brain stimulation (EBS). In the present study, rats were required to emit a progressively increasing number of lever-presses (3,4,6,7,9,11,14,16, etc.) for access to successive reinforcers (periods of VTA self-stimulation). Each period of self-stimulation consisted of ten trains of square pulses of EBS; each train was available under a continuous reinforcement schedule. The number of periods of EBS earned during a session was deemed the breaking point (BP). After acquisition and stabilization of self-stimulation, a study was carried out to verify that changes in the strength of the EBS (i.e. changes in the frequency, the intensity or the pulse duration, one parameter at a time) induced changes in the BP. The effects of IP pretreatments with d-amphetamine, the dopamine D3/D2 receptor agonist 7-OH-DPAT and haloperidol were then assessed. Decreases in the strength of EBS decreased the BP. However, increasing the strength above training values resulted in minimal increases in the BP. d-Amphetamine (0.25-1 mg/kg) dose-dependently increased the BP; additionally, when the reinforcer was withheld (i.e. in conditions of extinction, with the stimulator turned off) d-amphetamine was also found to augment the BP. This might indicate that d-amphetamine preferentially potentiated the motivational (non-rewarded presses) aspects of VTA self-stimulation under this type of PR schedule. 7-OH-DPAT had biphasic effects: at low doses (0.01 and 0.03 mg/kg), it tended to decrease the BP while higher doses (1 and 3 mg/kg) robustly increased the BP. Under conditions of extinction, 7-OH-DPAT (1 mg/kg) had a tendency to increase the BP, but this effect was not statistically significant and did not approach the magnitude of effects observed with d-amphetamine. Haloperidol (0.08-0.48 mg/kg IP) dose-dependently reduced the BP, suggestive of a decrease in the reinforcing efficacy of the EBS. These results show that rats can be trained to self-administer EBS of the VTA under a PR schedule of reinforcement and that this behaviour is sensitive to disruption or potentiation of dopaminergic neurotransmission.

Effects of D1 dopamine receptor agonists on oral ethanol self-administration in rats: comparison with their efficacy to produce grooming and hyperactivity

In order to study the potential efficacy of dopamine receptor agonists in the treatment of alcohol abuse, the present study investigated the effects of several dopamine D1 receptor agonists with different intrinsic activities on ethanol self-administration in rats. In a separate experiment, the effects of two of the same compounds on saccharin self-administration were also studied. To investigate further the relationship between activity in reducing ethanol self-administration and efficacies to stimulate D1 receptors, the potencies of the agonists to reduce ethanol self-administration were compared with their potencies to produce hyperactivity and grooming, behaviors which are believed to involve stimulation of D1 receptors. Rats were trained to self-administer ethanol (10% v/v) orally in a free-choice two-lever operant task using a saccharin-fading procedure. Another group of rats was trained to self-administer a solution of saccharin (0.01% w/v) in a similar operant task. Pretreatment with full (R-6Br-APB, SKF 82958 and SKF 81297) and partial (SKF 38393 and SKF 77434) dopamine D1 receptor agonists dose-dependently decreased responding for ethanol. SKF 82958 and SKF 38393 also decreased responding for saccharin. Comparison of potencies to decrease ethanol self-administration with potencies to produce locomotor activity and grooming revealed that reduction of ethanol self-administration by D1 full agonists occurs at doses similar to those which produce grooming and locomotor activity. However, the partial agonists (and in particular, SKF 38393) reduced responding for ethanol at doses lower than those producing hyperactivity. The present results underline the involvement of D1 dopamine receptors in reward processes.

Prepulse inhibition of the startle reflex in rats: effects of compounds acting at various sites on the NMDA receptor complex

Prepulse inhibition (PPI) of the startle reflex in rats is disrupted by N-methyl-D-aspartate (NMDA) receptor non-competitive antagonists (phencyclidine-like compounds). In order to explore more thoroughly the control exerted by NMDA receptors on PPI, we assessed the effects of i.p. administration, in Sprague-Dawley rats, of compounds acting as antagonists or agonists at the five binding sites of the NMDA receptor complex. The non-competitive NMDA receptor antagonists phencyclidine (1-6 mg/kg) and MK-801 (dizocilpine: 0.05-0.2 mg/kg) robustly and dose-dependently disrupted PPI. A similar effect was obtained with the competitive NMDA receptor antagonists CGS 19755 (1-20 mg/kg) and CPP (3-20 mg/kg), but not with the cation Mg2+ (100 and 200 mg/kg), the glycine/NMDA binding site antagonist L-701,324 (1-10 mg/kg), or the polyamine/NMDA binding site antagonist eliprodil (3-20 mg/kg). Potentiation of glutamatergic neurotransmission by NMDA (10-50 mg/kg), and the glycine/NMDA site partial agonist d-cycloserine (1-30 mg/kg) also failed to modify PPI, though d-cycloserine diminished PPI at higher doses (50-200 mg/kg). Co-administration of sub-threshold doses of CPP (3 mg/kg) and phencyclidine (2 mg/kg) resulted in an additive effect, disrupting PPI. In contrast, co-administration of L-701,324 (6 mg/kg) with phencyclidine (2 mg/kg), eliprodil (20 mg/kg), or CPP (3 mg/kg), did not disrupt PPI. These results demonstrate that PPI-disrupting effects can only be obtained with phencyclidine-like compounds and NMDA receptor competitive antagonists. Treatment with compounds that potentially augment glutamatergic tone were without effect. Finally, despite the permissive control of the glycine/NMDA binding site on glutamatergic neurotransmission, the glycine/NMDA binding site antagonist L-701,324 did not produce synergistic activity when combined with antagonists at the glutamate, polyamine/NMDA or phencyclidine-like compound binding sites.

