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Homophone confusion errors were examined in a series of 6 experiments. Across a variety of tasks, readers consistently made more errors on homophone trials than on control trials. These effects were established in Experiment 1 using a semantic-decision task in which participants judged whether pairs of words were related or unrelated. For both related and unrelated trials, error rates were higher for homophones as compared with controls. Results such as these have previously been taken as evidence for the role of phonology in lexical access and reading. However, differences in orthographic knowledge (more specifically, knowledge of spelling-to-meaning correspondences) across participants and homophone items significantly predicted homophone errors across all tasks. In addition, spelling tasks and multiple-choice questionnaires revealed differences in orthographic knowledge across participants and homophone items. Although these results do not rule out a role for phonology in lexical access, they indicate that homophone confusion errors may also be due to factors other than phonology.

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For many researchers, eye-movement measures have become instrumental in revealing the moment-to-moment activity of the mind during reading. In general, there has been a great deal of consistency across studies within the eye-movement literature, and researchers have discovered and examined many variables involved in the reading process that affect the nature of readers' eye movements. Despite remarkable progress, however, there are still a number of issues to be resolved. In this article, we discuss three controversial issues: (1) the extent to which eye-movement behavior is affected by low-level oculomotor factors versus higher-level cognitive processes; (2) how much information is extracted from the right of fixation; and (3) whether readers process information from more than one word at a time.

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This study measured the activities of L-DOPA and 5-HTP decarboxylase (DDC and 5-HTPDC) in the substantia nigra and corpus striatum of reserpine-treated rats. Acute injection of the NMDA receptor antagonists CGP 40116 (5 mg/kg) and HA 966 (5 mg/kg), and to a lesser extent eliprodil (10 mg/kg), greatly elevated DDC in both structures, whilst having no effect on (nigra) or inhibiting (striatum) 5-HTPDC. L-DOPA (25 mg/kg) on its own inhibited both enzymes in either brain region. The weak NMDA receptor-channel blockers (and antiparkinsonian drugs) budipine (10 mg/kg), memantine (40 mg/kg) and amantadine (40 mg/kg) strongly increased DDC, whilst not affecting or decreasing 5-HTPDC activity in nigra and striatum. The L-DOPA-induced suppression of DDC was mostly reversed by all three antiparkinsonian drugs, whilst L-DOPA-induced inhibition of 5-HTPDC was only reversed by CGP 40116 (striatum only). It is concluded that glutamate exerts a differential physiological influence on the biosynthesis of dopamine and 5-HT in the brain, by tonically suppressing DDC and tonically stimulating 5-HTPDC. The L-DOPA-induced reduction in DDC may help to explain the eventual loss of efficacy of L-DOPA therapy in parkinsonian patients. It is suggested, however, that it may be possible to extend the lifetime of L-DOPA therapy with drugs which potentiate the activity of DDC, such as budipine and the 1-aminoadamantanes.

