Pharmacological characterization and CNS effects of a novel highly selective alpha2C-adrenoceptor antagonist JP-1302.

BACKGROUND AND PURPOSE: Pharmacological validation of novel functions for the alpha2A-, alpha2B-, and alpha2C-adrenoceptor (AR) subtypes has been hampered by the limited specificity and subtype-selectivity of available ligands. The current study describes a novel highly selective alpha2C-adrenoceptor antagonist, JP-1302 (acridin-9-yl-[4-(4-methylpiperazin-1-yl)-phenyl]amine). EXPERIMENTAL APPROACH: Standard in vitro binding and antagonism assays were employed to demonstrate the alpha2C-AR specificity of JP-1302. In addition, JP-1302 was tested in the forced swimming test (FST) and the prepulse-inhibition of startle reflex (PPI) model because mice with genetically altered alpha2C-adrenoceptors have previously been shown to exhibit different reactivity in these tests when compared to wild-type controls. KEY RESULTS: JP-1302 displayed antagonism potencies (KB values) of 1,500, 2,200 and 16 nM at the human alpha2A-, alpha2B-, and alpha2C-adrenoceptor subtypes, respectively. JP-1302 produced antidepressant and antipsychotic-like effects, i.e. it effectively reduced immobility in the FST and reversed the phencyclidine-induced PPI deficit. Unlike the alpha2-subtype non-selective antagonist atipamezole, JP-1302 was not able to antagonize alpha2-agonist-induced sedation (measured as inhibition of spontaneous locomotor activity), hypothermia, alpha2-agonist-induced mydriasis or inhibition of vas deferens contractions, effects that have been generally attributed to the alpha2A-adrenoceptor subtype. In contrast to JP-1302, atipamezole did not antagonize the PCP-induced prepulse-inhibition deficit. CONCLUSIONS AND IMPLICATIONS: The results provide further support for the hypothesis that specific antagonism of the alpha2C-adrenoceptor may have therapeutic potential as a novel mechanism for the treatment of neuropsychiatric disorders.

Selegiline reduces N-methyl-D-aspartic acid induced perturbation of neurotransmission but it leaves NMDA receptor dependent long-term potentiation intact in the hippocampus.

This study examined the effects of monoamine oxidase (MAO) inhibitors on N-methyl-D-aspartic acid (NMDA)-induced perturbation of neurotransmission and normal NMDA-receptor dependent function (long-term potentiation, LTP) in the CA1 field of hippocampus. During baseline recording, neurotransmission was unaffected by long-term bath perfusion with MAO inhibitors (selegiline, pargyline). After NMDA (100 microM) infusion, the presence of selegiline (1 microM) promoted the recovery rate and increased the size of recovered extracellular field excitatory postsynaptic potentials (fEPSPs). Selegiline (1 microM) also prevented the NMDA-induced increase in paired pulse facilitation (PPF). The induction and maintenance of LTP were normal with this same concentration of selegiline. The presence of lower concentration (10 nM) of selegiline or pargyline (1 microM) did not improve the recovery process. These results suggest that selegiline partially protects the function of CA3-CA1 hippocampal connections against overactivation of NMDA receptors. Further, the same concentration of selegiline does not interfere with the physiological function of NMDA receptors in the CA1 field of the hippocampus. The exact mechanism of action remains to be determined, but it is apparently downstream to the overactivation of NMDA receptors.

Inhibition of MAO-A activity enhances behavioural activity of rats assessed using water maze and open arena tasks.

To determine if the inhibition of MAO-A and/or MAO-B activities can influence cognitive processes in adult rats, we analysed whether chronic treatment with clorgyline, 1-deprenyl and pargyline could modify the performance of adult rats in a modified version of the water maze task. The effects of these treatments on locomotor activity and enzyme activities were also assessed. Rats were treated for 24 days with clorgyline (0.2 mg/kg), 1-deprenyl (0.25 mg/kg) and pargyline (I or 10 mg/kg). The treatments were started two weeks before the water maze experiment and continued until the end of testing. The rats were trained to find a submerged platform (6 days: I trial/day; 7 th day: probe trial). Over the next three days, locomotor activity was assessed in an open arena. Treatments with clorgyline (MAO-A inhibitor), 1-deprenyl (MAO-B inhibitor) and pargyline (non-selective MAO inhibitor) did not improve the finding of the hidden platform, when compared to treatment with saline, but significantly increased the swimming speed of the rats. The different treatments, when compared to saline, failed to modify the distance covered and the number of groomings performed in the open arena. However, clorgyline and pargyline, 10 mg/kg, increased the number of faecal boli and clorgyline enhanced the number of rearings made when compared to saline, 1-deprenyl and pargyline, 10 mg/kg. These results indicate that near total inhibition of MAO-A by clorgyline and pargyline as assessed by MAO activity measurement induces an increase in locomotor activity but that inhibition of MAO-A or MAO-B, either alone or combined, does not facilitate spatial learning in adult rats.