Study of the modulatory activity of BZ (omega) receptor ligands on defensive behaviors in mice: evaluation of the importance of intrinsic efficacy and receptor subtype selectivity

1. This study examined the hypothesis that the anxiolytic effects of benzodiazepine (BZ (omega)) receptor ligands may be associated with actions at a defined receptor subtype and/or their level of intrinsic activity using the mouse defense test battery. 2. This test has been designed to assess defensive reactions of Swiss mice confronted with a natural threat (a rat) and situations associated with this threat. Primary measures taken before, during and after rat confrontation were escape attempts, flight, risk assessment and defensive threat and attack. 3. The drugs used were the non-selective BZ (omega) receptor full agonist diazepam, the non-selective BZ (omega) receptor partial agonist bretazenil and the beta-carboline abecarnil which acts as a full agonist on GABAA receptors containing the alpha 1- and the alpha 3-subunits and as a partial agonist at receptors containing the alpha 2- and the alpha 5-subunits. The drugs were given alone and diazepam was co-administered with either bretazenil or abecarnil. 4. When administered alone, diazepam attenuated several defensive responses including risk assessment activities, defensive threat/attack reactions upon forced contact with the rat and escape attempts following the removal of the rat from the apparatus. Unlike diazepam, bretazenil was devoid of significant activity on defense and abecarnil displayed depressant activity. 5. Bretazenil blocked all behavioral effects of diazepam on defense behaviors. The co-administration of diazepam and abecarnil produced a behavioral profile similar to that observed when diazepam was administered alone, indicating that abecarnil did not influence the effects of diazepam on defense. By contrast, diazepam completely antagonized the sedative effects of abecarnil. 6. These findings indicate that only BZ (omega) ligands with high intrinsic efficacy at all BZ (omega) receptor subtypes display clear and specific effects on defensive behaviors in mice, and suggest that GABAA receptors containing the alpha 3 subunit might represent the primary target involved in the modulatory action of diazepam on defensive behaviors.

Preferential involvement of D3 versus D2 dopamine receptors in the effects of dopamine receptor ligands on oral ethanol self-administration in rats

There is evidence that dopamine transmission is involved in reinforcement processes and the present study investigated the relative involvement of D3 versus D2 dopamine receptors in the effects of dopamine ligands on the reinforcing action of ethanol. Rats were trained to self-administer ethanol (10% v/v) orally in a free-choice two-lever operant task using a saccharin-fading procedure. When preference in responding for ethanol over water had developed the rats were tested with several dopamine agonists and antagonists. Pretreatment with the non-selective dopamine agonist, apomorphine (0.01-0.1 mg/kg), the preferential D2 agonist, bromocriptine (1-10 mg/kg) and the selective D3 agonists, 7-OH-DPAT (0.003-0.1 mg/kg), PD 128907 (0.1-3 mg/kg), (+)3PPP (0.3-3 mg/kg), quinelorane (0.0001-0.003 mg/kg) and quinpirole (0.003-0.03 mg/kg), resulted in dose-dependent decreases in responding for ethanol. The relative potencies of the dopamine agonists to decrease ethanol self-administration were highly correlated with their published potencies to produce in vitro functional D3 but not D2 responses. Active doses could be considered as those selectively stimulating receptors involved in the control of dopamine release, suggesting that reduction of dopamine transmission was associated with a decrease in ethanol-reinforced responding. This conclusion was further supported by the finding that pretreatment with the D2/D3 dopamine antagonists, haloperidol (0.1-0.4 mg/kg) and tiapride (10-60 mg/kg), decreased responding for ethanol at doses which have been shown previously to block dopamine transmission.

Characterization of the behavioral profile of the non-peptide CRF receptor antagonist CP-154,526 in anxiety models in rodents. Comparison with diazepam and buspirone

