Ampullosporin A, a peptaibol from Sepedonium ampullosporum HKI-0053 with neuroleptic-like activity.

The potential neuroleptic-like effect of ampullosporin A, a new peptaibol, isolated from the fungus Sepedonium ampullosporum HKI-0053, was characterized using specific behavioural models and methods. Ampullosporin A (amp) disrupted the retrieval of a well-trained conditioned reaction and normalized the behavioural effects of subchronic ketamine treatment in the social interaction test in a dose which showed only inconsiderable side effects. The experiments demonstrated that the substance did not antagonize the apomorphine (apo) induced hyperactivity. On the other hand, the locomotor stimulation induced by the NMDA receptor antagonist MK-801 was nearly completely suppressed by ampullosporin A, supposing interactions with the glutamatergic system. Binding studies demonstrated no interaction with dopaminergic D(1) and D(2) receptors. However, amp can alter the activity of glutamate receptors. The results resemble characteristics of an atypical neuroleptic drug. But further experiments are necessary to validate the suggested neuroleptic-like activity.

Disrupted visceral feedback reduces locomotor activity and influences background contextual fear conditioning in C57BL/6JOlaHsd mice.

The present experiments were designed to study fear conditioning as an emotional learning task with disrupted visceral feedback. For that purpose we used the peripherally acting beta1-adrenoceptor blocker atenolol and studied its effects on the behavior of male C57BL/6JOlaHsd mice in an exploration-related test and during fear-conditioning. In the first experiment, we treated mice with saline or different doses of the beta1-adrenergic blocker atenolol (5mg/kg and 20mg/kg body weight i.p.) 30 min before behavioral testing in a motility box. Only the high but not the low dose of atenolol led to a reduction of locomotor activity (p<0.02). Factors known to be related to emotionality (rearing, area preference) were unaffected. In a second experiment, saline- and atenolol-treated mice (same dosages and mode of application) were trained for auditory fear conditioning, and 24h later they were retested in the same environment. We found differences between the effects of atenolol upon contextual- and cue-fear conditioning. Animals treated with 20mg/kg BW doses of atenolol showed significantly decreased background contextual fear compared to saline-treated control animals. In contrast, no differences were found during CS presentation in the conditioning context between atenolol-treated animals and saline-treated controls, independent from a paired or an unpaired conditioning paradigm. Thus, the blockade of peripheral beta1-adrenoceptors by atenolol may have disrupted the positive feedback to the central nervous system via visceral afferents resulting in a decreased locomotor activity and background contextual fear.

Repeated application of ketamine to rats induces changes in the hippocampal expression of parvalbumin, neuronal nitric oxide synthase and cFOS similar to those found in human schizophrenia.

Treatment with the phencyclidine derivative ketamine, a non-competitive N-methyl-D-aspartate receptor antagonist and a well known anesthetic, has recently been introduced to mimic schizophrenia in animals. Using rats repeatedly treated with sub-anesthetic doses we demonstrate in the hippocampal formation the cellular distribution patterns of proteins being relevant to the pathogenesis of schizophrenia. Compared with controls an increase in the density of reduced nicotinamide adenine dinucleotide phosphate diaphorase-, neuronal nitric oxide synthase- and cFOS-positive hippocampal interneurons was found, whereas the density of parvalbumin expressing cells was decreased. Our experiments show that repeated injections of sub-anesthetic doses of ketamine induce significant changes in the nitrergic and GABAergic system which, in part, resemble those described in postmortem brains of human schizophrenics indicating that sub-chronic treatment with sub-anesthetic doses of ketamine might be a useful animal model to study schizophrenia.

Accelerated kindling development in mu-opioid receptor deficient mice.

