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ABSTRACT: Daily injection of the dopamine D(2) receptor antagonist haloperidol is associated with the development of catalepsy sensitization in rats, which leads to a day to day increase of rigor and akinesia. The process of catalepsy sensitization incorporates different learning stages. Here we investigated the mechanisms underlying the consolidation of catalepsy sensitization. In particular, we asked whether NMDA- and non-NMDA (AMPA- and Kainate) receptors play a role in the consolidation of catalepsy sensitization. Accordingly, rats received post-training injections of the NMDA receptor antagonist MK-801 (single injection of either 0.1mg/kg or 0.25mg/kg; or a double injection of 0.1mg/kg immediately and 30 min after test cessation) or of the AMPA/Kainate receptor antagonist GYKI 52466 (single injection of 5mg/kg). Our results showed that the consolidation of catalepsy sensitization was decelerated by both glutamatergic AMPA/Kainate- and NMDA-receptor antagonists. With the higher MK-801 dosage, the deceleration was stronger, suggesting a dose dependent mechanism. We hence affirmed a role for the ionotropic glutamate receptors in the consolidation process of catalepsy sensitization.
Behavioural brain research 03/2011; 218(1):194-9. · 3.22 Impact Factor
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CNS Drug Reviews 06/2006; 4(2):149 - 164. · 4.92 Impact Factor
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ABSTRACT: The effects of repeated oral administration of the psychostimulant plant, Catha edulis and its active principle, cathinone on rats were studied using isolation induced aggression paradigm. The behavioral responses were videotaped and scored later by offline data analyses. Rats were decapitated at the end of the behavioral experiment and in the relevant brain regions, monoamines were assessed. The results demonstrate that isolation of male rats produces a baseline aggression. Treatments with the psychostimulant plant, Catha edulis or commercial S-(--)-cathinone enhanced significantly: The locomotor activities and the baseline aggression behaviors compared with vehicle treated rats. Neurochemical correlates revealed a significant depletion of serotonin (5-HT) and its corresponding metabolites (5-HIAA) in both the anterior and posterior striatum. There was also a reduction in the level of homovanillic acid (HVA) in the hippocampus. Additionally, elevation of dopamine level was observed in the nucleus accumbens, especially, in those rats treated with Catha edulis extract. Cathinone, on the other hand, increased the level of HVA in the posterior striatum and decreased HVA in the nucleus accumbens. In conclusion, the present data demonstrate that repeated administration of Catha edulis or S-(--)-cathinone enhances aggression in rats, presumably by decreasing the level of serotonin and its corresponding metabolites. Besides, the data obtained do not rule out the involvement of dopamine in aggression behavior.
Acta Neurovegetativa 06/2006; 113(5):543-56. · 2.73 Impact Factor
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ABSTRACT: A general complex I deficit has been hypothesized to contribute to neurodegeneration in Parkinson's disease (PD) and all toxins used to destroy dopaminergic neurons are complex I inhibitors. With MPTP or 6-OHdopamine, this hypothesis can not be tested since these toxins selectively accumulate in the dopaminergic neurons. However with rotenone, which penetrates all cells, the hypothesis can be tested. Thus, the proof of the hypothesis is whether or not rotenone-induced neurodegeneration mimics the degenerative processes underlying PD. Low doses of rotenone (1.5 or 2.5 mg/kg in oil i.p.) were administered to Sprague Dawley rats on a daily basis. After about 20 days of treatment, signs of parkinsonism occurred and the concentrations of NO and peroxidase products rose in the brain, especially in the striatum. After 60 days of treatment, rotenone had destroyed dopaminergic neurons. Behaviourally, catalepsy was evident, a hunchback posture and reduced locomotion. Other transmitter systems were not, or much less affected. L-DOPA-methylester (10 mg/kg plus decarboxylase inhibition) potently reversed the parkinsonism in rats. Also when infused directly into the dopaminergic neurons, rotenone produced parkinsonism which was antagonized by L-DOPA. Some peripheral symptoms of PD are mimiced by rotenone too, for example a low testosterone concentration in the serum and a loss of dopaminergic amacrine cells in the retina. These results support the hypothesis of an involvement of complex I in PD and render the rotenone model as a suitable experimental model. The slow onset of degeneration make it suitable also to study neuroprotective strategies. Evidence that rotenone-induced neurodegeneration spreads beyond the dopaminergic system is not contradictory given that, according to the new staging studies, also degeneration in PD is not confined to dopamine neurons.