The present series of experiments compared the behavioral effects of the novel non-peptide CRF antagonist CP-154,526 with those of diazepam and the 5-HT1A receptor partial agonist buspirone in classical animal models of anxiety including conflict tests (punished lever pressing and punished drinking tests in rats) and exploratory models (elevated plus-maze test in rats, light/dark choice and free-exploration tests in mice), and a recently developed mouse defense test battery (MDTB) which has been validated for the screening of anxiolytic drugs. Results from both conflict procedures showed that diazepam (2.5-10 mg/kg, i.p.) produced clear anxiolytic-like effects, whereas buspirone (2.5 mg/kg, i.p.) displayed anticonflict activity in the punished drinking test only. CP-154,526 (0.6-20 mg/kg) was devoid of significant activity in both procedures. In the elevated plus-maze, diazepam (2 mg/kg, i.p.) produced significant effects on traditional (i.e. spatio-temporal) and ethologically derived (i.e. risk assessment and directed exploration) indices of anxiety. Buspirone (1-4 mg/kg, i.p.) reduced risk assessment activities only, and CP-154,526 (0.6-20 mg/kg, i.p.) did not modify the indices of anxiety in the elevated plus-maze. In the light/dark test, diazepam (2.5-5 mg/kg, i.p.) and CP-154,526 (10-40 mg/kg, i.p.) affected all behavioral indices of anxiety, while buspirone reduced risk assessment activities at the highest doses only (10 and 15 mg/kg, i.p.). In the free-exploration test, diazepam (1 mg/kg, i.p.) reduced avoidance responses towards novelty, as indicated by the increase in exploratory activity in a novel compartment and the decrease in risk assessment. CP-154,526 failed to affect the former behavior and weakly reduced the latter (5 and 20 mg/kg, i.p.). Buspirone (1.25-5 mg/kg, i.p.) was inactive in this test. Finally, in the MDTB, diazepam (0.5-3 mg/kg, i.p.) attenuated all defensive reactions of mice confronted with a rat stimulus (i.e. flight, risk assessment and defensive attack) or with a situation associated with this threat (i.e. contextual defense). Buspirone (1.25-5 mg/kg, i.p.) reduced defensive attack and contextual defense, while CP-154,526 (5-20 mg/kg, i.p.) affected all defensive behaviors, with the exception of one risk assessment measure. The finding that CP-154,526 displayed positive effects in mice but not in rats may be due to increased sensitivity to environmental stress of the strains used (i.e. BALB/c, Swiss) and/or to the fact that animals were exposed to unavoidable stress stimuli which may lead to a significant activation of the CRF system. Although in mice the anxiety-reducing potential of CP-154,526 is superior to that of the atypical anxiolytic buspirone, it is smaller in terms of the magnitude of the effects and the number of indices of anxiety affected than that of diazepam.

Behavioral effects of phenelzine in an experimental model for screening anxiolytic and anti-panic drugs: correlation with changes in monoamine-oxidase activity and monoamine levels

This study investigated the effects of acute and chronic (one daily i.p. injection for 14 days) treatments with the non-selective irreversible monoamine-oxidase (MAO) inhibitor phenelzine (10 and 30 mg/kg) on defensive behaviors of Swiss mice in the mouse defense test battery (MDTB) which has been designed for screening anxiolytic and anti-panic drugs. In the MDTB, subjects were confronted with a natural threat (a rat) and situations associated with this threat. MAO-A and MAO-B activities and levels of brain monoamines (serotonin (5-HT), dopamine (DA) and norepinephrine (NE)) and their deaminated metabolites were subsequently measured. Behavioral results showed that acute administration of phenelzine did not specifically modify defensive behaviors. By contrast, after chronic treatment, phenelzine produced a significant reduction in avoidance distance when the rat was approaching, an effect which is consistent with an anti-panic-like action. In addition, phenelzine displayed weak anxiolytic-like effects as it increased risk assessment responses when mice were constrained in one part of the apparatus facing the rat which remained at a constant distance. No other specific drug effect was observed. These behavioral changes were associated with a dramatic increase in 5-HT levels, in particular after chronic treatment, while levels of DA and NE increased only slightly. Importantly, no significant differences in DA and NE levels between acute and chronic regimens were observed. Levels of deaminated metabolites of monoamines were markedly decreased. Measurements of MAO activity revealed substantial reductions in both type A and B forms with a full inhibition of both forms being observed only after chronic treatment with phenelzine. These results suggest that the effects of phenelzine may be due mainly to its effects on the 5-HT system and presumably related to the full inhibition of MAO-A and/or MAO-B.

Neuroprotective effect of eliprodil: attenuation of a conditioned freezing deficit induced by traumatic injury of the right parietal cortex in the rat

We have previously demonstrated that a lateral fluid percussion-induced traumatic lesion of the right parietal cortex can lead to a deficit in a conditioned freezing response and that this deficit can be attenuated by both pre- and postlesion administration of the NMDA receptor antagonist dizocilpine. In the present study, we investigated the effects of eliprodil, a noncompetitive NMDA receptor antagonist acting at the polyamine modulatory site, which also acts as a Ca2+ channel blocker, on the trauma-induced conditioned freezing deficit. Eliprodil produced a 50% reduction in this deficit when administered as three 1 mg/kg injections i.v. at 15 min, 6 h, and 24 h following the lesion. Approximately the same degree of protection was afforded when 2 x 1.5 mg/kg were administered 6 and 24 h and equally at 12 and 24 h after surgery (56% and 59%, respectively). A single treatment (3 mg/kg) at 24 h was ineffective against the deficit. The protection afforded with treatment at 6 and 24 h after lesion was dose dependent, with a minimal active dose of 2 x 0.75 mg/kg. These data complement those previously published on the ability of eliprodil to reduce lesion volume following traumatic brain injury and show, in addition, that the neuroprotective effect has functional consequences.

