Alpha2-adrenoceptor antagonism is neither sufficient nor necessary for the distinctive action of atypical neuroleptics on intracranial self-stimulation in the rat.

Response rates in variable-interval intracranial self-stimulation (ICSS) in rats can provide a continuous record of drug-induced changes in brain function. Use of this procedure has been found to distinguish between typical and atypical neuroleptics, with the latter producing a similarly intense but much briefer depression of responding. This difference has been ascribed to the alpha2-adrenoceptor antagonist properties of atypical neuroleptics, but the evidence is ambiguous. The role of alpha2-adrenoceptors was examined in the present study using ventral tegmental ICSS to track the depressant effects of the typical and atypical neuroleptics, haloperidol (0.075 mg/kg) and olanzapine (0.9 mg/kg), injected alone or in combination with an alpha2-adrenoceptor agonist or antagonist. Neither haloperidol nor olanzapine (despite its atypical features) shows appreciable affinity for the alpha2-adrenoceptor. In the present study, olanzapine was found to depress self-stimulation responding dose-dependently, but with considerable recovery after 4 h. Simultaneous administration of alpha2-adrenoceptor receptor agonists or antagonists (respectively clonidine 0.015 mg/kg or idazoxan 3.0 mg/kg) failed significantly to increase or decrease the action of either haloperidol or olanzapine. These results indicate that alpha2-adrenoceptor antagonism does not necessarily promote recovery from neuroleptic-induced depression, and that 'atypical' features do not necessarily depend on alpha2-adrenoceptor antagonism. Various other explanations remain possible, but the accelerated time course of the atypical agents appears to support more recent explanations, based on their rapid dissociation from the D2 receptor.

Rapid recovery of self-stimulation responding from depression by clozapine is prevented by the alpha 2-adrenoceptor agonist, clonidine.

Typical and atypical antipsychotic agents were tested on rats responding for variable-interval electrical stimulation of the ventral tegmental area (VTA). The typical neuroleptics, chlorpromazine and haloperidol, led to prolonged depression of responding lasting at least 4 h, whereas response rates after similarly effective doses of the atypical agents, clozapine and risperidone, recovered to control levels in the same period. The role of alpha 2-adrenoceptors in producing these differences was investigated by administering clozapine together with an alpha 2-adrenoceptor agonist, clonidine, and chlorpromazine together with an alpha 2-adrenoceptor antagonist, idazoxan. The addition of clonidine extended the response-depressant activity of clozapine, resulting in prolonged depression comparable to that produced by chlorpromazine or haloperidol. Conversely, the addition of idazoxan to chlorpromazine shortened the duration of chlorpromazine's suppressant action to a level comparable to that of clozapine or risperidone. These results suggest that the brevity of clozapine's effects on operant behaviour (a feature which may be related to its reduced liability to extrapyramidal side-effects) may be a consequence of its alpha 2-adrenoceptor antagonist properties.

Spontaneous epileptiform seizures but increased resistance to kindled seizures in a mutant Sprague-Dawley rat (mf/mf).

Approximately 30% of a breeding colony of Sprague-Dawley rats homozygous for an autosomal recessive mutation mf ("mutilated foot") associated with a peripheral sensory neuropathy have been found unexpectedly to suffer spontaneous epileptiform attacks. Seizures ranged from brief episodes of compulsive running to tonic-clonic convulsions lasting for up to 30 s, recurring at intervals of hours or days. EEG recordings during seizures showed high-voltage 8-10 Hz spike trains that abated over the ensuing 1-2 min. Interictal records were usually normal. Twice-daily kindling of the amygdala (200 microA sinewave for 1.0 s) was unexpectedly ineffective. Most of the rats that had suffered spontaneous seizures failed to develop kindled afterdischarges, even after 30 kindling stimulations. Other mf rats developed prolonged high-amplitude kindled afterdischarges that were arrested at stage 2 and failed to evolve into convulsive seizures. Hippocampal dentate granule cells of kindled mf rats, stained for zinc by Timm's method, showed significantly less mossy fibre sprouting than wild-type Sprague-Dawley rats after the same number of kindled afterdischarges. A minority of the mf rats tested (2 of 14) kindled normally. Auditory stimulation (n = 23) or stroboscopic flicker (n = 14) failed to elicit seizures or running fits in any mf rat. Peripheral neuropathy corresponding to that in the mf rat, with resistance to kindling and diminished mossy fibre sprouting, have also been reported in transgenic mice with defective p75NGFR neurotrophin receptors. A homologous genetic defect in the rat could account for most of the features of the mf phenotype.