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The comparative effects of L-3,4-dihydroxphenylalanine (L-DOPA) on dopamine synthesis, release and behaviour were studied in the reserpine-treated rat. Acute administration of L-DOPA (25-200 mg/kg) dose-dependently inhibited the activity of aromatic L-amino acid decarboxylase (AADC) in the substantia nigra and corpus striatum. The antiparkinsonian drugs budipine (10 mg/kg) and amantadine (40 mg/kg) enhanced AADC activity in these regions, and prevented or reversed AADC inhibition by L-DOPA. Dual probe dialysis revealed that low doses of L-DOPA (25-50 mg/kg) dose-dependently stimulated the release of dopamine and 3,4-dihydroxyphenylacetic acid (DOPAC) in nigra and striatum, whilst high doses of L-DOPA (100-200 mg/kg) completely suppressed the release of dopamine, but not DOPAC. Sulpiride (50 microM) administered via the probes antagonized dopamine release in response to 25 mg/kg L-DOPA, but greatly facilitated release by 200 mg/kg L-DOPA. Dopamine release was blocked by the centrally acting AADC inhibitor NSD 1015, but facilitated by the central AADC activator budipine. In behavioural tests L-DOPA (plus benserazide, 50 mg/kg) only reversed akinesia at 200 mg/kg, and not at 25-100 mg/kg. Pretreatment with either NSD 1015 (100 mg/kg) or budipine (10 mg/kg) markedly potentiated the motor stimulant action of a threshold dose of L-DOPA (100 mg/kg). A combination of NSD 1015 (100 mg/kg) and benserazide (50 mg/kg) potentiated L-DOPA behaviour more effectively than either inhibitor alone. NSD 1015-facilitated L-DOPA behaviour was antagonized by sulpiride (100 mg/kg) and not by SCH 23390 (1 mg/kg), whereas budipine-facilitated L-DOPA behaviour was fully antagonized by SCH 23390 and only partially by sulpiride. These results show that behaviourally active doses of L-DOPA in the reserpinized rat are not accompanied by significant increases in extracellular dopamine and are therefore probably not dopamine mediated. We propose that L-DOPA is capable of directly stimulating dopamine D2 and possibly non-dopamine receptors, thereby inhibiting dopamine efflux presynaptically and promoting motor activation postsynaptically. A stimulant action of L-DOPA on motor behaviour, preferentially mediated by D1 > D2 receptors, suggests that L-DOPA may also be capable of yielding a dopamine-like response in the absence of detectable dopamine release. These findings are incorporated into a new model of L-DOPA's actions in the reserpinized rat, and their possible implications for our understanding of L-DOPA in Parkinson's disease are discussed.

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The purpose of this study was to determine if systemic treatment with the antiparkinsonian drug budipine was capable of influencing the release of dopamine newly synthesised from L-DOPA in the substantia nigra and corpus striatum of the monoamine-depleted rat. Dual probe microdialysis was therefore employed in freely moving animals pretreated with reserpine (4 mg/kg i.p. 18-20 h earlier) and alpha-methyl-p-tyrosine (200 mg/kg i.p. 45 min earlier). Budipine (10 mg/kg i.p.) alone evoked a small but significant increase in basal dopamine efflux in nigra, though not in striatum, but did not affect the spontaneous outputs of DOPAC, 5-HT, or 5-HIAA in either structure. A threshold amount of L-DOPA (25 mg/kg i.p.) stimulated the release of dopamine, DOPAC, and 5-HT (but not 5-HIAA), both in nigra and striatum. The L-DOPA-induced releases of dopamine and DOPAC were greatly accentuated by pretreatment with budipine (10 mg/kg i.p. 45 min earlier), which delayed rather than potentiated the nigral and striatal effluxes of 5-HT. A higher dose of L-DOPA (100 mg/kg i.p.) did not significantly raise the outputs of dopamine or 5-HT, but greatly magnified that of DOPAC. In these experiments, pretreatment with budipine (10 mg/kg i.p.) facilitated the formation of DOPAC from L-DOPA, without increasing the extracellular concentration of dopamine. We conclude from these findings that budipine, at a therapeutically relevant dose, potentiates the release of dopamine newly synthesised from L-DOPA from either end of the nigrostriatal dopamine axis. This effect of budipine could be related to the drug's recently described ability to increase the activity of the converting enzyme, aromatic L-amino acid decarboxylase, and could explain the clinical efficacy of budipine as an adjunct to L-DOPA therapy of Parkinson's disease in man. The significance of 5-HT release to the antiparkinsonian L-DOPA, and the delay in this release caused by budipine, remain to be established.