Mild traumatic lesion of the right parietal cortex of the rat: selective behavioural deficits in the absence of neurological impairment

Fluid impact models are widely used to study the histological and neurochemical consequences of traumatic brain injury and although behavioural consequences have also been studied, behavioural changes are often confounded by non-specific neurological deficits. In the present study we investigated behavioural effects of a unilateral mild traumatic lesion of the right lateral parietal cortex. This region is implicated in a number of basic and complex behaviors, and we therefore analyzed the performance of rats in a diverse range of behavioural procedures. The lesion had no effects on general neurological function, motor activity (activity boxes, rota-rod and paw reaching tests), habituation to a novel environment (holeboard), spatial learning ability (Morris water maze) or anxiety (elevated plus-maze). However, the lesioned animals demonstrated lower levels of exploration than the control group when novel objects were placed beneath some of the holes in the holeboard. Lesioned animals also differed from controls in their performance in passive and active avoidance procedures. In a step-through passive avoidance test the lesioned rats performed worse than the sham-operated controls, i.e. they had significantly lower entry latencies on the 2nd day. In contrast, in the active avoidance task the lesioned animals performed better than sham-operated rats, demonstrating a better ability to learn to avoid and escape from the shock. These diverse results in different tests of learning and memory, in particular the impairment in passive avoidance and the improvement in active avoidance behavior, are difficult to reconcile with a simple effect of the lesion on cognitive performance per se. The complete absence of general neurological deficits following the mild traumatic injury rules out the possibility that the observed behavioural changes reflect a non-specific impairment. These results demonstrate that mild traumatic lesion of the right parietal cortex can induce relatively selective behavioural changes that may serve to study functional recovery after trauma. However further work is required to establish the underlying deficit(s) that has led to the behavioural effects described here.

Mild traumatic lesion of the right parietal cortex in the rat: characterisation of a conditioned freezing deficit and its reversal by dizocilpine

We have previously demonstrated that traumatic injury of the lateral aspect of the right parietal cortex results in reduced acquisition of the passive avoidance task but enhanced learning in an active avoidance procedure. In order to try to explain the apparent dichotomy between these findings a series of experiments examined the effect of fluid percussion-induced traumatic brain injury (FP-TBI) on the conditioned freezing response to a context previously paired with an aversive stimulus. Rats subjected to FP-TBI displayed less conditioned freezing than the sham-operated controls. This effect was particularly marked when the delay between context exposure and footshock was short (< or = 30 s) and was no longer significant when this delay was 3 min, indicating that the injured animals did not have an impaired freezing response per se. This phenomenon was enduring such that it could still be observed 2 months following the surgery. There was no significant freezing deficit after FP-TBI of the motor cortex, demonstrating that the site of injury is important and that the freezing deficit is not a general response to CNS trauma. The NMDA receptor antagonist dizocilpine (MK-801, 1 mg/kg i.v.) significantly reduced the trauma-induced freezing deficit when administered as a single bolus 15 min prior to the surgery, or as three repeated treatments (3 x 0.33 mg/kg) 15 min, and 6 and 24 h following lesion. The trauma-induced deficit in conditioned freezing can explain the differences in active and passive avoidance behaviours and appears to be specific to lesion of the lateral parietal cortex. In addition, the behavioural deficit can be attenuated using the neuroprotective agent dizocilpine, suggesting that it may prove useful as a sensitive and specific measure of cortical damage following traumatic injury.

CCK receptor antagonists in animal models of anxiety: comparison between exploration tests, conflict procedures and a model based on defensive behaviours

The present experiments compared the behavioural effects of one cholecystokininA (CCKA; lorglumide) and two CCKB (PD 135,158 and LY 288513) receptor antagonists in classical animal models of anxiety, including conflict tests (punished lever pressing and Vogel drinking tests in rats) and exploratory models (elevated plus-maze test in rats and light/dark choice test in mice), and a recently developed mouse defence test battery (MDTB) which has been validated for the screening of both anti-panic and classical anxiolytic (i.e. benzodiazepines) drugs. Diazepam was used as a positive control. Results showed that all three CCK receptor antagonists were inactive in both conflict tests. Furthermore, despite the incorporation of more ethologically-derived measures (i.e. risk assessment activities or directed exploration, or both) no effects were observed in the elevated plus-maze and in the light/dark tests. These profiles contrast with that of diazepam which displayed clear anxiolytic-like effects in these models. In the MDTB, the CCK receptor antagonists failed to modify parameters (i.e. risk assessment, defensive threat/attack and escape attempts), which have been shown to be particularly sensitive to drugs effective in the treatment of generalized anxiety. By contrast, the CCKB receptor antagnoists PD 135,158 (0.001-0.01, 1 mg/kg, i.p.) and LY 288513 (1 and 3 mg/kg, i.p.) significantly decreased avoidance distance when the rat was first placed in the test apparatus, an effect which is consistent with an anti-panic-like action. Overall, these findings support the idea that classical animal models of anxiety may not be suitable for evaluation of the behavioural effects of CCK receptor antagonists, whereas tests which may model certain aspects of human panic such as the MDTB appear to be more reliable tools when screening such compounds.