Rapid recovery of self-stimulation from depression produced by the atypical neuroleptic risperidone is not prevented by 5-HT2 receptor stimulation.

Behavioral effects of the antipsychotic drug risperidone were tested in rats responding for variable-interval stimulation of the ventral tegmental area (VTA). Risperidone (0-0.9 mg/kg) produced a dose-dependent depression of responding in the 60 min after injection. Self-stimulation tests delayed for 30 or 120 min after injection showed that inhibition of responding by risperidone was limited in duration, with response rates recovering to pre-injection levels in a time-dependent manner. Recovery occurred regardless of opportunity to engage in self-stimulation, and was virtually complete at a time when receptor occupancy has been shown to be almost undiminished. The atypical properties of risperidone have been ascribed to its potent antagonist activity at 5-HT2 receptors; however, spontaneous recovery from the effects of risperidone was not prevented by simultaneous administration of a selective 5-HT2 agonist (DOI), even though DOI when given alone produced a 50-70% reduction in response rates. These results show that the inhibitory effect of risperidone on operant performance may be self-limiting in a manner that is not accounted for by its pharmacokinetic properties nor by its antagonist activity at central 5-HT2 receptors.

Kindled seizures do not affect adenosinergic inhibition of DA or ACh release in rat accumbens or PFC.

Epileptic seizures are thought to terminate largely as a result of the extracellular accumulation of the purinergic neuromodulator, adenosine, released by discharging neurons. However, the postictal surge in extracellular adenosine and its widespread inhibitory effects are limited in time to only a few minutes and cannot directly account for increased resistance to seizures and the complex behavioural and motivational effects that may persist for hours or days after a seizure. The present study examined whether kindled seizures might alter the sensitivity or efficacy of inhibitory presynaptic adenosine receptors, and thereby induce more enduring changes in downstream transmitter systems. Rats were kindled in the amygdala of the dominant cerebral hemisphere, contralateral to the preferred direction of rotation, and their brains were removed either 2 h or 28 days after completion of kindling. Inhibition of electrically stimulated release of dopamine (DA) and acetylcholine (ACh) by the A1 adenosine-receptor agonist, R-phenylisopropyladenosine (R-PIA) was then measured in the prefrontal cortex (PFC) and nucleus accumbens. R-PIA (1.0 microM) inhibited [1H]DA release from PFC and nucleus accumbens tissue, and [14C]ACh release from nucleus accumbens tissue, but release was unaffected by prior kindling, regardless of the intervening interval. These results do not support suggestions that DA or ACh might mediate the effects of seizure-induced changes in purinergic inhibitory tone so as to cause long-term shifts in seizure threshold and postictal behavior.

Nitric oxide synthesis, epileptic seizures and kindling.

Nitric oxide (NO) has been implicated in synaptic changes underlying long-term potentiation and some forms of learning. It is unclear, however, whether NO contributes to long-term changes associated with the kindling of epileptic seizures. In the present study rats were treated, on the first 6 days of kindling, with L-arginine (L-Arg), the endogenous donor from which NO derives, or with L-nitro-arginine (L-No-Arg), a competitive inhibitor of NO synthesis, or with vehicle. Drugs were given in doses previously shown to affect learning or other behaviour. L-Arg (750 mg/kg IP) did not affect kindling or seizure severity. L-No-Arg (100 mg/kg) prolonged the duration of afterdischarges and convulsions on treatment days but did not advance kindling or affect seizures on subsequent days. A second experiment examined the possible role of NO in the development of resistance to seizures following prior seizures. Six or more stimuli were administered at 10-min intervals to fully-kindled rats after injection of L-No-Arg or vehicle. Vehicle-treated rats became progressively more resistant to afterdischarges and convulsions with successive stimulations but L-No-Arg-treated rats failed to do so. Rats injected with L-NO-Arg also showed an unexpected high mortality in the ensuing 24 h. L-No-Arg appeared to have no direct effect on the course of kindling but impaired the development of postictal resistance, and increased the duration and lethal after-effects of closely repeated seizures. The results do not support suggestions that antagonists of NO might prove clinically useful as anticonvulsants.

α 2-Adrenoreceptor antagonism may contribute to the atypical properties of risperidone: experimental support for the Nutt case.