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The neurotoxic effects of methamphetamine (4 x 5 mg/kg i.p. at 2-h intervals) and 3-nitropropionic acid (20 mg/kg i.p. on days 1-4 and 6-9, saline on day 5), administered alone or in combination (3-nitropropionic acid as above and methamphetamine on day 5), were investigated in rats 1 week after the last injection. Neither methamphetamine nor 3-nitropropionic acid on their own altered brain dopamine levels, but in combination, they selectively lowered dopamine in the terminal regions of the corpus striatum and nucleus accumbens. Methamphetamine depleted 5-hydroxytryptamine (5-HT) in the striatum, while 3-nitropropionic acid depleted 5-HT in the accumbens and substantia nigra, but a combination of the two toxins failed to lower 5-HT in any of these brain regions. Measurements of aromatic L-amino acid decarboxylase activity disclosed no change in the capacity to decarboxylate L-3,4-dihydroxyphenylalanine in any region with any of the treatments, but a lowered capacity to decarboxylate 5-hydroxytryptophan in the nigra after all three treatments. Methamphetamine evoked characteristic hyperactivity and stereotypy in the animals, whereas 3-nitropropionic gave rise to early hypermotility followed by hypoactivity. At 1 week after treatment with 3-nitropropionic/methamphetamine, rats exhibited normal spontaneous motor behaviour, a poor response to dopamine D(1) receptor stimulation and an exaggerated response to dopamine D(2) receptor agonists. These results show that combined systemic treatment with methamphetamine and 3-nitropropionic acid partially depletes dopamine in the basal ganglia, rendering the animals supersensitive to dopamine D(2) receptor activation without altering their spontaneous locomotion.

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The present study examined the effects of the antiparkinsonian drug budipine on dopamine synthesis and release from L-DOPA in the substantia nigra of reserpine-treated rats. Budipine (at 100 microM, but not 10 microM) applied by reverse dialysis to the nigra caused a small and significant rise in dopamine recovery in normal rats, but not in rats pretreated with reserpine (4 mg/kg i.p. for 18 hours) and alpha-methyl-p-tyrosine (alpha-MPT; 200 mg/kg i.p. for 1 hour to limit dopamine synthesis to L-DOPA). L-DOPA applied to the nigra by reverse dialysis in reserpine + alpha-MPT-treated rats, increased the recovery of dopamine when applied at 5 or 10 microM, but not at 2 microM. Coadministration of budipine (10 microM) significantly enhanced L-DOPA-induced dopamine (and DOPAC) release with 5 microM L-DOPA, but not with 2 or 10 microM L-DOPA. This potentiation was even more pronounced when the budipine concentration was raised to 100 microM (equivalent to approximately 10 microM extracellularly). Pretreating rats with budipine (5, 12.5, or 20 mg/kg i.p.) for 1 hour significantly raised the activity of the enzyme L-aromatic amino acid decarboxylase in the striata and nigras of intact rats, as well as in rats pretreated with reserpine alone (5 mg/kg i.p.), without altering tissue levels of dopamine or its metabolites. It is suggested that the beneficial effects of budipine, when used as an adjunct to L-DOPA therapy of Parkinson's disease, may be due to an increase in the bioconversion of L-DOPA with a consequent rise in synaptic dopamine. These actions of budipine may be related to its weak NMDA receptor antagonist property.

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This study examined the acute effects of a variety of NMDA and non-NMDA antagonists on the activity of aromatic l-amino acid decarboxylase (AADC) in the corpus striatum (CS) and substantia nigra (SN) of the rat. Sixty min pretreatment with the high affinity NMDA receptor-channel blockers MK 801 (0.01, 0.1 and 1 mg/kg) and phencyclidine (4 mg/kg) elevated AADC activity in both the CS and SN (2- to 3-fold). Even more striking increases in AADC were noted with 40 mg/kg amantadine (3.8-fold for CS, 9.0-fold for SN), 40 mg/kg memantine (3.4-fold for CS, 3.1-fold for SN; 20 mg/kg no effect) and 40 mg/kg dextromethorphan (3.4-fold for CS, 6.2-fold for SN, in 6/10 'responders'). Similarly pronounced increases in AADC activity in CS (1.9-fold) and SN (2.8-fold) were detected after administering clonidine (2 mg/kg). R-HA 966 (5 mg/kg, not 1 mg/kg) modestly raised AADC activity in CS (0.45-fold) and not SN. Other drugs had no effect on the activity of the decarboxylase enzyme, including CGP 40116 (1 and 5 mg/g), eliprodil (10 mg/kg), NBQX (10 mg/kg, 30 min pretreatment) and atropine (1 mg/kg). These experiments indicate that blocking the NMDA receptor-channel (and to a lesser extent the glycine site) or stimulating alpha2-adrenoceptors, profoundly increases AADC activity, more especially in the SN than CS. By contrast, inhibiting the NMDA glutamate recognition or polyamine sites, AMPA or muscarinic receptors is without effect on AADC in either brain region. The ability of amantadine and memantine to potentiate the antiparkinsonian actions of l-DOPA in the clinic, may be due to facilitated decarboxylation of l-DOPA by the brain.