Journal of neural transmission. Supplementum 02/2006; · 1.07 Impact Factor
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ABSTRACT: The alpha(2)-adrenoceptor antagonists potentiate both ipsilateral and contralateral rotations induced by amphetamine and apomorphine respectively in hemiparkinsonian rats. The present study investigated the role of serotonergic transmission in this potentiation in unilaterally 6-hydroxydopamine nigral lesioned rats. D-amphetamine (0.5 mg/kg, i.p.) produced ipsilateral rotations, which were decreased by the dopamine receptor antagonist haloperidol (0.2 mg/kg, i.p.) and the alpha(1)-receptor antagonist prazosin (1 mg/kg, i.p.). The selective alpha(2)-antagonist 2-methoxy idazoxan (0.2 mg/kg, i.p.) potentiated the amphetamine-induced ipsilateral rotations, that were attenuated by haloperidol and prazosin. The selective serotonin re-uptake inhibitor citalopram (10 mg/kg, i.p.) and selective serotonin synthesis inhibitor p-chlorophenylalanine (150 mg/kg, i.p., 3 days) decreased and increased the observed potentiation respectively. Apomorphine (0.2 mg/kg, s.c.) produced contralateral rotations, which were decreased by haloperidol but not by prazosin. 2-methoxy idazoxan potentiated these rotations which were attenuated by haloperidol but not by prazosin. Citalopram and p-chlorophenylalanine increased and decreased the observed potentiation respectively. Citalopram and p-chlorophenylalanine had no effect by per se on D-amphetamine and apomorphine-induced rotations. 2-methoxy idazoxan alone increased both ipsilateral and contralateral spontaneous rotations. Taken together, these findings indicate that an increase in noradrenergic tone by 2-methoxy idazoxan potentiates both D-amphetamine-induced ipsilateral and apomorphine induced contralateral rotations. alpha(1)-Antagonism attenuates D-amphetamine induced ipsilateral rotations and its potentiation by 2-methoxy idazoxan but not apomorphine rotations or its potentiation. Increasing and decreasing the serotonergic transmission decreases and increases D-amphetamine potentiation, whereas increases and decreases apomorphine potentiation respectively. The possible mechanisms for these findings are discussed.
Acta Neurovegetativa 10/2005; 112(9):1223-36. · 2.73 Impact Factor
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ABSTRACT: In addiction research, the conditioned place preference (CPP) paradigm is a widely used animal model of conditioned reward. Usually, CPP development is studied, while only few studies examine CPP expression. In the present study, the suitability of a schedule allowing repeated testing of CPP expression was evaluated. Two groups of rats were either conditioned with cocaine or morphine then the repeated-testing-schedule was applied. This schedule consisted of four repeated applications of a sequence of drug- (i.e. cocaine or morphine), saline- and anti-craving-drug- (i.e. acamprosate, naloxone, their joint administration or saline as internal control) tests. Methodologically, the repeated-testing-schedule produced stable CPP expression in both groups over 12 subsequent tests. In conclusion, it is suggested as a useful method to study effects of anti-craving-drugs on CPP expression, thereby reducing the overall number of experimental animals. The evaluation of the anti-craving-drug effects revealed that neither acamprosate and naloxone given separately nor their combined administration significantly reduced cocaine- or morphine-CPP expression. Thus, we suggest that these anti-craving-drugs are unlikely to be effective for relapse prevention in cocaine- or morphine-addicts.
Amino Acids 06/2005; 28(3):309-17. · 3.25 Impact Factor
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ABSTRACT: Age-related depletion of testosterone may increase the brain's vulnerability to parkinsonian- or Alzheimer's-like neurodegenerative disorders. In rats, rotenone, a mitochondrial complex I inhibitor, causes specific nigral dopaminergic neurodegeneration producing parkinsonian symptoms. In this study, rotenone was administered on a daily basis (2 mg/kg i.p.) to two groups of rats, over a period of 30 and 60 days, respectively. In order to contribute towards the validation of the rotenone rat model, the changing level of the peripheral sex steroid hormone, testosterone, which would also mimic those found in Parkinson's disease (PD) patients, was evaluated. Parallel to this, prolactin, luteinizing hormone (LH), the nonsexual steroid thyroid-stimulating hormone, and the corticosterone hormone levels in the peripheral blood plasma were measured to show whether other hormones have also been affected by complex I inhibition. The rotenone treatment caused a decrease of testosterone level in the peripheral blood plasma. There were no differences in the thyroid hormone and prolactin but increases in leutinizing hormone and corticosterone were observed. Data from this study indicate that rotenone depleted the sex steroid hormone which is preferentially produced in the periphery, e.g., adrenal gland and testis. In conclusion, because a decrease in testosterone levels is also one of the comorbidities which are found in male PD patients, our results indicate that the rotenone model mimics PD symptoms not only on a neuronal and behavioral level, but also on the testosterone levels.