Assessment of the antidepressant-like effects of L-type voltage-dependent channel modulators

L-type voltage-dependent calcium channel blockers acting at different sites were tested in animal models of depression. Their effects on locomotion were studied in separate experiments. Nifedipine, a drug which interacts selectively with dihydropyridine (DHP) binding sites, reduced immobility time in the mouse forced swimming test and tail suspension test, but lacked activity in the differential-reinforcement-of-low-rate schedule in rats (DRL 72 s). The effects of nifedipine in the tail suspension test was partly antagonized by Bay K 8644, a DHP channel activator, indicating that its effect involved L-type calcium channel. Several other DHP drugs (nicardipine, nitrendipine, isradipine, felodipine and nimodipine) also showed antidepressant-like properties in the tail suspension test, whereas amlodipine, a less selective compound, lacked activity. In contrast to the DHP drugs, verapamil and (-)emopamil (which act at the phenylalkylamine binding sites), diltiazem and clentiazem (benzothiazepine binding sites), and the non-selective drug, flunarizine, were inactive in the tail suspension test. Negative results were also obtained with verapamil, diltiazem and flunarizine in the forced swimming test and with flunarizine on DRL 72 s responding. The present results show that DHP channel blockers displayed 'antidepressant-like' properties in mice. There was little dissociation, however, between the doses that produced antidepressant effects and those that decreased locomotor activity.

Characterization of the discriminative stimulus produced by the dopamine antagonist tiapride

The ability of tiapride, a selective D2/D3 dopamine receptor antagonist, to exert discriminative stimulus control of responding was investigated by training rats to discriminate this drug (30 mg/kg) from saline in a two-lever, food-reinforcement procedure. Acquisition of tiapride discrimination required a relatively lengthy training period (mean of 76 sessions) but stable performance was maintained throughout the 18- month study. The dose of tiapride eliciting 50% tiapride-lever choice (ED50) was 2.2 mg/kg. After determination of the dose-effect curve with tiapride, substitution tests with several dopamine antagonists and other reference compounds were performed. All dopamine antagonists, including amisulpride (ED50 4 mg/kg), sulpiride (18 mg/kg), sultopride (1.5 mg/kg), clebopride (0.13 mg/kg), raclopride (0.16 mg/kg), metoclopramide (1.4 mg/kg), remoxipride (4.8 mg/kg), pimozide (2.7 mg/kg), thioridazine (3.4 mg/kg), olanzapine (0.97 mg/kg), chlorpromazine (1.9 mg/kg), risperidone (0.22 mg/kg) and haloperidol (0.14 mg/kg), except clozapine (>10 mg/kg), produced dose-dependent substitution for tiapride. Tiapride-like stimulus effects were observed at doses that decreased response rates. However, ED50 values for substitution by tiapride, amisulpride, sulpiride, sultopride, pimozide, clebopride and thioridazine were lower than ED50 values for decreasing responding. Additional studies were conducted to evaluate the ability of direct and indirect dopamine agonists to attenuate the tiapride discriminative stimulus. Pretreatment with d-amphetamine and nomifensine antagonized the discriminative stimulus effects of tiapride. Quinpirole, 7-OH-DPAT, bromocriptine and apomorphine partially blocked the stimulus effects of tiapride whereas SKF 38393 did not affect the discrimination. These results from substitution and antagonism tests indicated that the discriminative effects of tiapride are mediated by activity at D2/D3 dopamine receptors.

Effects of dihydropyridine Ca2+ channel blockers on the discriminative stimulus and the motor impairing effects of (+/-)-Bay K 8644

Functional interactions between the dihydropyridine Ca2+ channel activator, (+/-)-Bay K 8644 (methyl-1,4-dihydro-2,6-dimethyl-3-nitro-4-(2-trifluoromethyphenyl )-pyridine-5-carboxylate), and several dihydropyridine L-type Ca2+ channel blockers were investigated on rotarod performance in mice and in rats trained to discriminate between (+/-)Bay K 8644 and saline. When administered alone, (+/-)-Bay K 8644 produced dose-dependent impairments of rotarod activity with an ED50 of 1.3 mg/kg. Pretreatment with nifedipine (10-30 mg/kg) produced dose-dependent rightward shifts of the (+/-)-Bay K 8644 dose-response curve. In contrast, pretreatment with several other dihydropyridine L-type Ca2+ channel blockers, including nicardipine, nimodipine, isradipine and nitrendipine, did not modify the (+/-)-Bay K 8644 dose-effect function. Rats learned to discriminate between (+/-)-Bay K 8644 (0.5 mg/kg) and saline in an average of 65 training sessions. In substitution tests, the Ca2+ channel activator engendered dose-related increases in the percentage of rats selecting the drug-associated lever with an ED50 of 0.19 mg/kg. Pretreatment with nifedipine (10 mg/kg) produced a rightward shift of the (+/-)-Bay K 8644 dose-response function. Pretreatment with nicardipine (2.5 mg/kg) only partially antagonised the training dose of (+/-)-Bay K 8644 whereas nimodipine (0.6-10 mg/kg) did not affect the (+/-)-Bay K 8644 discriminative stimulus. The results of the present study show that the behavioural effects of the dihydropyridine Ca2+ channel activator are differentially modified by dihydropyridine L-type Ca2+ channel blockers. These results may suggest that dihydropyridine blockers possess different intrinsic activities or act at different binding sites.

Quantitative motor assessment in FALS mice: a longitudinal study

We have evaluated the G1H line of transgenic mice overexpressing a familial ALS mutation of SOD1 (Gly-93-->Ala) in tasks assessing different aspects of motor function to determine how early these deficits could be detected and their order of appearance. The earliest deficits were observed in tests of muscle strength and coordination as early as 8 weeks of age and their development appeared to be biphasic, whereas spontaneous activity was not impaired until 15 weeks of age. These studies show that, in addition to the previously demonstrated histological and electromyographic deficits, this transgenic mouse also presents changes in motor function reminiscent of the human disease, reinforcing and extending its validity as an animal model of familial amyotrophic lateral sclerosis (FALS) and allowing the investigation of novel drug treatment for ALS.