The therapeutic efficacy and reduction in side effects claimed for new antischizophrenic drugs such as clozapine and risperidone have been ascribed to their heightened affinity for serotonin 5-HT(2) receptors rather than D-2 receptors. A case for α(2)-adrenoreceptor antagonism has recently been argued. We have confirmed that at least one atypical property of risperidone (a rapid decrement in its ability to depress self-stimulation) can be partly prevented by an α(2)-adrenoreceptor agonist (clonidine) but not by a 5-HT( 2) receptor agonist (DOI). This result supports the suggested role of α( 2)-adrenoreceptor antagonism in counteracting extrapyramidal effects during treatment with risperidone.

Kindled epileptic seizures, postictal refractoriness, status epilepticus, and electrical self-stimulation.

A single stimulus applied once daily to the limbic system commonly leads to convulsive seizures yet seizures are relatively infrequent during intracranial self-stimulation (ICSS), a procedure that involves many hundreds of similar stimuli. The present study examined the possible role of electrode site, interstimulus interval, afterdischarge and reinforcement thresholds and postictal refractoriness in accounting for this paradox. Electrode location was an overriding factor: seizures were never seen with hypothalamic implants posterior to the level of the ventromedial nucleus but were elicited by the majority of more rostral reward sites. Frequent repeated stimulation by ICSS did not in itself prevent subsequent kindling or reverse the effects of earlier kindling; on the contrary, seizures induced by ICSS showed a progressive increase in severity similar to the progression produced by conventional kindling. Individual convulsive seizures, as in previous studies, conferred transient protection against further seizures whether from ICSS or from kindling. More prolonged protection occassionally developed after repeated convulsive seizures: protection was accompanied by continuous EEG slow-waves corresponding in presentation to clinical petit mal status. Prolonged resistance to seizures has also been reported after tonic-clonic status epilepticus causing temporal lobe damage. The relative infrequency of seizures during ICSS ordinarily appears to depend on the siting of the electrodes, on distinct short- and long-term postictal refractory states, and on the rat learning to restrict stimulus input to subseizural levels.

The effect of a 5-HT3 receptor antagonist, ondansetron, on brain stimulation reward, and its interaction with direct and indirect stimulants of central dopaminergic transmission.

5-HT3 receptors are abundant in central dopamine (DA) terminal areas. They do not affect basal DA turnover but appear to modulate DA release by e.g. morphine and nicotine. The interpretation of these findings is uncertain, and it is unclear whether 5-HT3 receptors also influence the activity of compounds such as amphetamine and cocaine, which act more directly on the DA synapse. Variable-interval (VI), threshold-current hypothalamic self-stimulation can provide a continuous index of central dopaminergic activity, but is relatively insensitive to changes in 5-HT and thus offers a means of investigating this question. In the present study, a selective 5-HT3 receptor antagonist, ondansetron (GR 38032F) (1.0 to 1000 micrograms/kg sc), had no effect on VI self-stimulation, nor did a 100 micrograms/kg dose affect facilitation of responding by d-amphetamine (500 micrograms/kg ip). Ondansetron (100 micrograms/kg) reduced the initial depression of self-stimulation by high-dose nicotine (400 micrograms/kg), but not the ensuing facilitation. Similar results were obtained in rats "sensitized" to nicotine by prior chronic exposure. These results support the proposal that 5-HT3 receptors, normally quiescent under basal conditions, mediate the excitatory effect of compounds acting upstream from the DA neuron, such as nicotine, but do not affect the dopaminergic synapse directly.

Effect of an adenosine A1 agonist injected into substantia nigra on kindling of epileptic seizures and convulsion duration.

The substantia nigra pars reticulata (SNr) has been reported to be critically involved in the development and propagation of epileptic seizures, while extracellular adenosine appears to be important for making seizures stop. In the present study, an adenosine A1 receptor agonist [N6-cyclohexyladenosine (CHA); 2.0 nmol/side, or vehicle] was injected bilaterally into the SNr shortly before each of the first five of a series of daily kindling stimuli delivered to the rat amygdala. Injections did not affect the acquisition of kindled afterdischarges or the rate at which seizures developed over subsequent kindling sessions, but convulsions occurring 48-72 h after treatment were significantly shortened. Thus, purinergic mechanisms in the SNr do not appear to be specifically involved in the acquisition of kindled seizures but may contribute to a postictal inhibitory process that shortens the convulsive component.

Tolerance and sensitization to stimulant and depressant effects of nicotine in intracranial self-stimulation in the rat.