Physiology & Behavior 01/2005; 83(3):395-400. · 2.87 Impact Factor
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ABSTRACT: Peripherally and locally administered rotenone (an inhibitor of mitochondrial complex I) has been proposed as a model of Parkinson's disease (PD) as it induces nigrostriatal degeneration associated with alpha-synuclein inclusions. If rotenone-induced symptoms represent a model of PD, than they should be counteracted by L-DOPA. To answer this question, rats were treated with rotenone 2.5 mg/kg over 48 days. Behavioural data showed a strong increase in catalepsy, a decrease in locomotor activity and biochemical data showed a significant depletion of dopamine levels in the striatum (Cpu) and substantia nigra in rotenone treated animals compared to vehicle. To examine the effectiveness of L-DOPA in reversing the motor deficit in rats, a dose of L-DOPA (10 mg/kg) in combination with the peripheral amino acid decarboxylase inhibitor benserazide were daily administrated intraperitonially for a period of 10 days in the rotenone-treated rats. This treatment counteracted catalepsy and increased locomotor activity and number of rearings but decreased inactive sitting. In this animal model (rotenone model), catalepsy tests and motor activities showed that the clinically used anti-parkinsonian drug L-DOPA substitutes rotenone-induced dopamine (DA) deficiency.
Behavioural Brain Research 09/2004; 153(2):439-46. · 3.42 Impact Factor
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ABSTRACT: Rotenone (an inhibitor of mitochondrial complex I) has been proposed as a model of Parkinson's disease (PD) as it induces nigrostriatal degeneration associated with alpha-synuclein inclusions. So far, only peripherally administered rotenone has been used as a model of PD. There has not been any investigation on the neurobehavioral changes induced by bilateral lesions of dopaminergic neurons by rotenone in rats. In the present study, rotenone (3 microg) was administered bilaterally stereotaxically into the medial forebrain bundle (MFB) to produce parkinsonian symptoms. Behavioural and biochemical data showed a strong increase in catalepsy, a decrease in locomotor activity and a significant depletion of dopamine levels in the striatum as compared to sham-lesioned animals. If the locomotor deficits are caused by the depletion of dopaminergic neurons, then L-DOPA should counteract motor deficits because L-DOPA therapy reverses mostly all motor deficits in human Parkinsonian patients. To examine the effectiveness of L-DOPA in reversing the motor deficit in rats, two different doses of L-DOPA (5 and 10 mg/kg) in combination with the peripheral amino acid decarboxylase inhibitor benserazide were daily administrated intraperitonially for a period of 31 days lesioned animals. L-DOPA plus benserazide counteracted catalepsy dose-dependently and increased locomotor activity. The results indicate that rotenone infused into the MFB destroys dopaminergic neurons, induces pakinsonian symptoms that are reversed by the clinically effective anti-parkinsonian drug L-DOPA. Therefore, sterotaxically infused rotenone may be useful for screening drugs for the treatment of PD.
Behavioural Brain Research 06/2004; 151(1-2):117-24. · 3.42 Impact Factor
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ABSTRACT: Noradrenaline has been shown to control dopamine turnover and release in rat brain. Noradrenergic lesion with N-(2-chloroethyl)-N-ethyl-2-bromobenzylamine (DSP-4) decreases dopamine release in the striatum and enhances catalepsy in experimental models of Parkinson's disease. However, in due course, sprouting of remaining noradrenergic axons, to compensate for the decreased noradrenaline is said to occur in specific brain regions. Though this is to some extent understood, the longstanding effects of noradrenergic lesion on dopaminergic neurons of the basal ganglia and in Parkinsonian behavior is not known. Here the question is addressed, whether locus coeruleus lesion with DSP-4 in rats alters dopamine concentration of the basal ganglia and influences Parkinsonian behavior in a long term (6 months). Parkinsonian behavior was assessed by catalepsy and activity cage after challenging with subthreshold dose of haloperidol (0.2 mg/kg), on 7, 30, 90, 120 and 180 days after DSP-4 lesion. The concentrations of noradrenaline and dopamine and its metabolites were estimated by HPLC. 6 months after DSP-4 lesion, increased concentration of noradrenaline was found in prefrontal cortex and hippocampus. Other regions remain unaffected. The concentration of dopamine remained unchanged. However, dopamine turnover appeared to be increased in prefrontal cortex and reduced in striatum and nucleus accumbens. Catalepsy and hypoactivity were observed in DSP-4 lesioned animals after haloperidol challenge on 7th, 30th and 60th day. Though dopamine turnover was reduced after 6 months in the striatum, haloperidol-induced catalepsy was not observed after 60 days. These results indicate a gradual functional recovery, perhaps hyperinnervation of noradrenergic neurons after DSP-4 treatment and the reversal of its effects on dopaminergic neurons and on Parkinsonian symptoms.