Evaluation of the alpha2C-adrenoceptor as a neuropsychiatric drug target studies in transgenic mouse models.

The functional characterization of the three distinct alpha2-adrenoceptor (Q2-AR) subtypes was for long hampered by the inavailability of subtype-selective pharmacological probes. Recent studies with gene-targeted mice have revealed that the alpha2A-AR has a major role in the mediation of many prominent effects of subtype non-selective alpha2-AR agonists, i.e. sedation, analgesia, hypothermia, sympatho-inhibition, and reduction of blood pressure. We have now employed several neuropsychopharmacological test models to investigate the effects mediated by the alpha2C-AR subtype and this receptor's potential as a CNS drug target. The studies employed two genetically engineered mouse strains, having either a targeted inactivation of the alpha2C-AR gene (alpha2C-KO) or over-expressing the alpha2C-AR (alpha2C-OE). Lack of alpha2C-AR expression was associated with increased amphetamine-induced locomotor activity, startle reactivity, aggression, and activity in the forced swimming test; prepulse inhibition of the startle reflex was attenuated. Opposite changes were observed in the alpha2C-OE mice. The results suggest that the alpha2C-AR subtype has a distinct inhibitory role in the processing of sensory information and in the control of motor and emotion-related activities in the CNS. It is therefore possible that alpha2C-AR-selective drugs may have therapeutic value in the treatment of various neuropsychiatric disorders.

Effects of dexmedetomidine after transient and permanent occlusion of the middle cerebral artery in the rat.

Increased sympathetic tone is a consequence of cerebral ischemia. Although the role of catecholamines in ischemic damage is still unclear, in some experimental ischemia models alpha2-adrenergic agonism has proved to be neuroprotective. In the present work we have compared the effects of transient and permanent middle cerebral artery occlusion (MCAO) on the infarct volume, and, also, examined whether a selective alpha2-adrenergic receptor agonist, dexmedetomidine (9 microg/kg or 15 microg/kg i.v.), is able to reduce ischemic damage after transient or permanent MCAO in rats. Permanent MCAO led to a significantly larger infarct volume than transient occlusion (p < 0.05). The rats receiving the higher dose of dexmedetomidine were detectected to have smaller (statistically non-significant) infarct volume in the cortex (30.9%) and in the striatum (20.3%) after transient occlusion. Additionally, dexmedetomidine caused significant variations in the physiological parameters.

An alpha(2)-adrenergic antagonist, atipamezole, facilitates behavioral recovery after focal cerebral ischemia in rats.

Previous studies suggest that enhanced noradrenergic neurotransmission promotes functional recovery following cerebral lesions. The present study investigated whether systemic administration of an alpha(2)-adrenergic antagonist, atipamezole, facilitates recovery following transient focal cerebral ischemia in rats. The effect of atipamezole therapy on recovery from ischemia was compared with the effect of enriched-environment housing in rats. Ischemia was induced by occlusion of the right middle cerebral artery (MCA) for 120 min using the intraluminal filament model. Daily atipamezole treatment (1 mg/kg, subcutaneously) was started on day 2 after ischemia induction and drug administration stopped after 10 days. Another group of rats was housed in an enriched environment from day 2 following ischemia induction until the end of the experiment. Several different behavioral tests were used to measure functional recovery during the 26 days following the induction of focal cerebral ischemia. There was improved performance in the limb-placing test from the beginning of atipamezole treatment to day 8, and in wheel-running in the foot-slip test on days 2 and 4. Enriched-environment housing facilitated recovery in the foot-slip test in a later phase of the test period (days 8 to 10). Discovery of a hidden platform in a water-maze task was also facilitated in rats housed in the enriched environment, but this was probably due to the increased swimming speed of these rats. The present data suggest that the alpha(2)-adrenergic antagonist, atipamezole, facilitates sensorimotor recovery after focal ischemia, but has no effect on subsequent water-maze tests assessing spatial learning and memory, when assessed 11 days after the cessation of drug administration.