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This study examines the hypothesis that glutamate tonically suppresses the activity of the enzyme aromatic L-amino acid decarboxylase (AADC), and hence the biosynthesis of dopamine, to explain how antagonists of glutamate receptors might potentiale the motor actions of L-DOPA in animal models of Parkinson's disease. A variety of glutamate antagonists were therefore administered acutely to normal rats, which were sacrificed 30-60 min later and AADC activity assayed in the substantia nigra pars reticulata (SNr) and corpus striatum (CS). The NMDA receptor-ion channel antagonists MK 801, budipine, amantadine, memantine and dextromethorphan all caused a pronounced in creased in AADC activity, more especially in the SNr than CS. The NMDA glycine site antagonist (R)-HA 966 produced a modest increase in AADC activity in the CS but not SNr, whilst the NMDA polyamine site antagonist eliprodil, the NMDA competitive antagonist CGP 40116 and the AMPA antagonist NBQX were without effect. The results suggest that an increase in dopamine synthesis might contribute to the L-DOPA-facilitating actions of some glutamate antagonists.

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In parkinsonism, glutamate pathways within the basal ganglia become overactive, leading to the suggestion that glutamate antagonists might possess antiparkinsonian qualities. This report examines the motor properties of antagonists of NMDA and AMPA-type glutamate receptors, as well as some inhibitors of glutamate release, in animal models of idiopathic Parkinson's disease. High affinity NMDA open-channel blockers (e.g. MK 801, phencyclidine), are highly potent antagonists with inconsistent antiakinetic and strong myorelaxant activity. Other compounds are better tolerated and are capable of relieving immobility and muscular rigidity by themselves (e.g. 1-aminoadamantanes, polyamine site antagonists, kappa agonists, riluzole). Yet others do not restore movements alone (e.g. dextromethorphan, ketamine), but may interact with and strengthen the antiparkinsonian action of L-DOPA (e.g. competitive NMDA and AMPA antagonists, lamotrigine). They may do this by potentiating dopaminergic behaviours mediated by D1 or D2 receptors, or by some other mechanism.

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This study utilized microdialysis in conscious rats to investigate dopaminergic control of excitatory amino acid release in the entopeduncular nucleus (EPN), and glutamatergic control of dopamine release in the substantia nigra pars reticulata (SNr). EPN dialysates contained both glutamate and aspartate, which were elevated by dopamine depletion with reserpine and 6-hydroxydopamine (6-OHDA), reduced by the D2/3 agonist LY 171555 and unaffected by the D1 agonist SKF 38393, in line with current theory. The D2/3 agonist RU 24213 was behaviourally active but paradoxically increased glutamate and aspartate release in EPN, possibly via kappa opioid receptor blockade. 6-OHDA-hemilesioned rats also showed a significant increase in glutamate and aspartate contralaterally, suggesting that nigrostriatal dopamine affects EPN neurotransmission bilaterally. In reserpine-treated rats, basal levels of dopamine in the SNr were greatly reduced, and were further lowered by focal application of NMDA antagonists, suggestive of the removal of a high glutamatergic tone. A threshold amount of L-DOPA applied to the SNr elevated dopamine output about two-fold and 5-HT output about 13-fold, indicating L-DOPA effects the release of monoamines other than dopamine. Concomitant addition of the NMDA antagonists potentiated these releases synergistically, suggesting that this could be how they facilitate the antiparkinsonian action of L-DOPA.

