Arm width and brightness modulation of spontaneous behaviour of two strains of mice tested in the elevated plus-maze.

Amongst the nonpharmacological variables that may influence spontaneous behaviour in the elevated plus-maze, at least two (namely, the width and brightness level of the maze arms) have not been evaluated for possible consequences on baseline activity. We therefore investigated the effect of width (5, 7, or 9 cm) and brightness level (grey vs. white) of the maze arms on the activity patterns of NMRI and C57/BL 10j mice in a plus-maze based on that described by Lister. Results indicated a clear strain difference in spontaneous behaviour in the open/closed arms with C57/BL mice making no visits on the open arms of the maze. In the NMRI strain, enlarging the arms resulted in significantly increased running in open arms but brightness level did not affect behavioural parameters. In the C57/BL mice, no significant behavioural changes were detected after increasing the arm width; however, the maze with a white floor significantly increased the latency to move and decreased ambulation. Finally, employing a maze with white closed arms and open grey arms resulted in ambulation by C57/BL mice into the open arms, a behaviour not normally observed in this strain using a uniformly bright maze. The results are discussed in terms of their putative effects in pharmacological testing.

Effects of levetiracetam, a novel antiepileptic drug, on convulsant activity in two genetic rat models of epilepsy.

The anticonvulsant effects of levetiracetam were assessed in two genetic rat models. In the audiogenic-seizure prone rat, levetiracetam, 5.4 to 96 mg/kg i.p. dose-dependently inhibited both wild running and tonic-clonic convulsions. In the GAERS model of petit mal epilepsy, levetiracetam markedly suppressed spontaneous spike-and-wave discharge (SWD) but left the underlying EEG trace normal. The effects were already marked at 5.4 mg/kg and did not increase significantly up to 170 mg/kg although more animals were completely protected. Levetiracetam produced no observable effects on behaviour apart from slight reversible sedation at 170 mg/kg. In contrast, piracetam, a structural analogue of levetiracetam, significantly and consistently suppressed SWD in GAERS rats only at the high dose of 1000 mg/kg with some slight effects at lower doses. The effect of piracetam appeared to be due to increased sleeping rather than to a direct antiepileptic effect. The results with levetiracetam argue for a clinical application in both petit mal, absence epilepsy and in treating generalised tonic-clonic and partial seizures.

Impaired spatial memory in aged rats is associated with alterations in inositol phospholipid metabolism.

WE have investigated changes in inositol phospholipid turnover and membrane arachidonic acid concentration in the dentate gyrus and frontal cortex of animals aged 3-6 months, 14 months or 22 months which were trained in the Morris water maze. Ageing was associated with poorer performances in the behavioural test, characterized by increased variability in retention and acquisition amongst individuals, a decrease in membrane arachidonic acid concentration and increased unstimulated inositol phospholipid metabolism in synaptosomes prepared from frontal cortex and dentate gyrus. Arachidonic acid stimulated inositol phospholipid metabolism in synaptosomes, but in the older groups, stimulation was associated with good performance in the Morris water maze. In slices prepared from frontal cortex, responsiveness of inositol phospholipid metabolism to glutamate was also age- and performance-dependent. The findings highlight a correlation between age, inositol phospholipid metabolism and performance in the Morris water maze.

Long-term adrenalectomy reduces hippocampal granule cell excitability in vivo.

Ten days after bilateral adrenalectomy (ADX), neural transmission between the perforant path and hippocampal dentate granule cells was severely impaired in the anaesthetized rat, in that the slope of the stimulus-response curve was reduced to less than half the value in sham controls, the stimulation current necessary to elicit a standard population spike (PS) field potential was increased approximately threefold, the amplitude of PS and its ratio to the slope of the field excitatory postsynaptic potential (EPSP) were reduced, and high-frequency tetanization (TET) of the perforant path resulted in potentiated PS with smaller amplitude and higher onset latency in ADX rats than in sham controls. However, the fractional increase of PS amplitude and its decay following TET were similar in 10 day-ADX and sham groups, from which it is inferred that long-term ADX entails a general decrease of dentate granule cell excitability, particularly at somatic membrane level, without specifically affecting the mechanism of long-term potentiation. None of the above changes occurred 24 h after ADX.