Acta Neurovegetativa 02/2004; 111(1):13-26. · 2.73 Impact Factor
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ABSTRACT: Haloperidol-induced catalepsy represents a model of neuroleptic-induced Parkinsonism. Daily administration of haloperidol, followed by testing for catalepsy on a bar and grid, results in a day-to-day increase in catalepsy that is completely context dependent, resulting in a strong placebo effect and in a failure of expression after a change in context. The aim of this study was to analyse the associative learning process that underlies context dependency. Catalepsy intensification was induced by a daily threshold dose of 0.25 mg/kg haloperidol. Extinction training and retesting under haloperidol revealed that sensitization was composed of two components: a context-conditioning component, which can be extinguished, and a context-dependent sensitization component, which cannot be extinguished. Context dependency of catalepsy thus follows precisely the same rules as context dependency of psychostimulant-induced sensitization. Catalepsy sensitization is therefore due to conditioning and sensitization.
Behavioural Pharmacology 12/2003; 14(7):563-7. · 2.72 Impact Factor
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ABSTRACT: Comparable to the anti-craving compound acamprosate, caroverine reduces alcohol withdrawal symptoms by an antagonism at ionotropic glutamate receptors and a blockade of calcium channels. The present study examines the effect of caroverine in a craving model, in which acamprosate has proved effective before. A place aversion was induced by a conditioned morphine withdrawal by administration of the opioid antagonist naloxone (0.1 mg/kg, s.c.) 5-6 days after the subcutaneous implantation of a morphine pellet in rats. Testing in the drug-free state, the acquisition of a conditioned aversion against the naloxone-associated cues was inhibited by pretreatment with caroverine (5 mg/kg, i.p.). This result corroborates the involvement of excitatory glutamate and calcium in the development of conditioned withdrawal and craving. It offers further evidence for the hypothesis that these neuronal systems are altered during withdrawal in a similar way by ethanol and opiates.
Neuroscience Letters 11/2003; 349(2):91-4. · 2.11 Impact Factor
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ABSTRACT: Recently we have shown that the alcohol anti-craving drug acamprosate (calcium acetylhomotaurinate), a functional N-methyl-D-aspartate (NMDA) receptor antagonist which is used therapeutically to prevent relapse in weaned alcoholics, was also effective in suppressing (1) conditioned place aversion induced by morphine withdrawal, and (2) expression of morphine-induced behavioral sensitization. Here, we addressed the question of whether the development of behavioral sensitization, induced by daily injections of morphine (10 mg/kg) over a period of 10 days, could also be suppressed by repeated pretreatment with acamprosate (200 mg/kg). Repeated intermittent injections of morphine produced sensitization of locomotor activity and sniffing behavior. Acamprosate did not block the development of morphine-induced behavioral sensitization. This lack of effect on the development of this phenomenon is inconsistent with the view that NMDA receptor antagonists block the development of sensitization. We suggest that this may derive from the relatively low NMDA receptor-specific antagonism of acamprosate as compared to other NMDA receptor antagonists used in this model. In conclusion, the effect of acamprosate on morphine-induced behavioral sensitization seems to be restricted to the expression of this phenomenon.