Nicotine is thought to be an important factor in addiction to tobacco but its psychopharmacological properties are still uncertain. In the present study, rats were trained to operate a pedal to obtain threshold-current, variable-interval hypothalmic stimulation. Response rates were printed out at 10min intervals to provide a continuous record of facilitatory or depressant effects by injected nicotine. Responding was enhanced in all rats but this depended on dose, time after injection, and previous exposure to the drug. In the first 10min after injection, responding by drug-naive rats was either unaffected (40-130mg/kg s.c., as base) or strongly depressed (400µg/kg). This phase was followed by prolonged (>50min) dose-dependent facilitation. Higher doses (1.3mg/kg) caused prostration. Chronic exposure to nicotine (400µg/kg x 10 at 2-5 day intervals) reduced the initial depressant effect; it also augmented subsequent responding, but only in the early minutes after injection; the latter finding indicates that apparent sensitization to chronic nicotine may depend primarily on tolerance to its depressant effects, rather than on receptor upregulation. Stimulant and depressant effects of nicotine were prevented by pretreatment with the centrally acting antagonist, mecamylamine (2.0mg/kg s.c.), but not by the peripheral antagonist, hexamethonium (1.0mg/kg s.c.) or by the muscarinic receptor antagonist, hyoscine (scopolamine; 100-300µg/kg s.c.). Self-stimulation was unaffected by mecamylamine alone. Thus the inhibitory action of nicotine is unlikely to be due to depolarization block, peripheral activity or muscarinic activity. Its facilitatory and depressant effects appear to be narrowly time- and dose-specific, thus accounting for divergent findings in many studies.

Effect of the 5-HT3 receptor antagonist ondansetron on hypothalamic self-stimulation in rats and its interaction with the CCK analogue caerulein.

It is unclear whether behavioral depression and suppression of food intake by cholecystokinin (CCK) is contributed to by aversive gastrointestinal effects such as nausea. In the present study we examined the effect of a new antiemetic agent, ondansetron, a specific antagonist of 5-HT3 receptors, on suppression of variable-interval self-stimulation by the CCK analogue caerulein. Responding by rats for brain-stimulation reward is especially sensitive to CCK, and provides a convenient means of investigating this question. Caerulein (30 micrograms/kg, s.c.), injected alone, was followed by a profound (ca. 80%) reduction in the rate of self-stimulation, lasting about 30 min. Ondansetron (1.0-1000 micrograms/kg, s.c.) injected on its own had no effect on self-stimulation rate, and a 100-micrograms/kg dose did not lessen the depressant action of caerulein. The behavioural depressant effects of CCK are thus unlikely to depend on brain mechanisms for nausea and vomiting involving 5-HT3 receptors.

Ornithine decarboxylase induction and polyamine synthesis in the kindling of seizures: the effect of alpha-difluoromethylornithine.

It has been suggested that the kindling of seizures may depend on the induction of genes encoding enzymes involved in neurotransmission. Experimental seizures are followed by an especially rapid and massive induction of brain ornithine decarboxylase (ODC), an enzyme which catalyses the rate-limiting step in the synthesis of polyamines. The latter compounds have been shown to act as positive allosteric modulators of the NMDA receptor, and also to play an important role in cell growth and differentiation. The induction of ODC by seizures has accordingly been suggested to play a pivotal role in the changes in synaptic structure and function that underlie kindling. In the present study we examined the progress of kindling during treatment with alpha-difluoromethylornithine (DFMO), an irreversible inhibitor of ODC. We found that progressive increase in the duration and severity of kindled seizures and in the duration of local afterdischarges was unaffected by daily injections of DFMO in doses previously shown to cause substantial depression of brain ODC activity. Treatment with DFMO also failed to produce significant anticonvulsant or proconvulsant effects. Progressive increase in seizure activity during kindling is therefore unlikely to depend to any appreciable extent on enhanced synthesis of polyamines by ODC.

5-HT1A agonists and dopamine: the effects of 8-OH-DPAT and buspirone on brain-stimulation reward.