The aged mouse as a model of cognitive decline with special emphasis on studies in NMRI mice.

The use of the aged mouse as an integrated model of age-related cognitive decline is reviewed, with special emphasis on experiments covering the life span of NMRI mice, using different age-groups ranging from 3 through to 22 months. Age-related changes in the sensorimotor profile, spontaneous behaviour and performance in learning and memory tasks are considered. The data provide evidence for cognitive impairment and decreases in spontaneous activity and exploration from middle age onwards. Chronologically, this age depends on the longevity of the strain selected; in NMRI mice, middle age corresponds to 11-12 months. Complex learning tasks, such as the Morris water maze for spatial learning, appear to be the most sensitive to age-related changes, as are tests requiring prolonged retention of acquired information, for example, using passive avoidance. Cued and simple discrimination learning are only impaired in the oldest animals. Age-related changes in non-cognitive variables, including sensorimotor capacity, pain sensitivity, emotionality, or locomotor activity, do not account for the learning impairments, although deficits in visual acuity cannot be excluded in the very old animals. Detailed analysis of the individual data for middle aged and old mice, using discriminant and correlation studies highlight a marked heterogeneity between animals of any given chronological age. Furthermore, individual aged mice do not exhibit similar degrees of impairment across all the behavioural variables, showing that aging is not a uniform process. The possible relationship between age-related behavioural decline and neurochemical changes is an area as yet unexplored apart from a few isolated investigations, including a study on ChAT and AChE in NMRI mice. The studies in the NMRI mice illustrate the value of investigating the full age-range to detect an age group which shows cognitive decline dissociable from physical or emotional changes and which is representative of the population as a whole.

Spatial processing and emotionality in aged NMRI mice: a multivariate analysis.

The goal of this study was to investigate possible relationships between different aspects of behavioural decline in aged (17 months) NMRI mice by a multivariate analysis. These mice presented defects in spatial processing both in place learning in a Morris-type water maze and in spontaneous alternation in a Y-maze, as well as showing changes in their behaviour in the elevated plus maze test of fear/anxiety and open-field ambulation. Data were first factor analysed and then correlated on the basis of variable factor scores. The results showed clearly that age-related behavioural changes were independent of each other except between open-field activity measured over 6 min and spatial learning indices in the Morris-type water maze, in that mice performing poorly in the latter were more active in the open field, and between the ratio open/total arms visited in the elevated plus maze task and locomotor activity during the first 2 min of the open-field test. It is proposed that the notion of an allocentric or locale system cannot be applied unitarily to both spatial learning and spontaneous alternation defects, and that activity levels in the aged mice are task dependent and reflect different underlying factors.

Age-related behavioural, neurochemical and radioligand binding changes in the central 5-HT system of Sprague-Dawley rats.

Mature (3-4 months) and aged (18-19 months) Sprague-Dawley (SD) rats were treated with 5-HT receptor agonists and drug-induced behaviours monitored. The 5-HT2/1C agonist, 1-(2,5-dimethoxy-4-iodophenyl)-2-aminopropane (DOI), induced wet dog shakes and back muscle contractions which were significantly increased in aged, compared to mature, rats, suggesting an age-related enhancement of 5-HT2 receptor function. In contrast, the selective 5-HT1A agonist 8-hydroxy-2-(di-n-propylamino) tetralin (8-OH-DPAT) induced forepaw treading, flat body posture, hypothermia and hyperactivity which were not significantly different in aged compared to mature rats. Levels of 5-HT and 5-hydroxyindoleacetic acid (5-HIAA) in the hippocampus and frontal cortex were measured using high performance liquid chromatography with electrochemical detection. There were no age-related changes in hippocampal 5-HT or 5-HIAA. However both 5-HT and 5-HIAA were increased in the frontal cortex of aged SD rats. 8-OH-DPAT reduced 5-HIAA in both regions examined in mature rats, an effect which was attenuated in the aged rats, suggesting an age-related reduction in presynaptic 5-HT1A receptor function. DOI did not induce any changes in 5-HT or 5-HIAA in either of the regions examined. Radioligand binding studies with [3H] ketanserin showed there to be no significant age-related changes in cortical 5-HT2 receptor density or affinity.(ABSTRACT TRUNCATED AT 250 WORDS)

Behavioural, biochemical and histological effects of AF64A following injection into the third ventricle of the mouse.