Behavioural Pharmacology 08/2003; 14(4):351-6. · 2.72 Impact Factor
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ABSTRACT: 3,4-Methylenedioxymethamphetamine (MDMA) has recently been hypothesized to be effective against the symptoms of Parkinson's disease. Therefore we tested the effects of MDMA-derivatives in the rotational behavioural model. Male Sprague Dawley rats were lesioned unilaterally with 6-hydroxydopamine at the medial forebrain bundle. MDMA was administered at doses of 2.5, 5.0 and 10.0 mg/kg, its derivatives N-Methyl-1-(1,3-benzodioxol-5-yl)-2-butananamine (MBDB), 3,4-Methylenedioxy-N-ethylamphetamine (MDE) and 3,4-Methylenedioxyamphetamine (MDA) at 5.0 mg/kg respectively. All substances induced ipsilateral rotations, MDA being the most effective. MDMA induced rotations were attenuated by the selective serotonin reuptake inhibitor Citalopram but were only slightly reduced by pre-treatment with the selective serotonin synthesis inhibitor PCPA (para-chlorophenylalanine). The effects of MDMA can therefore not fully be explained by serotonin release or by dopaminergic activity of the drugs.
Acta Neurovegetativa 08/2003; 110(7):707-18. · 2.73 Impact Factor
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ABSTRACT: Parkinson's disease is characterized not only by a progressive loss of dopaminergic neurons in the substantia nigra but also by a degeneration of locus coeruleus noradrenergic neurons. The present study addresses the question of whether a partial neurodegeneration of dopaminergic neurons using 6-hydroxydopamine in rat, not sufficient to produce motor disturbances, is potentiated by prior selective denervation of locus coeruleus noradrenergic terminal fields using N-ethyl-2-bromobenzylamine. Two types of denervations, one causing dopamine deficiency alone and the other causing noradrenaline and dopamine deficiency, were performed. Noradrenaline, 5-hydroxytryptamine, 5-hydroxyindole acetic acid, dopamine and its metabolites were analysed in various brain regions. Behaviour was evaluated by catalepsy tests and activity box. N-ethyl-2-bromobenzylamine selectively depleted noradrenaline from neurons of locus coeruleus origin. Decreased dopamine content in the striatum, substantia nigra and pre-frontal cortex was observed after dopaminergic lesion with 6-hydroxydopamine (42.9%). Additional locus coeruleus noradrenaline depletion with N-ethyl-2-bromobenzylamine aggravated the dopamine depletion (61.2%). The lesion in the noradrenergic and dopaminergic neurodegenerated group was not sufficient to induce consistent catalepsy and akinesia. However, after a subthreshold dose of haloperidol (0.1 mg/kg), the expression of catalepsy and akinesia was strong in the dual-lesioned group and less in the 6-hydroxydopamine-lesioned group. These results indicate that denervation of locus coeruleus noradrenergic terminals with N-ethyl-2-bromobenzylamine potentiates the 6-hydroxydopamine-induced partial dopaminergic neurodegeneration and parkinsonian symptoms. Based on the present findings and existing reports, it can be concluded that noradrenergic neurons of locus coeruleus have neuromodulatory and neuroprotective properties on the dopaminergic neurons of basal ganglia and that noradrenergic degeneration may contribute to the aetiology and pathophysiology of Parkinson's disease.
European Journal of Neuroscience 07/2003; 17(12):2586-92. · 3.63 Impact Factor
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ABSTRACT: Traditionally, addiction research in neuroscience has focused on mechanisms involving dopamine and endogenous opioids. More recently, it has been realized that glutamate also plays a central role in processes underlying the development and maintenance of addiction. These processes include reinforcement, sensitization, habit learning and reinforcement learning, context conditioning, craving and relapse. In the past few years, some major advances have been made in the understanding of how glutamate acts and interacts with other transmitters (in particular, dopamine) in the context of processes underlying addiction. It appears that while many actions of glutamate derive their importance from a stimulatory interaction with the dopaminergic system, there are some glutamatergic mechanisms that contribute to addiction independent of dopaminergic systems. Among those, context-specific aspects of behavioral determinants (ie control over behavior by conditioned stimuli) appear to depend heavily on glutamatergic transmission. A better understanding of the underlying mechanisms might open new avenues to the treatment of addiction, in particular regarding relapse prevention.