Selegiline combined with enriched-environment housing attenuates spatial learning deficits following focal cerebral ischemia in rats.

Selegiline (l-deprenyl) is an irreversible monoamine oxidase B (MAO-B) inhibitor that is suggested to have neuroprotective and neuronal rescuing properties. The present study investigated whether systemic administration of selegiline facilitates behavioral recovery after transient focal cerebral ischemia in rats using a combination of different behavioral tests (limb placing, foot slip, water maze, and Montoya's staircase test) to measure the outcome of recovery. Selegiline (0.5 mg/kg, SC) or 0.9% NaCl was administered once a day, beginning on the second day after induction of ischemia and continuing for 30 days. Selegiline administration combined with enriched-environment housing attenuated ischemia-induced spatial learning deficits in a water-maze task and enhanced performance of both the contralateral affected and ipsilateral nonaffected forelimbs in a staircase test. Selegiline administration alone was not beneficial in any of the tests. Subsequent histologic examination revealed that the infarct volumes were not different between the experimental ischemic groups. Thus, these results suggest that selegiline combined with enriched-environment housing reduces behavioral and cognitive deficits without affecting infarct size.

MAO-B inhibition by a single dose of l-deprenyl or lazabemide does not prevent neuronal damage following focal cerebral ischaemia in rats.

The present study investigated the effect of postischaemic infusion of an irreversible monoamine oxidase B (MAO-B) inhibitor, l-deprenyl, an equipotent dose of a reversible MAO-B inhibitor, lazabemide, or 0.9% NaCl on infarct volumes following focal cerebral ischaemia in rats. The drug doses (0.3 mg/kg) were selected to induce selective MAO-B inhibition (45-55%), but not MAO-A inhibition. The infarct volumes in the cortex or in the striatum did not differ between the experimental groups 72 hr after transient occlusion of the middle cerebral artery, which suggests that during ischaemia/reperfusion, suppressed oxidative stress by partial MAO-B inhibition or MAO-B independent mechanisms such as induction of trophic factors, does not protect against ischaemia/reperfusion damage.

The neuroprotective effects of (-)deprenyl in the gerbil hippocampus following transient global ischemia.

(-)Deprenyl (selegeline) is a monoamine oxidase B (MAO-B) inhibitor, but it also exerts several effects independent of MAO-B inhibition. For example, it has been shown to improve neuronal survival in different neurodegenerative models. In the present study, we have tested whether (-)deprenyl attenuates the neuronal damage in the hippocampus that is induced in a model of transient global ischemia in gerbils. (-)Deprenyl was administered 1) at a low daily dose starting two weeks before occlusion, 2) at a single high dose administered 3h after occlusion, or 3) at a low daily dose for one or two weeks after occlusion. A nonsignificant trend of reduced neuronal damage in the hippocampal CA1 area was seen in all experimental groups treated with (-)deprenyl, regardless of the timing of treatment. The results together with previous evidence suggest that (-)deprenyl may protect CA1 neurons from ischemia-induced delayed death by several possible mechanisms, including the suppression of oxidative stress and apoptotic processes.

Behavioral effects of the alpha(2)-adrenoceptor antagonist, atipamezole, after focal cerebral ischemia in rats.

The present study characterized the behavioral effects of the selective alpha(2)-adrenoceptor antagonist, atipamezole, in a rat model of focal cerebral ischemia. Atipamezole (1 mg/kg, s.c.) or desipramine (5 mg/kg, i.p.), a noradrenaline reuptake blocker, was administered either as a single injection 2 days after ischemia induction or for 10 days thereafter (subacute administration). A subacute atipamezole treatment given 30 min before behavioral assessment improved performance in the limb-placing test (days 5, 7, 9, and 11) and in the foot-slip test (days 3 and 7), but not in the beam-walking test. There was no difference between experimental groups in behavioral performance following a single administration of atipamezole or following single or subacute administration of desipramine. The drug treatments did not attenuate the impairment of spatial cognitive performance of ischemic rats in the Morris water-maze test. These results suggest that repeated use-dependent release of noradrenaline by atipamezole facilitates the sensorimotor recovery following focal cerebral ischemia in rats.

Diminution of N-methyl-D-aspartate-induced perturbation of neurotransmission by dexmedetomidine in the CA1 field of rat hippocampus in vitro.