The relevance of mu-opioid systems for central excitability and kindling related disturbed learning performance was underlined by investigations using mu-opioid receptor knockout mice. Mice lacking mu-opioid receptors showed an accelerated kindling development induced by the convulsant drug pentylenetetrazol. Blockade of delta-opioid receptors by naltrindole suppressing kindling development in wild-type animals led to a further acceleration of kindled seizure development in the knockout mice. Mice lacking mu-opioid receptors showed such a low learning performance in the shuttle box, that the kindling induced learning deficit as seen in wild-type mice was not detected. The results were discussed on the basis of receptor binding studies with regard to subtypes of glutamatergic receptors, delta-opioid and somatostatin receptors. An increase in glutamate and somatostatin binding could contribute to the enhanced excitability in the-mu-opioid receptor knockout mice.

Low doses of AMPA exert anticonvulsant effects on pentylenetetrazol-kindled seizures.

Excitatory amino acids (EAAs) are critically involved in the initiation and propagation of seizures. N-methyl-D-aspartate (NMDA) and alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionate (AMPA) receptors appear to be of special interest in this regard. Besides receptor binding by antagonists, the function of glutamatergic synapses can be altered via autoreceptor-mediated mechanisms or by receptor desensitisation. Therefore, the effect of AMPA (1, 10 or 100 pmol per animal, intracerebroventricular injection) was tested on acutely induced pentylenetetrazol (PTZ) seizures. The lowest dose exerted clear anticonvulsant effects. Furthermore, 1 and 10 pmol AMPA were tested for their efficacy to suppress PTZ kindling. The lower dose reduced seizure severity significantly but 10 pmol AMPA was ineffective. In reaction to a test dose of PTZ, the kindled groups pretreated with AMPA reached seizure scores similar to saline-pretreated kindled rats, suggesting that the kindled state was reached. In a further experiment, we tested the effect of cyclothiazide (CYC, which blocks AMPA receptor desensitisation) on the 1 pmol AMPA-mediated anticonvulsant effect. The AMPA response was not altered. These results suggest that autoreceptor-mediated mechanisms rather than desensitisation might contribute to the anticonvulsant effect found.

Loss of locomotor sensitisation in response to morphine in D1 receptor deficient mice.

Mice lacking D1 receptors were used to study the role of these receptors in morphine-induced antinociception and locomotor sensitisation. In the hot-plate test D1 receptor deficient (-/-) and wild-type (+/+) mice showed similar reaction times under basal conditions. A single injection of 1.25 mg/kg and 2.5 mg/kg morphine resulted in a stronger antinociceptive response in D1 receptor deficient mice than in wild-type animals. Tolerance to the analgesic effect did not develop in both groups of animals when 12.5 mg/kg morphine was chronically applied twice daily for 13 days. There was no change in basal locomotor activity between saline-injected wild-type and D1 receptor deficient mice. After chronic treatment wild-type mice showed a continuous increase in locomotor activity, indicating the development of sensitisation. In contrast, a subchronic administration of morphine did not change locomotor activity in mutant mice. The lack of the development of locomotor sensitisation in D1 deficient mice was associated with reduced levels of immunoreactive mu opioid receptors in dorsal striatal patches as compared to wild-type mice. In contrast, no change in the distribution of immunoreactive mu receptors could be detected in areas related to pain pathways such as the spinal cord. Taken together, these results suggest an involvement of D1 receptors in morphine-induced locomotor activity and analgesia.

Development of long-lasting potentiation effects in the dentate gyrus during pentylenetetrazol kindling.

In the present study kindling was induced in rats by repeated intraperitoneal injection of pentylenetetrazol (PTZ) once every 48 h. The resulting seizure stages were registered after each PTZ application. The development of PTZ-induced kindling and the time course of possible potentiation effects in the dentate gyrus were examined. The efficacy of perforant pathway transmission to the granule cells was tested in every second kindling session by measuring the monosynaptic evoked field potentials recorded in the dentate gyrus following single test stimuli of the perforant pathway at different times after PTZ injection in freely moving animals. The data suggest that establishment of a PTZ kindling is associated with the development of long-lasting potentiation of the field potentials. After completion of kindling it was demonstrated that kindled rats also show a diminished learning performance. The relationship between the development of potentiation phenomena in hippocampal substructures and learning impairment is discussed.