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This study used intracerebral microdialysis to monitor the outputs of excitatory amino acids in the entopeduncular nucleus (EPN) of conscious or halothane-anaesthetized rats, in an attempt to obtain direct biochemical evidence for the theory that neuronal inputs to the EPN by the indirect striatal output pathway are glutamatergic and regulated primarily by dopamine D2 receptors in the striatum. In dopamine-intact animals, both glutamate and asparate were readily detectable in EPN dialysates. Recoveries of both amino acids were increased bilaterally by local perfusion with veratridine (100 microM, given under halothane anaesthesia), pretreatment with reserpine (4 mg/kg, i.p., 24 h beforehand), unilateral pretreatment of the medial forebrain bundle with 6-OHDA (8 microg/4 microl), and by the systemic (1 mg/kg, i.p.) or bilateral intrastriatal (7 microg/0.5 microl under halothane anaesthesia) administration of the dopamine D2 receptor antagonist haloperidol, but not raclopride (2 mg/kg, i.p.). The dopamine D1 receptor antagonist SCH 23390 was ineffective both systemically (0.25 mg/kg, i.p.) and intrastriatally (0.125 microg/0.5 microl/side), as also were control intrastriatal injections of saline (0.5 microl/side). By contrast, the dopamine D2/3 receptor agonist quinpirole (4 mg/kg, i.p.) lowered the outputs of glutamate and aspartate in the EPN of reserpine-treated and normal individuals, whilst the dopamine D1 receptor agonist SKF 38393 (30 mg/kg, i.p.) was inactive; however, both drugs caused behavioural arousal. The dopamine D2/3 receptor agonist RU 24213 reversed reserpine-induced akinesia, yet paradoxically increased glutamate (not aspartate) output in the EPN still further. The combination of benserazide (30 mg/kg, i.p.) and L-DOPA (50 mg/kg, i.p.) evoked intense contraversive circling in unilaterally 6-OHDA-lesioned rats, together with a drop in EPN glutamate (but not aspartate) output in the intact but not lesioned hemisphere. These results offer biochemical support for the hypothesis that excitatory neurones innervating the EPN via the indirect striatal output pathway, may utilise glutamate and/or aspartate as their neurotransmitter. They further endorse the view that the EPN receives information from striatal D2 and not D1 receptors via excitatory synapses, which become hyperactive following dopamine depletion or inactivation, and which are subject to control by the contralateral as well as by the ipsilateral hemisphere. The results obtained with RU 24213 and L-DOPA, however, indicate that dopaminergic behaviours can also occur independently of glutamate or aspartate release in the EPN.

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A variety of N-methyl-D-aspartate and alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid receptor antagonists, and the antiepileptic drug lamotrigine, were examined for their ability to restore locomotion and other behaviours when injected stereotaxically via indwelling cannulae into the striatum or substantia nigra pars reticulata of rats rendered akinetic with reserpine (5 mg/kg i.p. 24 h beforehand). Only the competitive N-methyl-D-aspartate antagonists 3-((+)-2-carboxypiperazin-4-yl)-propyl-1-phosphonate and R-DL-(E)-2-amino-4-methyl-5-phosphono-3-pentanoate stimulated locomotion from the striatum, whereas 2-amino-phosphonopentanoic acid, the N-methyl-D-aspartate channel blockers dizocilpine maleate and phencyclidine, and the alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid antagonist 2,3-dihydroxy-6-nitro-7-sulphamoyl-benzo(f)-quinoxaline-dione, were additionally effective in the substantia nigra pars reticulata. The N-methyl-D-aspartate glycine site antagonist (RS)-3-amino-1-hydroxypyrrolidin-2-one and the glutamate release inhibitor lamotrigine failed to restore locomotion at these sites, and the N-methyl-D-aspartate polyamine site antagonist eliprodil was ineffective in the substantia nigra pars reticulata, although all compounds tested (except lamotrigine) induced orofacial, head and/or limb movements to some degree. Except for 2,3-dihydroxy-6-nitro-7-sulphamoyl-benzo(f)-quinoxaline-dione, locomotion was accompanied dose-dependently by increasingly pronounced ataxia and postural abnormalities. These results show that the monoamine-depleted substantia nigra pars reticulata has a broader spectrum of responsitivity to the antiparkinsonian actions of N-methyl-D-aspartate and alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid antagonists than does the striatum, and that the harmful as well as the beneficial effects of these compounds on locomotion arise from these two structures.