The effects of alpha(2)-adrenoceptor activation on N-methyl-D-aspartic acid (NMDA)-induced perturbation of neurotransmission and normal NMDA-receptor dependent function (long-term potentiation, (LTP)) were investigated in the hippocampal CA1 field in vitro. Bath perfusion of dexmedetomidine hydrochloride (50 nM), which was initiated before NMDA (100 microM) exposure, enhanced the extent of recovery of extracellular field excitatory postsynaptic potentials after NMDA infusion. On the other hand, the induction and early maintenance of LTP was normal in the presence of dexmedetomidine. Thus, dexmedetomidine can diminish acute NMDA-induced perturbation of neurotransmission while the same dose of this drug does not influence the normal activation of NMDA receptors.

The effects of a specific alpha(2)-adrenoceptor antagonist, atipamezole, on cognitive performance and brain neurochemistry in aged Fisher 344 rats.

The present experiments investigated the effects of a specific and potent alpha(2)-adrenoceptor antagonist, atipamezole, on cognitive performance and neurochemistry in aged rats. Aged control Fisher 344 rats, which had lower activities of choline acetyltransferase in the frontal cortex, were impaired in the acquisition of the linear arm maze task both in terms of repetition errors and their behavioural activity (the speed of arm visits), and they needed longer time to complete this task as compared to adult control rats. Atipamezole treatment (0.3 mg/kg) facilitated the acquisition of this task in the aged rats as they committed fewer errors and completed the task more quickly than saline-treated aged control rats. A separate experiment indicated that atipamezole enhanced the turnover of noradrenaline both in the adult and aged rats, but this effect was more pronounced in the aged rats. Furthermore, atipamezole enhanced significantly the turnover of serotonin and dopamine only in the aged rats when analysed in the whole brain samples. As alpha(2)-adrenoceptor antagonists are known to alleviate akinesia in the experimental models of Parkinson's disease, the present results could be especially relevant for the development of palliative treatment for demented Parkinsonian patients.

Enhanced locomotor stimulation by NMDA receptor antagonists in alcohol-sensitive ANT rats.

The ability of the antagonists for the N-methyl-D-aspartate (NMDA) type of glutamate receptor to modulate locomotor activity were compared in alcohol-sensitive (or alcohol-nontolerant, ANT) and alcohol-insensitive (or alcohol-tolerant, AT) rat lines. Both rat lines showed altered locomotor activity after acute injections of a competitive antagonist (LY235959), a glycine-site antagonist (L-701,324), or noncompetitive antagonists [MK-801, phencyclidine (PCP), and ketamine] of the NMDA receptor. MK-801 at 0.5 mg/kg caused a strong increase in horizontal activity in both rat lines, the effect being significantly greater in the ANT rats. There was a subpopulation among AT rats that was almost completely unresponsive to MK-801. This insensitivity to MK-801 correlated with the lack of c-fos induction in the retrosplenial and cingulate cortices. Fos immunoreactive cells in these brain regions after MK-801 treatment were more numerous in ANT than AT rats, although c-fos induction in the inferior olivary nucleus was similar in all animals after MK-801. The ANT rats showed greater locomotor stimulation also after ketamine and LY235959, while stimulation induced by PCP and depression induced by L-701,324 did not differ between the rat lines. The data suggest that altered NMDA receptor-mediated processes may correlate with differences in innate alcohol sensitivity in the ANT/AT rat model.

Effects of ageing and intermittent ethanol exposure on rat locus coeruleus and ethanol-withdrawal symptoms.

In this study, the effects of ethanol and age on the morphology of the locus coeruleus (LC) and on the severity of ethanol-withdrawal symptoms were studied during a 5-week intermittent ethanol exposure. Young (3-4 months) and old (29-30 months) male Wistar rats were given highly intoxicating doses of ethanol by intragastric intubations for 4 days, followed by a 3-day ethanol-withdrawal period. This 7-day cycle of ethanol exposure and withdrawal was repeated five times. A non-treated group and a sucrose-fed group of both ages were used as control groups. The severity of ethanol-withdrawal symptoms (rigidity, tremor, irritability, hypoactivity) was rated up to 62 h after the last dose of ethanol. The intoxication level was higher in the old, compared with the young, rats, despite the smaller doses of ethanol given to the old animals. There was no significant difference between the age groups in the severity of the ethanol-withdrawal syndrome. The LC quantitative studies were performed using unbiased stereological methods. The results showed that there was no difference between the age groups in the LC total neuron numbers of the non-treated control groups. The 5-week intermittent ethanol exposure significantly reduced the LC neuron numbers and LC neuronal density in the old ethanol-exposed animals, compared with the sucrose-fed control animals. In the young rats, the ethanol-induced neuron loss did not reach statistical significance. According to the ANCOVA, the difference in the ethanol-induced LC neuronal loss between the age groups may be due to the difference in the intoxication levels. Interestingly, the sucrose intubations were also found to decrease the LC neuronal numbers in the young rats, compared with the non-treated young control group. It was concluded that ageing did not significantly affect the severity of ethanol-withdrawal symptoms or ethanol-induced loss of LC neurons in Wistar rats.