Benzodiazepine receptor inverse agonist-induced kindling of rats alters learning and glutamate binding.

Kindling, recognized as a model of epilepsy, can be obtained by applications of repeated nonconvulsive stimulations that finally lead to generalized seizures. Epileptics often show cognitive impairments. The present work analyzed the learning performance of male Wistar rats kindled with a convulsant inverse agonist of the GABA(A)-benzodiazepine receptor complex, methyl beta-carboline-3-carboxylate (beta-CCM). This compound is also known to have an action on learning processes. It was thus interesting to verify if beta-CCM kindling had the same impairing action on learning as other kindling agents, such as pentylenetetrazol (PTZ). A two-way active-avoidance shuttle-box learning task was chosen, because a deficit was found after PTZ kindling in this learning model. On the other hand, hippocampal glutamate binding, has previously been shown to be modified by both seizures and learning. Thus, the level of glutamate binding was also measured in the present study. Results showed that fully kindled rats had poorer learning performance after the third day of test than controls or not fully kindled animals. L-[3H] glutamate binding to hippocampal membrane fractions of the fully kindled animals was significantly higher when compared with controls, whereas L-[3H] glutamate binding of not fully kindled subjects did not differ from that of controls. Neuronal plasticity changes are a possible explanation for the correlation between kindling, learning deficits, and increased glutamate binding.

Morphine self-administration in mu-opioid receptor-deficient mice.

Morphine-induced place preference was demonstrated recently in wild-type mice, whereas this conditioned behaviour was not observed in mu-opioid receptor-deficient mice. In the present study, we investigated locomotor effects of subcutaneously (s.c.) injected morphine as well as intracerebroventricular (i.c.v.) morphine self-administration in mu-opioid receptor-knockout mice. After s.c. morphine injection, locomotor activity significantly increased in wild-type animals. As expected, in the self-administration test the rate of self-administration constantly increased in wild-type mice reflecting reward effects of morphine. This increase was independent of locomotor/motor activity. In contrast, self-administration rates and locomotor/motor activity significantly decreased in the receptor-deficient animals. It was shown that this aversive effect might partly be due to kappa-opioid receptor interaction.

Pentylenetetrazol-kindling modulates stimulated dopamine release in the nucleus accumbens of rats.

Kindling-induced activation of dopaminergic neurones in the nucleus accumbens in pentylenetetrazol (PTZ)-kindled rats was studied using microdialysis. Dopamine (DA) release after PTZ challenge was measured: (1) two weeks and (2) ten weeks after kindling completion and (3) two weeks after a kindling procedure with diazepam (DZP) treatment. In (1) a significant increase in DA concentration was found after PTZ challenge and this increase was still evident 10 weeks after kindling completion (2). Coadministration of DZP in the course of kindling development inhibited the increase in sensitivity of the accumbens dopaminergic system (3).

Social memory is impaired in neonatally ibotenic acid lesioned rats.

Postnatal lesion with ibotenic acid in the ventral hippocampus produces several behavioural effects that resemble the symptoms of schizophrenia. In the present study, we tested neonatally lesioned 1-year-old Sprague-Dawley rats for their social memory. It was found that social memory is worsened in lesioned rats. Subchronic treatment with haloperidol (0.025 mg/kg body weight) partly ameliorated this impairment. It was suggested that social memory might be a useful paradigm to test clinically used and potential antipsychotic drugs for their effects on learning and memory processes.

Effects of nicardipine, an antagonist of L-type voltage-dependent calcium channels, on kindling development, kindling-induced learning deficits and hippocampal potentiation phenomena.