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This study investigated the anticataleptic activity of MK-801 versus the D1 antagonist SCH 23390 and the D2 antagonist raclopride, using the horizontal bar test in the rat. MK-801, 0.2 mg/kg i.p., strongly opposed the cataleptogenic actions of SCH 23390 and raclopride administered systemically (1 and 3 mg/kg i.p., respectively), or directly into the corpus striatum (CS) or nucleus accumbens (NAc; 1 and 10 microg, respectively). Conversely, intraCS and intraNAc pretreatment with MK-801 (10 microg) markedly attenuated the cataleptic response to a systemic injection of SCH 23390 or raclopride. In the latter experiments the anticataleptic effect of MK-801 was pronounced and sustained (> 2 h), except with intraCS MK-801 versus raclopride, where it was initially profound but only short-lived (15 min). Stereotaxic injection of MK-801 (1 microg) into the substantia nigra pars reticulata (SNr) prevented catalepsy developing to either dopamine D1 or D2 receptor antagonism. These results indicate there must be unimpeded glutamate neurotransmission in the CS and NAc before catalepsy can develop fully to D1 and D2 dopamine receptor blockade in these structures. The weaker glutamate-D2 interaction in the CS than in the NAc may be related to differences in the N-methyl-D-aspartate receptor subpopulations in these nuclei. Finally, the ability of intranigral MK-801 to diminish both D1- and D2-dependent catalepsy suggests the SNr acts as a common output pathway for the expression of both forms of catalepsy in the rat.

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Microdialysis of the substantia nigra pars reticulata in freely moving rats disclosed a steady release of dopamine and its metabolites which was greatly reduced after reserpine (4 mg/kg s.c.) and alpha-methyl-p-tyrosine (200 mg/kg i.p.) pretreatments. Local infusion of high K+ (100 mM) or L-3,4-dihydroxyphenylalanine (L-DOPA, 10 microM) significantly increased dialysate levels of dopamine and 3,4-dihydroxyphenylacetic acid (DOPAC), but not homovanillic acid (HVA) in this model. Intranigral application of the non-competitive NMDA receptor antagonist dizocilpine (150 nM), or the competitive NMDA receptor antagonist R-DL-(E)-2-amino-4-methyl-5-phosphono-3-pentanoate (CGP 40116, 10 microM), via the dialysis probe, did not affect the release of dopamine or its metabolites in intact rats, but further suppressed these releases in reserpine plus alpha-methyl-p-tyrosine-treated animals. When the same amounts of dizocilpine or CGP 40116 were coinfused with L-DOPA, however, they potentiated the recovery of dopamine 12-24 times, and of DOPAC 5-10 times (but not HVA), as well as producing detectable behavioural arousal. The facilitation of dopamine formation from L-DOPA by NMDA receptor antagonists in the substantia nigra pars reticulata could explain the enhancement of L-DOPA's antiparkinsonian activity by these compounds in behavioural experiments.

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Systemic administration of pilocarpine (400 mg/kg i.p.) or intrahippocampal injection of carbachol (100 micrograms/1 microliters) induced limbic motor seizures in rats, characterized by head weaving and paw treading, rearing and falling, and forepaw myoclonus, developing into status epilepticus. After being in status for 30 min, rats were killed and levels of dopamine, dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) were determined in eight brain regions by high performance liquid chromatography. Pilocarpine-induced seizures significantly elevated dopamine in the striatum, and in both dorsal and ventral aspects of the hippocampus, but did not affect dopamine in substantia nigra, nucleus accumbens, olfactory tubercle, cingulate cortex or amygdala. Metabolite levels were increased in striatum, substantia, nigra, nucleus accumbens and cingulate cortex, and fell in the hippocampus, but remained unchanged in the olfactory tubercle and amygdala. Intrahippocampal carbachol significantly raised the dopamine contents of striatum and nigra, and in both ventral and dorsal aspects of the hippocampus, but not elsewhere. DOPAC and/or HVA were elevated in all brain regions tested, save for amygdala and dorsal hippocampus. These changes translated into seizure-induced increases in dopamine utilization in the nucleus accumbens, olfactory tubercle and cingulate cortex, and to a fall in dopamine utilisation in the hippocampus, with no net change in amygdala. In addition pilocarpine (but not carbachol) increased dopamine utilization in the nigrostriatal axis, possibly through a seizure-unrelated mechanism. The relevance of these findings to seizure development are discussed.