Two specific 5-HT1A agonists, 8-OH-DPAT (0-300 micrograms/kg), and buspirone (0-3.0 mg/kg), were tested on variable-interval, threshold-current self-stimulation of rat lateral hypothalamus. Buspirone produced a prolonged monotonic depression of responding, whereas the effects of 8-OH-DPAT were biphasic: 3.0 micrograms/kg produced a sustained enhancement of responding while higher doses (100-300 micrograms/kg) produced a relatively short-lasting depression. This biphasic pattern parallels previously reported effects of 8-OH-DPAT on food intake and on various other behaviours. Threshold-current self-stimulation is highly sensitive to alterations in dopaminergic transmission but relatively insensitive to changes in 5-HT. Thus the facilitatory effect of low-dose 8-OH-DPAT seems most plausibly interpreted in terms of enhanced dopaminergic transmission. This could be brought about by 5HT1A autoreceptor-mediated inhibiton of 5-HT release and consequent disinhibition of dopaminergic transmission. Depression of self-stimulation by higher doses of 8-OH-DPAT may reflect the activity of 8-OH-DPAT at postsynaptic 5-HT receptors, with consequent inhibition of DA transmission. Suppression of responding after buspirone at all doses tested may reflect the action of this compound as a partial agonist at postsynaptic 5-HT receptors, and/or its effects on other systems.

Excitatory amino acid pathways in brain-stimulation reward.

A range of agonists and antagonists active at different glutamate/aspartate (Glu/Asp) receptor subtypes were injected into rat ventral tegmental (VTA) sites downstream from self-stimulation electrodes in the medial forebrain bundle. Control injections were made into the contralateral tegmentum. Variable-interval (VI 10 s) self-stimulation was not significantly affected by a specific antagonist of N-methyl-D-aspartate (NMDA)-type receptors (D,L-2-amino-5-phosphonovaleric acid (2-AP5), 10 and 50 nmol). Broad-spectrum excitatory amino acid (EAA) antagonists viz cis-2,3-piperidine dicarboxylate (cPDA) (10 and 50 nmol), gamma-D-glutamylaminomethyl sulphonic acid (GAMS) (10 nmol) and p-chlorobenzoyl-2,3-piperazine dicarboxylic acid (pCB PzDA) (2.0 and 10 nmol), active at kainate, quisqualate, as well as NMDA receptors, all produced significant depression of responding when injected into the ipsilateral, but not the contralateral, tegmentum. Compounds inhibiting Glu/Asp reuptake had variable effects: strong depression with dihydrokainic acid (7.5 nmol), or no significant effect (L-threo-3-hydroxyaspartic acid, 2.0 and 10 nmol). The receptor agonist, NMDA (10 nmol), depressed responding regardless of injection side; kainic and responding regardless of injection side; kainic and quisqualic acid elicited myoclonic and other non-specific responses in preliminary tests, and were not examined further; enhanced responding was not seen. The side-specific blockade of responding by non-NMDA antagonists indicates the existence of non-NMDA EAA terminals in the VTA, signalling the receipt of hypothalamic brain-stimulation reward. Caudally directed EAA projections terminating on A10 dopamine cell bodies may account for depression of self-stimulation by EAA antagonists.

Effects of D-cycloserine and cycloleucine, ligands for the NMDA-associated strychnine-insensitive glycine site, on brain-stimulation reward and spontaneous locomotion.

D-Cycloserine (DCS) binds with high affinity to the glycine site associated with the NMDA receptor in rat brain. Systemic injections of DCS have been reported to facilitate performance on learning tasks, possibly by promoting long-term changes at the NMDA receptor complex. In the present study, DCS failed to affect spontaneous locomotor activity or variable-interval self-stimulation response rate. Cycloleucine, a competitive antagonist of glycine at the glycine site, produced a brief depression of self-stimulation, but only after relatively large doses which were not antagonised by injection of DCS in the dose reported to be optimal for the facilitation of learning. Improvements in learning and retention reported after administration of DCS are therefore unlikely to be accounted for by nonassociative motivational, or performance, factors.

The effect of the NMDA receptor antagonist, MK-801, on the course and outcome of kindling.

A rapid kindling procedure was used to distinguish between the anticonvulsant activity of drugs and their ability to retard the kindling process. MK-801 is a specific ligand at the phencyclidine (PCP) recognition site, and acts as a noncompetitive antagonist of NMDA-type glutamate/aspartate receptors. Intraperitoneal injections of MK-801 (0.5-4.0 mg/kg IP) significantly reduced the cumulated effect of 12 2-hr kindling stimulations, as determined from behavioral measures of seizure activity in immediately ensuing 24-hr drug-free kindling sessions; however, the corresponding electrographic effects did not reach significance. MK-801 also showed significant anticonvulsant activity when injected in fully kindled rats. Higher doses tested were accompanied by locomotor and postural effects. The anticonvulsant benzodiazepine, clonazepam, formulated with a proprietary diluent (as Rivotril, Roche), injected in anticonvulsant doses during the first 12 kindling sessions (0.64 mg/kg IP, repeated after 9 hr) did not significantly affect the course of subsequent sessions of drug-free kindling. Systemic injections of kynurenic acid (300-600 mg/kg IP 4 hours), a nonspecific antagonist of glutamate receptors in vitro, were without significant anticonvulsant or antikindling activity. Activity of NMDA-sensitive glutamate/aspartate receptors associated with the PCP recognition site may induce lasting facilitation of neural transmission; this facilitation may be responsible for the remote propagation and progressive enhancement of seizure activity kindled in the amygdala. The facilitatory process appears to be antagonised by MK-801.