Kindling is considered to be a useful experimental model for investigating drug effects on the convulsive component of epilepsy and related alterations at the behavioural level. It was demonstrated that pentylenetetrazol (PTZ)-kindled rats show diminished learning performance in shuttle-box training. We used this model to study the influence of nicardipine, an antagonist of L-type voltage-dependent calcium channels, on kindling seizure development as well as related learning impairments. Additionally, we tested the influence of nicardipine on kindling-induced potentiation, a special form of long-term enhancement of evoked potentials in the dentate gyrus after kindling. Therefore, monosynaptic evoked field potentials in the dentate area upon test stimuli to the perforant pathway were recorded in freely moving kindled and control rats at different times after injection of PTZ. The results indicate that the blockade of L-type voltage-dependent Ca2+-channels during the kindling procedure attenuates PTZ-kindling, antagonizes a kindling-induced learning deficit in an active avoidance test and decreases a novel form of kindling-related potentiation, the long-lasting amplitude enhancement of the monosynaptic evoked field potential in the dentate gyrus after injection of a small test dose of PTZ. This potentiation can also be prevented in kindled animals by nicardipine injection in an acute experiment.

Effects of piracetam on pentylenetetrazol-kindling development, hippocampal potentiation phenomena and kindling-induced learning deficit.

Kindling is a generally accepted model for studying epilepsy development in the context of overexpression of processes of neuronal plasticity. In previous studies we have shown that establishment of kindling by repeated application of subconvulsive doses of pentylenetetrazol (PTZ) also led to marked changes in hippocampal excitability and an impairment in learning behaviour. With the intention of further investigating the relationship between kindling development, kindling-induced changes in excitability and learning deficits, rats were chemically kindled under pretreatment with the nootropic drug piracetam. Furthermore, we tested acute piracetam effects on developed kindling seizures, the learning deficit and potentiation effects. At the investigated dose piracetam did not influence the kindling development. The kindling-induced potentiation of hippocampal field potentials was significantly diminished in piracetam-pretreated rats. Piracetam acutely injected completely antagonized this potentiation effect. Piracetam brought about a significant improvement in impaired learning performance in rats pretreated during kindling induction and acutely injected before the learning experiment, respectively. Possible correlations between the suppressing of the kindling related potentiation in hippocampal structures by piracetam and its beneficial effect on learning impairment are discussed as antagonizing overexpression of potentiation in the course of kindling.

Involvement of delta-opioid receptors in pentylenetetrazol kindling development and kindling-related processes in rats.

The role of delta-opioid receptors on the development of kindling induced by the convulsant pentylenetetrazol (37.5 mg kg(-1) i.p.) was investigated in rats. Besides the seizure development, the kindling induced enhancement of glutamate binding and the kindling-induced learning deficit were examined. A clear depression of kindling development by blocking of delta-opioid receptors by intracerebroventricular administration of naltrindole (10 nmol/5 microl) was found. In an acute convulsion test performed 8 days after kindling completion, animals pretreated with naltrindole during kindling induction showed lower seizure stages compared to saline-pretreated kindled animals. The kindling-induced increase in hippocampal glutamate binding was completely prevented by naltrindole, whereas the kindling-induced learning deficit was not influenced. The learning performance of control animals pretreated with naltrindole was very low. It was hypothesized that the various consequences of kindling induction could be influenced separately. Summarizing the results, an involvement of the delta-opioid system in mechanisms underlying chemical kindling was clearly demonstrated. Interactions of endogenous opioid systems with glutamatergic transmission were suggested.

Alterations of the dopaminergic and glutamatergic neurotransmission in adult rats with postnatal ibotenic acid hippocampal lesion.