Genetic alteration of the alpha2-adrenoceptor subtype c in mice affects the development of behavioral despair and stress-induced increases in plasma corticosterone levels.

alpha2-Adrenoceptors (alpha2-AR) modulate many central nervous system functions, such as regulation of sympathetic tone, vigilance, attention, and reactivity to environmental stressors. Three alpha2-AR subtypes (alpha2A, alpha2B, and alpha2C) with distinct tissue-distribution patterns are known to exist, but the functional significance of each subtype is not clear. Since specific, alpha2-AR subtype-selective pharmacological probes are not available, mice with genetically altered alpha2C-AR expression were studied in order to investigate the possible involvement of the alpha2C-AR in physiological and behavioral responses to acute and repeated stress. A modified version of Porsolt's forced swimming test was used to assess the possible effects of altered alpha2C-AR expression on the development of behavioral despair. alpha2C-Overexpression increased and the lack of alpha2C-AR (alpha2C-KO) decreased the immobility of mice in the forced swimming test, ie alpha2C-AR expression appeared to promote the development of behavioral despair. In addition, alpha2C-KO was associated with attenuated elevation of plasma corticosterone after different stressors, and overexpression of alpha2C-ARs was linked with increased corticosterone levels after repeated stress. Moreover, the brain dopamine and serotonin balance, but not norepinephrine turnover, was dependent on alpha2C-AR expression, and the expression of c-fos and junB mRNA was increased in alpha2C-KO mice. Since alpha2C-KO produced stress-protective effects, and alpha2C-AR overexpression seemed to promote the development of changes related to depression, it is suggested that a yet-to-be developed subtype-selective alpha2C-AR antagonist might have therapeutic value in the treatment of stress-related neuropsychiatric disorders.

Cerebellar GABA(A) receptors and anxiolytic action of diazepam.

Alcohol-sensitive ANT rats have a point mutation in the cerebellum-enriched GABA(A) receptor alpha6 subunit, which makes this subunit and the ANT rats in vivo highly sensitive to benzodiazepine agonists. In the elevated plus maze test of anxiety, diazepam produced a greater anxiolytic response in the ANT rats than in the control, alcohol-insensitive AT rats. The ANT rats were less sensitive to the sedative effect of diazepam in the staircase test of exploration. The results thus suggest that the mutant cerebellar granule cell layer receptors can participate in GABA(A) receptor-activation-induced anxiolysis.

Effects of repeated low dose administration and withdrawal of haloperidol on sexual behaviour of male rats.

Neuroleptics are known to cause anhedonia and attenuate sexual behaviour at therapeutic doses in humans. These effects are assumed to result from the dopamine antagonism of the drugs. It has been observed that a mixed dopamine D1/D2 antagonist, haloperidol, may cause a reduction in the number of intromissions required to achieve ejaculation. On the other hand, dopamine antagonists are considered unable to modify sexual behaviour once the copulatory sequence is initiated. In this study, male rats received low doses of haloperidol (30 or 60 microg/kg) before the investigation of sexual behaviour in five consecutive days and the mating test was repeated after withdrawal periods of four and five days. Haloperidol dose-dependently reduced intromission frequency, and this effect was maintained for four days after withdrawal. Ejaculation latency was reduced in all groups, including controls. The results indicate that at low doses haloperidol dose-dependently reduces intromission frequency, and the effect of a repeated dosage may persist several days after cessation of medication.

Neuroprotection by the alpha2-adrenoceptor agonist, dexmedetomidine, in rat focal cerebral ischemia.