Behavioural, biochemical and histological effects were assessed following AF64A injected into the third ventricle of female NMRI mice. Doses from 3 to 7 nmol produced significant changes in behaviour, causing hyperactivity, reduced hole-board exploration, rotational behaviour in a symmetrical Y-maze corresponding to a loss of alternation, abnormal behaviour in a plus-maze task of fear/anxiety with markedly increased exploration of the open arms and finally deficits in passive avoidance responding and spatial orientation in a Morris-type water maze. In this latter test, a cue learning deficit was noted for the two highest doses only. No histological changes of consequence were observed up to 5 nmol. Beyond this dose, at 6 and particularly 7 nmol, necrosis of parts of the hippocampus and septum was apparent. ChAT and AChE activity were decreased in the hippocampus but not in the cortex although the decreases were smaller than generally reported for AF64A-treated rats. ChAT and AChE reductions correlated highly with hyperactivity in the open-field and to a lesser extent, with spatial learning deficits. Monoaminergic activity was also affected in the hippocampus, but not in the cortex, at 4 nmol and above. NE and particularly 5-HT and 5-HIAA levels were reduced although the rate of 5-HT turnover was unaltered. A highly significant correlation was obtained between 5-HT effects and the increased open arm exploration in the plus-maze task of fear/anxiety. The behavioural effects and biochemical changes lasted at least 8-9 weeks postop.

ucb L059, a novel anti-convulsant drug: pharmacological profile in animals.

The anticonvulsant activity of ucb L059 ((S)-alpha-ethyl-2-oxo-pyrrolidine acetamide) was evaluated in a range of animal models. ucb L059 was active after oral and intraperitoneal administration in both rats and mice, with a unique profile of action incorporating features in common with several different types of antiepileptic drugs. The compound was active, with ED50 values generally within the range of 5.0-30.0 mg/kg, in inhibiting audiogenic seizures, electrically induced convulsions and convulsions induced chemically by pentylenetetrazole (PTZ), bicuculline, picrotoxin and N-methyl-D-aspartate (NMDA). ucb L059 retarded the development of PTZ-induced kindling in mice and reduced PTZ-induced EEG spike wave discharge in rats. The R enantiomer, ucb L060, had low intrinsic anticonvulsant activity, showing the stereospecificity of action of the molecule although the actual mechanism of action remains unknown. Neurotoxicity, evaluated with an Irwin-type observation test, the rotarod test and open-field exploration, was minimal, with only mild sedation being observed, even at doses 50-100 times higher than the anticonvulsant doses; at pharmacologically active doses, the animals appeared calm but slightly more active. ucb L059 thus presents as an orally active, safe, broad-spectrum anticonvulsant agent, with potential antiepileptogenic and anti-absence actions.

Hippocampal nerve growth factor levels are related to spatial learning ability in aged rats.

Brain nerve growth factor (NGF) was determined in two groups of aged rats: 'good' and 'poor' performers. The animals were selected out of a population of 40 aged rats (26-28 months old) trained in a spatial learning task. Animals performing well in the test had significantly higher NGF in the hippocampus when compared to 'poor' performers. No differences in the levels of NGF were found in the cortex, septum and cerebellum. The results implicate hippocampal NGF in cognitive functioning of aged rats, and suggests that the forebrain cholinergic neuronal atrophy which has been observed in cognitively impaired aged rats may be due to reduced availability of target-derived NGF.

Resistance of baseline activity in the elevated plus-maze to exogenous influences.