In 6-week and 8-week-old rats (pre- and post-pubertally) with neonatal excitotoxic lesions of the ventral hippocampus with ibotenic acid (IBO), we have studied apomorphine-induced motor activity and glutamate and dopamine D1 and D2 binding sites in the hippocampus, striatum, nc. accumbens and frontal cortex as well as K+ -stimulated (3H)-D-aspartate release from hippocampal and frontal cortical slices. Specific glutamate binding was enhanced in the frontal cortex of 8-week-old IBO-treated animals, whereas that in other brain regions remained unchanged. Both D1 and D2 binding sites were downregulated in the striatum without changes in other brain structures. In 6-week-old rats, neither the glutamate nor the dopamine binding sites were altered. The amino acid release from hippocampal and frontal cortical slices of adult IBO treated rats was significantly decreased in comparison to controls, whereas in 6-week-old rats, no significant alterations were detectable. The additionally monitored motor activity was enhanced only in adult IBO-lesioned rats after apomorphine pretreatment. The present data are in agreement with the hypothesis of hyperactive dopamine and hypoactive glutamate systems in schizophrenia and are discussed in the light of schizophrenia-like behavioral changes in rats after postnatal hippocampal IBO lesion.

Cellular changes in rat brain areas associated with neonatal hippocampal damage.

The neonatal destruction of the ventral hippocampus was introduced as a model to recreate features of schizophrenia in the rat. While behavioral consequences of this intervention have been studied in detail, less is known about the cellular processes underlying the deviant behavior. We studied in rats (neonatally or adult lesioned, controls) brain areas receiving or not receiving hippocampal projections. The number of neurons and the expression of the cell markers L-ornithine decarboxylase, nitric oxide synthase/NADPH diaphorase, calretinin and GFAP were estimated. Reduced numbers of neurons and increased immunostaining for ornithine decarboxylase and nitric oxide synthase in the prefrontal, perirhinal and entorhinal cortex of neonatally but not adult lesioned rats or controls demonstrate persistent cellular changes after ventral hippocampus damage.

Social behaviour in rats lesioned with ibotenic acid in the hippocampus: quantitative and qualitative analysis.

RATIONALE: Neonatal ibotenic acid lesion of the ventral hippocampus was proposed as a relevant animal model of schizophrenia reflecting positive as well as negative symptoms of this disease. Before and after reaching maturity, specific alterations in the animals' social behaviour were found. OBJECTIVE: In this study, social behaviour of ventral hippocampal lesioned rats was analysed. For comparison, rats lesioned either in the ventral hippocampus or the dorsal hippocampus at the age of 8 weeks were tested. METHODS: Rats on day 7 of age were lesioned with ibotenic acid in the ventral hippocampus and social behaviour was tested at the age of 13 weeks. For comparison, adult 8-week-old rats were lesioned either in the ventral or the dorsal hippocampus. Their social behaviour was tested at the age of 18 weeks. RESULTS: It was found that neonatal lesion resulted in significantly decreased time spent in social interaction and an enhanced level of aggressive behaviour. This shift is not due to anxiety because we could not find differences between control rats and lesioned rats in the elevated plus-maze. Lesion in the ventral and dorsal hippocampus, respectively, in 8-week-old rats did not affect social behaviour. CONCLUSIONS: The results of our study indicate that ibotenic acid-induced hippocampal damage per se is not related to the shift in social behaviour. We favour the hypothesis that these changes are due to lesion-induced impairments in neurodevelopmental processes at an early stage of ontogenesis.

Disruption of latent inhibition in rats with postnatal hippocampal lesions.

Disruption of latent inhibition has been proposed as a possible model of cognitive abnormalities that underlie positive symptoms of a schizophrenia. We tested neonatal hippocampal lesioned rats in a latent inhibition paradigm. Lesions of the ventral hippocampus were induced by bilateral injections of ibotenic acid in 7 days old rats. The behavior of lesioned rats was tested postpubertally. We found a hyperresponsiveness to dopaminergic stimulation by apomorphine in locomotion tests. Latent inhibition was tested using the acquisition of a conditioned reaction in a two-way shuttle box. Sham operated control animals showed after preexposure of the to-be-conditioned stimulus (combined tone and light stimulus) a low acquisition. Ibotenic acid lesioned animals learned the conditioned reaction with and without preexposure in the same way, indicating disturbed latent inhibition. These results demonstrate disturbances in early postnatal hippocampal lesioned rats comparable with those seen in schizophrenic patients, thus further validating this procedure as a useful animal model of some aspects of schizophrenia.