The present study was undertaken to explore the possible neuroprotective effect of the selective alpha2-adrenoceptor agonist, dexmedetomidine in a rat model of focal cerebral ischemia. The effect of dexmedetomidine (9 microg kg(-1)) on infarct volume was assessed and compared to that of glutamate receptor antagonists cis-4(phosphonomethyl)-2-piperidine carboxylic acid (CGS-19755) (20 mg kg(-1)) or 2,3-dihydro-6-nitro-7-sulfamoyl-benzo(F)quinoxaline (NBQX) (50 mg kg(-1)). Dexmedetomidine decreased total ischemic volume by 40% in the cortex (P<0.05) compared to NaCl-treated control rats, whereas NBQX reduced the infarct by 73% in the cortex (P<0.001) and by 43% in the striatum (P<0.01). Dexmedetomidine infusion was associated with some minor degree of hyperglycemia and hypotension. Drug-induced kidney changes were only seen in NBQX-treated rats. These results suggest that dexmedetomidine reduced ischemic volume despite causing a minor increase in blood glucose concentrations and hypotension. Its neuroprotective efficacy was better than that produced by CGS-19775, and dexmedetomidine was safer with respect to kidney toxicity when compared to NBQX.

Effects of dexmedetomidine on rat locus coeruleus and ethanol withdrawal symptoms during intermittent ethanol exposure.

In the present study, the neuroprotective effects of dexmedetomidine on rat locus coeruleus were studied during a 5-week intermittent ethanol exposure. Male Wistar rats (3 to 4 months old) were given ethanol or isocaloric sucrose by intragastric intubations three times a day for 4 days, which was followed by a 3-day withdrawal period. This 7-day cycle of ethanol exposure and withdrawal was repeated five times. Dexmedetomidine (at a dose decreasing from 30 microg/kg to 10 microg/kg, s.c.) was given to the treatment group during the withdrawal phase. The results showed that, during the 5-week experiment, dexmedetomidine significantly relieved the ethanol withdrawal syndrome, measured as the sum of the three most specific symptoms (rigidity, tremor, and irritability). The total neuron number of locus coeruleus (LC) decreased in the ethanol-treated group by 24%, compared with the nontreated control group and by 11%, compared with the sucrose-treated control group. Interestingly, the LC neuron numbers were found to decrease in the sucrose-intubated rats as well, compared with the nontreated control group. Dexmedetomidine was found to relieve ethanol-induced neuronal loss in the LC. Dexmedetomidine might be a new interesting alternative in the treatment of ethanol withdrawal syndrome, particularly due to its possible neuroprotective effects in the central nervous system.

Comparison of the effects of acute and subchronic administration of atipamezole on reaction to novelty and active avoidance learning in rats.

The effects of an alpha2-adrenoceptor antagonist, atipamezole, on exploratory behaviour in a novel environment, spontaneous motor activity and active avoidance learning were studied after acute injection and continuous infusion (0.1 mg/kg h) for 24 h and 6-9 days in rats. The effects of atipamezole on biogenic amines and their main metabolites in brain were studied after an acute injection (0.3 mg/kg s.c.) and continuous infusion (0.1 mg/kg h) for 24 h and 10 days. The level of central alpha2-adrenoceptor antagonism and the drug concentration in blood and in the brain were measured after continuous infusion for 24 h and 10 days. In behavioural tests, atipamezole had no effect on spontaneous motor activity at any of the doses studied. However, after both acute administration and continuous 24-h infusion, atipamezole decreased exploratory behaviour in a staircase test, but no longer after 6 days of continuous infusion. Acute administration of atipamezole impaired performance in active avoidance learning tests causing a learned helplessness-like behaviour. When the training was started after 7 days of continuous infusion, atipamezole significantly improved active avoidance learning. There was a significant increase in the metabolite of noradrenaline (NA), 3-methoxy-4-hydroxyphenylethyleneglycol sulphate (MHPG-SO4), after 24 h but not any longer after 10 days of continuous atipamezole infusion, although the extent of central alpha2-adrenoceptor antagonism was unchanged and the atipamezole concentration present in brain was even elevated at 10 days compared to levels after 24-h infusion. In conclusion, these results reveal that acute and subchronic atipamezole treatments have different and even opposite effects on behaviour in novel, stressful situations. After acute treatment, atipamezole potentiates reaction to novelty and stress, causing a decrease in exploratory activity and impairment in shock avoidance learning. After subchronic treatment, there was no longer any effect on exploratory behaviour and, in fact, there was an improvement in the learning of a mildly stressful active avoidance test. The changes in behaviour occurred in parallel with attenuation in the MHPG-SO4-increasing effect, thus the suppressed behaviour in the present test conditions after acute atipamezole injection is associated with a major increase in central NA release. The results support the role of alpha2-adrenoceptors and noradrenergic system in reactions both to novelty and stress and have possible implications in cognitive functions as well as in depression.