Factors which may influence the exploratory behaviour of male Sprague-Dawley rats in the elevated plus-maze were investigated in two series of experiments. The first dealt with factors related to the test apparatus: light level, spatial configuration and height of the maze. The second dealt with factors intended to modify the internal state of the animals by an acute stressful treatment: partial immersion in water, forced immobilization for 10 or 20min, electric shock or 20min preexposure to open or closed arms. Chlordiazepoxide, 5mg/kg i.p., was administered as the reference drug and significantly increased the exploration of the open arms in all but one of the experiments. In saline-treated animals, no effects of the environmental or behavioural treatments were detected. This resistance to exogenous manipulations suggests that "plus-maze-anxiety" should be considered as a situational-bound response, i.e. characteristic of rodents placed in this particular situation.

Age-related changes in spontaneous behavior and learning in NMRI mice from middle to old age.

Spontaneous behavior, sensorimotor reflexes and learning of 3-, 11-, 17- and 22-month-old virgin female NMRI mice were compared. Sensorimotor abilities decreased significantly from the age of 17 months in proportion to the muscular and equilibrium demand of the test. Open-field activity, hole board exploration as well as activity in the Y maze and plus maze decreased from the age of 11 months. However, in the open-field and Y maze, it was not possible to distinguish between 11-, 17- and 22-month-old mice, whereas in the plus maze, activity was drastically decreased in 17- and 22-month-old mice. In the plus maze, indices of fear-motivated behavior suggest a greater sensitivity to the situation in the age groups of 17 and 22 months. Spontaneous alternation also decreased from the age of 11 months, but at the age of 22 months, a rotational behavior emerged. Spatial learning was markedly impaired from middle age, i.e., 11 months, as indicated by longer latencies and absence of spatial bias in place learning. In cued learning, the 11- and 17-month groups eventually reached the level of the 3-month-old mice, while the 22-month age group remained impaired. Changes in swimming ability or speed did not appear to account for the swimming maze deficits. In contrast, a sensory or perceptual deficit cannot be excluded for the oldest mice.(ABSTRACT TRUNCATED AT 250 WORDS)

Simplifying environmental cues in a Morris-type water maze improves place learning in old NMRI mice.

Old virgin female NMRI mice aged 17 months were compared with mice aged 3 months for their spatial learning abilities in two versions of the Morris water maze. The first one was a simplified version with a salient configuration of cues comparable to a black/white discrimination and the second one was the classical version of the Morris test with many distal cues surrounding the maze. In the simplified version, old mice presented a slower rate of acquisition and a transient poorer retention compared to young mice. However, old mice achieved a final level of performance statistically comparable to their young counterparts as assessed by latencies to escape onto the concealed platform and by the spatial bias measured in probe trials at intervals during testing. When subsequently subjected to classical Morris maze learning, the same old animals showed marked learning deficits and were persistently impaired in their latencies to escape onto the platform. They presented no spatial bias for the location of the platform in the different probe trials. When the goal was cued at the end of the experiment, the performances of old mice rapidly improved, showing that motivation, motor disabilities, or fatigue and ability to use proximal cues cannot explain the place learning deficit. Our results were discussed in terms of cognitive versus sensory/perceptual disabilities in aged rats and mice.

Cholinergic modulation of spatial learning in mice in a Morris-type water maze.