Some, but not all, antipsychotic drugs potentiate a low level of prepulse inhibition shown by rats of the Wistar strain

In a previous study using Sprague-Dawley rats, we showed that in a prepulse inhibition (PPI) procedure with levels of PPI ranging from approximately 10 to 40% (for prepulse intensities 2, 9 and 15 dB above background noise), the antipsychotics clozapine and haloperidol, but also the alpha 1 adrenoceptor antagonist prazosin, robustly and dose-dependently potentiated PPI. In contrast, the antipsychotics risperidone, amisulpride, raclopride and remoxipride did not potentiate PPI. The false positive (prazosin) and the four false negatives led us to conclude that this PPI-enhancing procedure had poor predictive validity as a screening tool for potential antipsychotics. In the present study, we used Wistar rats, which under the same protocol as that used for Sprague-Dawley rats show a very low level of PPI. We examined the ability of six antipsychotics, given intraperitoneally (i.p.), to reverse this PPI deficit. It was found that clozapine (5-20 mg/kg), olanzapine (5-20 mg/kg) and sertindole (1-10 mg/kg) reversed this deficiency of PPI (i.e. potentiated the low level of PPI). In contrast, risperidone (0.1-1 mg/kg), remoxipride (1-10 mg/kg) and haloperidol (0.1-1 mg/kg) were inactive. The negative results with three clinically active antipsychotics (risperidone, remoxipride and haloperidol) indicate that reversal of this PPI deficit in Wistar rats has poor predictive validity to screen for potential antipsychotic activity. In an attempt to investigate the mechanism that might underlie the reversing effect of clozapine, olanzapine and sertindole, we tested the ability of the alpha 1 adrenoceptor antagonist prazosin (3-20 mg/kg), the dopamine D1 receptor antagonist SCH 23390 (0.01-0.1 mg/kg) and the 5-HT2 antagonist ritanserin (0.3-3 mg/kg) to reverse the PPI deficit. Negative results with these three drugs did not allow us to characterize the receptor(s) that might be implicated in the reversal of this type of PPI deficit.

Potentiation of prepulse inhibition of the startle reflex in rats: pharmacological evaluation of the procedure as a model for detecting antipsychotic activity

Prepulse inhibition (PPI) of the startle reflex-whereby presentation of a weak prepulse preceding a startling pulse diminishes the amplitude of the startle reflex-is disrupted by dopamine (DA) agonists; this disruption can be reversed by antipsychotics. There are also some indications in the literature that a few antipsychotics (most notably clozapine and haloperidol) may, on their own, have effects opposite to those of DA agonists, i.e. may enhance PPI. In order to explore these antipsychotic-induced potentiations of PPI more thoroughly, we assessed, in Sprague-Dawley rats, the effects of IP administration of various clinically effective antipsychotics in a PPI procedure with levels of PPI (ranging from 5 to about 40%) low enough to facilitate detection of PPI-potentiating effects of drugs. Both clozapine (5-20 mg/kg) and haloperidol (0.25-1 mg/kg) robustly and dose-dependently potentiated PPI. A similar effect was not seen with risperidone (0.1-1 mg/kg) or with the three substituted benzamides amisulpride (10-60 mg/kg), raclopride (0.1-3 mg/kg) and remoxipride (1-10 mg/kg). As risperidone is known to have prominent 5-HT2 antagonistic activity, these results do not indicate a role for 5-HT2 receptors in the clozapine and haloperidol PPI-enhancing effects. The absence of effects with the benzamides and with risperidone, at doses with known anti-dopaminergic activity, suggests that DA antagonist activity is not involved. The demonstration that prazosin (3-20 mg/kg), a non-antipsychotic with alpha 1 adrenoceptor antagonistic properties, dose-dependently potentiated PPI indicates that alpha 1 receptors might mediate the clozapine and haloperidol PPI-enhancing activity. Additionally, the finding that diazepam (1-10 mg/kg) did not enhance, but on the contrary reduced PPI, argues against a sedation- or general depressant-mediated effect of clozapine, haloperidol and prazosin. The negative results with four clinically active antipsychotics (risperidone and the benzamides), and the positive result with the non-antipsychotic prazosin indicate that this PPI-enhancing procedure has poor predictive validity as a screening tool for potential antipsychotics.

Risk assessment behaviour: evaluation of utility in the study of 5-HT-related drugs in the rat elevated plus-maze test

The present study compared the effects of a wide range of 5-hydroxytryptamine (5-HT)-modulating and potential anxiolytic agents in the rat elevated plus-maze using spatiotemporal (i.e., open arm time and entries) and ethologically derived measures (i.e., risk assessment activities and directed exploration). The drugs used were 5-HT1A receptor partial (buspirone and ipsapirone) and full (8-OH-DPAT and flesinoxan) agonists, mixed 5-HT2A/2C receptor antagonists (ritanserin, ketanserin, mianserin, and pirenperone), selective 5-HT3 receptor antagonists (ICS 205-930, MDL 72222, ondansetron, and (RS)-zacopride), and selective (fluoxetine, fluvoxamine, and zimelidine) and nonselective (imipramine) 5-HT reuptake inhibitors. Only buspirone and mianserin produced effects indicative of an anxiolytic-like action on the spatiotemporal measures. However, all 5-HT1A receptor ligands, as well as mianserin, ketanserin, ondansetron, and zacopride, decreased the number of aborted attempts at entry into open arms (risk assessment). In addition, buspirone, mianserin, and zacopride increased head-dipping (directed exploration). Among the 5-HT reuptake inhibitors, zimelidine reduced head-dipping and total entries. The present findings demonstrate that risk assessment responses are sensitive to the action of 5-HT1A receptor ligands, but their modulation by drugs targetting 5-HT2A, 5-HT2C, and 5-HT3 receptors was not convincingly established.