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The clinical benefits of dopamine agonists in the management of epilepsy can be traced back over a century, whilst the introduction of neuroleptics into psychiatry practice 40 years ago witnessed the emergence of fits as a side effect of dopamine receptor blockade. Epidemiologists noticed a reciprocal relationship between the supposed dopaminergic overactivity syndrome of schizophrenia and epilepsy, which came to be regarded as a dopamine underactivity condition. Early pharmacological studies of epilepsy employed nonselective drugs, that often did not permit dopamine's antiepileptic action to be clearly dissociated from that of other monoamines. Likewise, the biochemical search for genetic abnormalities in brain dopamine function, as predeterminants of spontaneous epilepsy, proved largely inconclusive. The discovery of multiple dopamine receptor families (D1 and D2), mediating opposing influences on neuronal excitability, heralded a new era of dopamine-epilepsy research. The traditional anticonvulsant action of dopamine was attributed to D2 receptor stimulation in the forebrain, while the advent of selective D1 agonists with proconvulsant properties revealed for the first time that dopamine could also lower the seizure threshold from the midbrain. Whilst there is no immediate prospect of developing D2 agonists or D1 antagonists as clinically useful antiepileptics, there is a growing awareness that seizures might be precipitated as a consequence of treating other neurological disorders with D2 antagonists (schizophrenia) or D1 agonists (parkinsonism).

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The non-competitive NMDA polyamine site antagonist, eliprodil, was examined for its effects on exploratory activity in non-habituated mice and for its antiakinetic potential in reserpine-treated mice. A low dose of eliprodil (5 mg/kg) weakly stimulated locomotion in naive animals, whilst higher doses depressed rearing (20-40 mg/kg) and grooming (40 mg/kg), consistent with a sedative action. At no dose did eliprodil cause ataxia. In 24 h reserpine-treated mice, eliprodil (10-40 mg/kg) reversed akinesia, but this effect was subject to considerable inter-animal variation and was not statistically significant. Eliprodil did not alter the motor recovery elicited by the dopamine D1 agonist SKF 38393, or the dopamine D2 agonist RU 24213, and suppressed the motor stimulation induced by L-DOPA. These results indicate that eliprodil displays a far lower propensity than many other NMDA receptor antagonists for disturbing posture and gait, but lacks the essential motor stimulant action required to make it a safe and effective antiparkinsonian agent, at least in the reserpine-treated mouse model of Parkinson's disease.

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Dextromethorphan has been reported to be a weak antagonist of the ion channel associated with the NMDA receptor, and to have putative antiparkinsonian activity in man. This study looked at the effects of dextromethorphan in normal and monoamine-depleted mice, to determine whether it exhibited a behavioural profile with regard to motor activity that was consistent with NMDA receptor blockade. In normal mice, 5-80 mg/kg i.p. dextromethorphan caused modest muscle relaxation at the highest dose in all animals; hyperlocomotion and stereotypy were evident at 40 mg/kg i.p. in a fraction of mice (4/14). In 24 h reserpine-treated mice, locomotion was reinstated by the dopamine D1 receptor agonist 2,3,4,5-tetrahydro-7,8-dihydroxy-1-phenyl-1H-3-benzazepine hydrochloride (SKF 38393, 30 mg/kg i.p.), the dopamine D2 receptor agonist N-n-propyl-N-phenylethyl-p-(3-hydroxyphenyl)ethylamine (RU 24213, 5 mg/kg s.c.) and L-3,4-dihydroxyphenylalanine (L-DOPA, 150 mg/kg i.p. in conjunction with benserazide 100 mg/kg i.p.). Dextromethorphan alone (10-40 mg/kg i.p.) caused non-significant arousal of monoamine-depleted mice, but potentiated synergistically movements elicited by SKF 38393 and L-DOPA, though not RU 24213. The possible use of dextromethorphan as an adjunct to L-DOPA in the treatment of Parkinson's disease in man, is discussed.

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