Injection of the centrally active muscarinic antagonist scopolamine i.p. 20 min pre-test at 3 mg/kg but not at 1 mg/kg, impaired spatial learning of a Morris-type water maze adapted for mice. Both doses caused hyperactivity. D-amphetamine (3 mg/kg, i.p.), which also caused hyperactivity, did not impair spatial learning nor did methylscopolamine (3 mg/kg, i.p.). In a cued version of the water maze, apart from a temporary disturbance on day 1, scopolamine (3 mg/kg) and control groups behaved similarly, indicating that scopolamine-induced place learning deficits are not due to changes in swimming ability, motivation or ability to use proximal cues. Physostigmine (0.1 and 0.2 mg/kg, i.p.) and oxotremorine (0.02 mg/kg but not 0.01 mg/kg, i.p.) antagonized the deficits in the swimming maze. Neither drug affected the scopolamine hyperactivity despite causing hypoactivity per se. In contrast, the peripherally acting cholinergic drug neostigmine was inactive against scopolamine in either test at 0.1 mg/kg. THA (2-8 mg/kg, i.p.), RS86 (0.25-1 mg/kg, i.p.) and nicotine (1 and 3 mg/kg, i.p.) were also unable to antagonize the scopolamine effect. These studies show that scopolamine disrupts acquisition of spatial rather than cued learning in mice in a Morris-type water maze and that this effect appears to be mediated centrally and can be dissociated from drug-induced hyperactivity. Moreover, this deficit can be reversed with certain cholinergic agents.

Age-related changes in spontaneous behavior and learning in NMRI mice from maturity to middle age.

Spontaneous behavior and learning and memory of 3-, 6-, 9- and 12-month-old virgin female NMRI mice were compared. Open field activity and spontaneous alternation in a Y-maze decreased in an age-related manner, reaching a statistical level of significance for the groups aged 9 and 12 months. Spatial learning was highly impaired in 9-and 12-month-old mice in the place version of a Morris-type water maze but not in the cued version of this task. Changes in motor activity, swimming ability or speed did not appear to account for these deficits. In a one-trial passive avoidance, performance was more variable, although a deficit in the oldest age group was clearly evident using a cutoff time of 120 sec. The passive avoidance was not attributable to reduced shock sensitivity. Together, these results suggest that the onset of aging in NMRI mice occurs at the age of 9 and particularly 12 months. NMRI mice of this age could, therefore, represent a viable animal model for the study of cognitive impairments in aging.

The effects of dihydropyridine compounds in behavioural tests of dopaminergic activity.

1. The effects of the dihydropyridine calcium channel blocker nifedipine and the activator Bay K 8644 were investigated in different behavioural tests involving dopaminergic systems. These were the discriminative stimulus induced by amphetamine, rotational behaviour in rats with unilateral 6-hydroxydopamine (6-OHDA) lesions and apomorphine-induced yawning in rats. 2. The yawning induced by apomorphine (40 micrograms kg-1 s.c.) was significantly potentiated by nifedipine (5-10 mgkg-1 i.p.). Bay K 8644 (0.05-0.5 mgkg-1 i.p.) dose-dependently inhibited yawning induced by apomorphine (80 micrograms kg-1 s.c.) and, at 0.4 mgkg-1, inhibited the nifedipine potentiation of apomorphine-induced yawning. In contrast to their effects on apomorphine-induced yawning, nifedipine and Bay K 8644 had no effect on apomorphine-induced penile erection. 3. Bay K 8644 (0.06-0.5 mgkg-1 i.p.) and nifedipine (5-20 mgkg-1 i.p.) had no dose-related effect on the discrimination performance of rats trained to discriminate amphetamine from saline. However, nifedipine dose-dependently reduced the response rate of amphetamine-treated rats. Bay K 8644 had no effect on this measure except at high doses that also caused disruption. 4. Neither nifedipine (5-10 mgkg-1 i.p.) nor Bay K 8644 (0.06-0.5 mgkg-1 i.p.) affected the turning behaviour induced by amphetamine (1 mgkg-1 i.p.) in rats with unilateral 6-OHDA lesion of the medial forebrain bundle, and did not induce turning themselves. 5. As the dihydropyridine compounds affected apomorphine-induced yawning but not penile erection, and did not affect amphetamine-induced rotation or drug discrimination, it seems unlikely that they are affecting dopamine release in vivo.

Behavioural and histological effects of low concentrations of intraventricular AF64A.