The effects of new hypnotic drugs in rats trained to discriminate ethanol

Several new, non-benzodiazepine hypnotic drugs have recently been marketed (zopiclone, zolpidem) or are in development (zaleplon, SX 3228). These compounds act at benzodiazepine (BZ) (omega) receptors but have mechanisms of action which are not identical to those of benzodiazepines; in particular, zolpidem, zaleplon and SX 3228 have been reported to have selectivity for the BZ1 (omega 1) receptor subtype. In the present study the effects of the four hypnotic drugs were investigated in rats trained to discriminate ethanol (1 g/kg). Comparisons were made with pentobarbital and the benzodiazepines, lorazepam and midazolam. The two benzodiazepines and the barbiturate produced dose-related substitution for ethanol. In contrast, zolpidem, zaleplon, SX 3228 and zopiclone gave rise to only partial (maximum effect 50-67%) substitution, even at doses which greatly reduced rates of lever pressing. The limited ethanol-like effects of zolpidem, zaleplon and SX 3228 may be related to the more selective mechanism of action of these compounds. It is not clear why the effects of zopiclone differed from those of the benzodiazepines.

Evidence for the involvement of dopamine receptors in ethanol-induced hyperactivity in mice

Based on the hypothesis that drugs of abuse increase locomotor activity through mechanisms related to reinforcement, i.e. the mesolimbic dopamine (DA) system, ethanol-induced hyperactivity might provide a screening model to investigate the effect of ethanol on reward pathways. In the present study, ethanol had bidirectional effects on locomotion in mice: hyperactivity at low doses (2-3 g/kg) and sedation at high doses (4-5 g/kg). Such high doses induced a loss of righting reflex (LRR). The stimulant effect of ethanol was blocked by the D2/D3 antagonists, haloperidol (0.2 mg/kg) and tiapride (30-60 mg/kg), and by the D1 antagonist, SCH 23390 (0.03 mg/kg) whereas the non selective DA antagonist, clozapine decreased ethanol-induced hyperactivity at a dose (1 mg/kg) which also decreased activity in control animals. Unlike haloperidol and clozapine which potentiated LRR induced by ethanol, the selective DA antagonists, tiapride and SCH 23390, had no effect. Pretreatment with the D2/D3 agonist, quinpirole (0.1-0.3 mg/kg), reduced hyperactivity induced by ethanol presumably by stimulation of pre-synaptic receptors but did not change LRR. The D1 full agonist, SKF 81297 which produced hyperactivity by itself and the D1 partial agonist, SKF 38393, did not specifically affect ethanol-induced activities. The results indicate that activation of D1 and D2/D3 DA receptors is implicated in ethanol-induced hyperactivity whereas other mechanisms might mediate the sedative effects of ethanol. Tiapride and haloperidol, both used in the management of alcohol dependence, might exert beneficial effects by counteracting the reinforcing effects of ethanol. Tiapride's lack of interaction with the depressant effects of ethanol may account for its better tolerance in alcoholic patients.

A comparative study of the effects of selective and non-selective 5-HT2 receptor subtype antagonists in rat and mouse models of anxiety

Although there is some evidence that compounds acting at 5-HT2 receptors show anxiolytic activity, little is known about the specific involvement of the different 5-HT2 receptor subtypes in the modulation of anxiety-related responses. In the present study, the behavioural effects of mianserin, a non-selective 5-HT2 receptor antagonist, MDL 100,907, a selective 5-HT2A receptor antagonist, and SB 206553, a selective 5-HT2B/2C receptor antagonist, were investigated in two rat (the Vogel drinking conflict and the elevated plus-maze tests) and two mouse (i.e. the mouse defense test battery (MDTB) and the light/dark choice test) models of anxiety. Diazepam was used as a positive control. In the Vogel drinking test, mianserin (10 mg/kg) and SB 206553 (3-30 mg/kg), but not MDL 100,907, increased punished responding. Similarly, mianserin (1 mg/kg) and SB 206553 (3-10 mg/kg), but not MDL 100,907, increased entries into the open arms of the elevated plus-maze. These effects are consistent with anxiolytic-like actions of mianserin and SB 206553, although the magnitude of the effects of these two compounds was less than those of diazepam. In addition, in the MDTB, the 5-HT2 antagonists did not clearly affect the defensive reactions of mice exposed to a rat stimulus and they failed to reverse the avoidance of the illuminated box in the light/dark choice test. These results indicate a lack of anxiolytic-like action of the compounds in mice. These behavioural profiles suggest that blockade of the 5-HT2A receptor may not reduce anxiety and demonstrate that 5-HT2B and/or 5-HT2C receptor subtypes may be primarily involved in the anxiolytic-like effects of mianserin and SB 206553 in rats.