Molecular Psychiatry 05/2003; 8(4):373-82. · 13.67 Impact Factor
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ABSTRACT: It is well known that neuroleptic-induced catalepsy in rats intensifies upon repeated testing. Here, the question is addressed whether intensification of catalepsy results from intermittent drug administration or from intermittent context exposure. In experiment 1, rats were treated with intermittent haloperidol injections (0.25 mg/kg) followed by the catalepsy test (descent latency from the horizontal bar). In experiment 2, rats were lesioned with 6-hydroxydopamine injections into the striatum, resulting in a 45% reduction of dopamine concentration. Catalepsy was tested intermittently for several weeks. In both experiments we found a very stable intensification of catalepsy over 9 (haloperidol rats) and 11 (lesioned rats) days, showing that intensification is not due to intermittent dopamine depletion. In both experiments, intensification of catalepsy was very stable and was observed 18 days later in haloperidol-treated rats and 101 days later in lesioned animals. However, a change of the environmental context abolished the intensified catalepsy in both experiments. It is concluded that intensification of catalepsy is due to intermittent context exposure rather than intermittent drug administration. It is generally accepted that 6-hydroxydopamine lesions represent an animal model of Parkinson's disease. Given the results above, context-dependent intensification of parkinsonian symptoms might also occur in Parkinson's disease, and its prevention should be taken into consideration for future therapy of the disease.
Behavioural Pharmacology 03/2003; 14(1):49-53. · 2.72 Impact Factor
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ABSTRACT: Rotenone (an inhibitor of mitochondrial NADH dehydrogenase, a naturally occurring toxin and a commonly used pesticide) appears to reproduce the neurochemical, neuropathological and behavioural feature of Parkinson's disease (PD) in the rat. In this study, rotenone was administrated on a daily basis systemically by intraperitoneal injection of two different doses: 1.5 mg/kg (low dose) and 2.5 mg/kg (moderate dose), over a period of 2 months. This treatment caused depletion of dopamine in the posterior striatum (CPu) and prefrontal cortex and also reduced tyrosine hydroxylase-immunoreactivity in CPu. Behavioural experiments showed dose-dependent catalepsy in the two treatment groups of rats. Data from this study indicate that in rats rotenone is capable of causing degeneration of dopaminergic neurons and induction of parkinsonian symptoms. It is concluded that the causal mechanisms of neuronal degeneration implicate a complex I deficiency in the aetiology of rotenone-induced and perhaps in some cases of sporadic PD.
Behavioural Brain Research 11/2002; 136(1):317-24. · 3.42 Impact Factor
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ABSTRACT: The selective neurotoxic action of the abused drug 3,4-methylenedioxymethamphetamine (MDMA) on the serotonergic axons ascending from the dorsal raphe nucleus (DRN) is well known. The present study examined the long-term effects of subchronic MDMA treatment on rat brain tissue contents of catecholaminergic neurotransmitters. Two and four weeks after cessation of repeated MDMA treatment (ten consecutive days, 20 mg/kg/day), the tissue neurotransmitter concentrations were measured by means of electrochemical detected HPLC in several forebrain areas and DRN. We found reduced serotonin levels in the whole forebrain at both instants of time. In nucleus accumbens (NAC), the noradrenaline levels were also decreased, whereas dopamine levels were increased 4 weeks after treatment. It is concluded that MDMA causes changes of monoamine transmitter levels outlasting cessation of drug intake for at least 4 weeks. Decreased noradrenaline and/or serotonin may subsequently cause the augmentation of dopamine in NAC, a structure crucially involved in motivation circuits. With exception of transmitter alterations in the NAC, the post drug effects are opposite to the acute effects of MDMA and may underlie the psychiatric changes after MDMA intake in humans.
Neuroscience Letters 09/2001; 308(2):99-102. · 2.11 Impact Factor
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ABSTRACT: Dopamine (DA) receptor blockade induces catalepsy in rats which increases in strength upon retesting. This increase in catalepsy represents a form of sensitization which has been shown to be completely context dependent. Sensitization of catalepsy therefore represents a good model for studying the neurobiological mechanisms underlying the interaction between the cellular effect of a drug (DA-receptor blockade) and the context. This study investigated whether glutamatergic mechanisms are involved in the development of sensitization. Rats were treated with either haloperidol or haloperidol plus an N-methyl-D-aspartate (NMDA) receptor antagonist. Haloperidol consistently induced catalepsy which developed sensitization upon retesting. Co-administration of D-CPPene (5 mg/kg and 10 mg/kg, i.p.), eliprodil (30 mg/kg, i.p.) or Ro 25-6981 (15 mg/kg, i.p.) did not have any effect on sensitization, although all three drugs exerted some anticataleptic effects. When sensitization developed under haloperidol plus NMDA receptor antagonist, the sensitized response was expressed only in the presence of the NMDA receptor antagonist. This strongly suggests that the NMDA receptor antagonists represent contextual stimuli to which catalepsy has been conditioned, and this implies that the expression of sensitization has been rendered state-dependent.
Behavioural Pharmacology 05/2001; 12(2):143-9. · 2.72 Impact Factor