The effects of ethylcholine mustard aziridinium ion (AF64A; 0.3, 1.0 and 3.0 nmol), injected into each lateral ventricle in the rat, were determined in a range of behavioural tests, each involving a learning component. Effects were observed at 1.0 and 3.0 nmol/side and, to a lesser extent, at 0.3 nmol/side. Habituation of locomotor activity was impaired and deficits in learning were obtained using a variety of mazes including the Morris swimming maze. Slight, non-significant impairments occurred in shock reinforced behaviours. Histologically, marginal effects were observed at 0.3 nmol/side, and slight ventricular dilatation with necrosis of the hippocampus, restricted to the site of injection at 1.0 nmol/side; at 3.0 nmol/side more widespread necrosis was apparent. Biochemical efficacy of the lesions in terms of cholinergic changes was confirmed by analysis of acetylcholinesterase (AChE) levels showing decreases in the hippocampus and the cortex; no studies were carried out with respect to other neurotransmitters. Cognitive deficits can therefore be obtained by i.c.v. injection of AF64A at doses which cause significant cholinergic changes with minimal histological disturbances.

Central and peripheral effects of the dihydropyridine calcium channel activator BAY K 8644 in the rat.

Following intraperitoneal (i.p.) administration BAY K 8644 (0.5-4 mg/kg) induced an increase in blood pressure associated with bradycardia, increased tail-flick latency in response to radiant heat, decreased locomotion, induced muscle contraction, postural changes and also reduced reflex activity. Only the postural changes and reduced locomotion were seen after intracerebroventricular administration (5-20 micrograms/kg), suggesting that the other effects are mediated peripherally. All the above effects were antagonised by the calcium channel blocker nifedipine. BAY K 8644 (4 mg/kg i.p.) also significantly increased homovanillic acid and 3,4-dihydroxyphenylacetic acid concentrations in the cortex and striatum, an effect which could also be reversed by nifedipine. Apart from inducing hypotension and tachycardia, nifedipine alone had no effect on any of the above parameters. The analgesic-like activity of BAY K 8644 observed in the tail-flick test appears to be related to its vasoconstrictor effects as the peripherally acting vasodilator phenylephrine had similar analgesic activity. These results show that both central and peripheral dihydropyridine-sensitive calcium channels mediate the effects of BAY K 8644. Although a physiological role for the dihydropyridine-sensitive voltage-operated calcium channel in the CNS remains to be demonstrated, activation of these channels can clearly have functional effects.

Alpha 2-adrenoceptor antagonist activity may account for the effects of buspirone in an anticonflict test in the rat.

The anxiolytic effects of buspirone, its metabolite, 1-(2-pyrimidyl)piperazine (1-PP) and several alpha 2-adrenoceptor antagonists have been compared in an anticonflict (shock-induced suppression of drinking) paradigm in rats. Idazoxan, WY 26392 and yohimbine had anticonflict effects comparable to those of buspirone and 1-PP, and enhanced the release of suppressed responding induced by buspirone. The response to buspirone was antagonised by the alpha 2-adrenoceptor agonist clonidine. In tests of clonidine-induced mydriasis, the antagonist potencies of buspirone, 1-PP, idazoxan, WY 26392 and yohimbine corresponded closely to the doses of the compounds active in the anticonflict test. Clonidine-induced hypolocomotion was also antagonised by 1-PP, although this response was potentiated by buspirone. The results suggest that the anticonflict effects of buspirone involve an alpha 2-adrenoceptor mechanism.

Investigation into sex-related differences in locomotor activity, place learning and passive avoidance responding in NMRI mice.

Learning abilities of young adult (5-6 weeks) male and female NMRI mice were compared in two tasks involving cognitive functions, namely spatial learning in a water maze and passive avoidance responding. Locomotor activity was also monitored as a putative bias for the results obtained in these learning tests. No sex-related difference was observed either in avoidance responding or in spatial learning using a procedure with the same point of departure throughout testing in the water maze. However, in this test, using a procedure with 3 different points of departure in randomized order day after day, female mice performed better than male mice. The difference was statistically significant on the last acquisition day but was not sustained during a retention trial 72 hr later. Since no sex differences in locomotor activity were observed, the learning effects cannot be attributed to a difference in general activity level.