Amisulpride: from animal pharmacology to therapeutic action

Amisulpride is a benzamide derivative with a unique neurochemical and psychopharmacological profile. This compound has selective affinity for human dopamine D3 and D2 receptor subtypes in vitro (binding constant, K approximately 3 nmol/l) and blocks functional responses mediated by these receptors. In ex vivo binding studies, amisulpride is twice as selective for D3 as for D2 receptors. At low doses, it preferentially blocks presynaptic dopamine autoreceptors (increase in dopamine release in vivo in the rat olfactory tubercle, 50% effective dose, ED50 3.7 mg/kg), while postsynaptic dopamine receptor antagonism is apparent at higher doses (decrease in striatal acetylcholine levels, ED50 approximately 60 mg/kg). Anisulpride preferentially stimulates dopamine synthesis and displaces 3H-raclopride binding in vivo in the limbic system rather than the striatum. It antagonizes apomorphine-induced hypothermia in mice and amphetamine-induced hypermotility in rats at low doses (ED50 2-3 mg/kg), blocks apomorphine-induced climbing and spontaneous grooming in mice, blocks apomorphine-induced gnawing in rats at higher doses (ED50 19-115 mg/kg) and does not induce catalepsy at 100 mg/kg. The preferential antagonism by amisulpride of presynaptic D2/D3 receptors is reflected behaviourally in the potent blockade of apomorphine-induced effects mediated by dopamine autoreceptors (yawning and hypomotility: ED50 0.2 and 0.3 mg/kg, respectively) compared with those medicated by postsynaptic D2 receptors (e.g. gnawing: ED50 115 mg/kg). Moreover, low doses of amisulpride induce prohedonic (potentiation of food-induced place preference) effects in rats. The atypical neurochemical and psychopharmacological profiles of amisulpride may explain its therapeutic efficacy on both positive and negative symptoms of schizophrenia.

Behavioural profiles of the reversible monoamine-oxidase-A inhibitors befloxatone and moclobemide in an experimental model for screening anxiolytic and anti-panic drugs

The present study compared the behavioural effects of acute and chronic (one daily i.p. injection for 14 days) treatments with the reversible monoamine oxidase-A inhibitors (RIMAs) moclobemide (3 and 10 mg/kg) and befloxatone (0.3 and 1 mg/kg) in the Mouse Defence Test Battery (MDTB) which has been designed for screening anxiolytic and anti-panic drugs. In the MDTB, Swiss mice were confronted with a natural threat (a rat) and situations associated with this threat. Primary measures taken before, during and after rat confrontation were escape attempts, flight, risk assessment (RA) and defensive threat and attack. After acute administration of both compounds, no modification of defensive behaviours were observed. This was in contrast to chronic treatments, where moclobemide (3 and 10 mg/kg) and befloxatone (1 mg/kg) produced a significant reduction in one flight measure (avoidance distance when the rat was approaching). In addition, befloxatone (0.3 and 1 mg/kg), but not moclobemide, increased RA responses when mice were constrained in one part of the apparatus facing the rat, which remained at a constant distance. No other drug effects were observed with either compound. Although these behavioural profiles are consistent with an anxiolytic-like effect, the finding of an action upon a limited number of defence responses suggests a weaker anxiolytic-like potential compared to that of classical anxiolytics. However, in view of previous data with panic-modulating compounds on flight behaviours in the MDTB, the present results are in line with clinical results showing that moclobemide is effective in panic disorders and suggest that befloxatone may have some efficacy in the clinical management of panic.

Discriminative stimulus effects of apomorphine and 7-OH-DPAT: a potential role for dopamine D3 receptors

Previous studies have reported that the non-selective dopamine agonist, apomorphine, can serve effectively as a discriminative stimulus in experimental animals, and evidence has been presented that this effect is mediated by dopamine D2 receptors. More recently, it has been found that another dopamine agonist, 7-OH-DPAT, which has some selectivity for D3 receptors, also produces a discriminative cue in rats. The present study set out to make a direct comparison of the discriminative stimulus effects of these two compounds. Rats were trained to discriminate either apomorphine (0.05 mg/kg, SC) or 7-OH-DPAT (0.1 mg/kg, IP) from saline. Both discriminations were acquired but extended training was necessary. Cross generalisation occurred between the two compounds and both cues generalised to the dopamine agonists, quinpirole, quinelorane, PD 128207, and bromocriptine. When the potencies of these compounds to produce the apomorphine or 7-OH-DPAT cues were correlated with their potencies to produce D2 or D3 functional responses in vitro (mitogenesis in transfected cells-results taken from the literature) stronger correlations with D3 than with D2 responses were observed. Both the cueing and the response rate-decreasing effects of apomorphine and 7-OH-DPAT were antagonised by the autoreceptor selective dopamine antagonist amisulpride, and sulpiride also antagonised the cues but without affecting response rates. In contrast, haloperidol blocked the cues but potentiated the response rate decreases. These results suggest that, at the doses used, apomorphine and 7-OH-DPAT produce similar discriminative stimuli, which may be mediated by presynaptically located dopamine D3 receptors.