Effect of intracerebroventricular and systemic injections of caerulein, a CCK analogue, on electrical self-stimulation and its interaction with the CCKA receptor antagonist, L-364,718 (MK-329).

Systemic administration of caerulein (10-100 micrograms/kg SC), a potent analogue of cholecystokinin, caused a profound dose-related depression of variable-interval self-stimulation, followed by progressive recovery within 60 min. Intracerebroventricular injection of caerulein (3-1000 ng) was not more effective than systemic injection, while injections into the nucleus accumbens (3-100 ng bilaterally) were without detectable effect. Systemic injections of L-364,718 (70-700 micrograms/kg IP), a specific competitive antagonist of CCKA ("peripheral-type") receptors, had no effect on self-stimulation when given alone. When given in combination with caerulein, L-364,718 (200 micrograms/kg IP) significantly reduced the inhibitory effect of caerulein (30 micrograms/kg SC); however, this dose, and higher doses of L-364,718, failed to confer complete protection. It is concluded that self-stimulation performance may be subject to modulation by CCK receptors distributed predominantly in the peripheral nervous system and that some but not all of these receptors are CCKA receptors.

Unusual interactions between the neuroleptic haloperidol, and the dopamine D2 partial agonist, terguride.

Terguride is an ergoline derivative which has been reported to act as a partial agonist at central dopamine D2 receptors. Depending on the state of the receptor, terguride may resemble an agonist or an antagonist in its pharmacological effects. The present study investigated interactions of terguride with the dopamine D2 antagonist haloperidol in the rat. Terguride (0.025 mg/kg, i.p.) lowered, whereas haloperidol (0.025 mg/kg, s.c.) increased serum prolactin levels. When given together there was a tendency for prolactin to be lowered, i.e. terguride fully antagonized the action of haloperidol. Both terguride and haloperidol dose-dependently reduced locomotor activity, with terguride being at least 50 times more potent. However, in the presence of a subthreshold dose of haloperidol (0.1 mg/kg), terguride was effective in reducing locomotor activity. Terguride and haloperidol were equally potent in disrupting performance of lever pressing for food on a VI 120 sec schedule (ED(50) values 0.22 and 0.28 mg/kg, respectively). When given together, there was a statistically significant interaction; a terguride dose of 0.2 mg/kg lowered rates of lever pressing when given with vehicle or a low (0.03 mg/kg) haloperidol dose, but antagonized the effect of 0.3 mg/kg haloperidol. Terguride dose-dependently disrupted lever pressing for intracranial stimulation reward (ED(50) value approx. 0.3 mg/kg). Haloperidol (0.26 mg/kg) also disrupted lever pressing but the two drugs together showed no greater effect than haloperidol alone. These observations are discussed in the context of terguride's suggested partial agonistic properties.

The effect of MK-801 and other antagonists of NMDA-type glutamate receptors on brain-stimulation reward.

MK-801 is a ligand at phencyclidine recognition sites associated with NMDA-coupled cation channels, where it acts as a potent noncompetitive antagonist of central glutamate/aspartate (NMDA-type) receptors. Low doses (10-100 micrograms/kg IP) produced a dose-related and prolonged (greater than 1 h) enhancement of variable-interval self-stimulation responding. Higher doses (300 micrograms/kg) caused flaccid ataxia and disrupted responding. Ketamine HCl (3.0-100 mg/kg IP), a dissociative anaesthetic binding to the phencyclidine site, produced a similar response pattern, but facilitation was less prolonged and occurred over a narrower dose range. Kynurenic acid (3.0-300 mg/kg IP), a nonselective competitive antagonist of glutamate receptors, produced only depression of responding, possibly the result of kynurenate-induced blockade of central kainate and/or quisqualate receptors. The behavioural stimulant effects of MK-801 appear to be an intrinsic and essential feature of selective NMDA antagonists, and these effects of MK-801 differ qualitatively and quantitatively from the well-known facilitatory effects of dopamine-dependent stimulants.