Glutamate receptor antagonists attenuate experimental catalepsy in rats

A long-term akinesia induced by haloperidol used as an experimental model of catalepsy helped to reveal that a dicationic derivatives adamantane (IEM-1754) and phenylcyclohexyl (IEM-1925) exerted different degrees of inhibition of the haloperidol effect: the IEM-1754 proved to be not inferior to the most effective NMDA antagonist MK-801. A relatively low potency of the IEM-1925 may be due to its obvious equal effects both on the NMDA and the AMPA receptor channels. A good correlation between the anticataleptic effects of the glutamate antagonists and the NMDA receptor blocking activity, were found. The AMPA receptor blockade might negatively affect the anticataleptic potency of the drugs under study.     

Ouabain Releases Striatal Polyamines In Vivo Independently of N-Methyl-d-Aspartate Receptor Activation

Abstract: Intrastriatally infused ouabain (200 or 1,000 μ M ) markedly increased the extracellular levels of striatal spermidine and spermine in dialysis experiments in halothane-anesthetized rats. The effects of ouabain (1 m M ) on sper- midine release were rapid and unaffected by local infusion of the competitive N -methyl- d -aspartate (NMDA) antagonist 3-(2-carboxypiperazin-4-yl)propyl-1 -phosphonic acid (CPP; 100 μ M ) or by systemically administered MK-801 (0.3 mg/kg i.p.), both of which treatments markedly inhibit the effects of intrastriatally administered NMDA. The peak effects of ouabain (1 m M ) on spermine release were delayed with respect to those on spermidine release, or to the effects of NMDA, and were also insensitive to locally administered CPP (100 μ M ). However, systemically administered MK-801 (0.3 mg/kg i.p., 30 min before the striatal infusion of drugs), which totally inhibits the effects of NMDA, or CPP (10 mg/kg i.p.; 30 min before the striatal infusion of drugs) partially inhibited the effects of ouabain on spermine release, suggesting partial mediation of the delayed effects of ouabain on spermine release by indirect NMDA-receptor activation. Despite partial sensitivity of ouabain-induced spermine release to systemically administered NMDA antagonists, both spermidine and spermine can be released in vivo by sodium-pump inhibition, independently of NMDA-receptor activation.     

Functional alteration by NMDA antagonist: effects of L-Dopa,neuroleptics drug and postnatal administration

Summary.  Antiakinsic effects of the uncompetitive NMDA antagonists, memantine, amantadine and MK-801, and competitive antagonists, CGP 40116, alone or in co-administration with acute subthreshold dose of L-Dopa (5 mg/kg) in MPTP-treated mice, functional alterations induced by acute MK-801 in combinations with neuroleptic compounds or behavioural deficits following postnatal administration of MK-801 were investigated. Memantine and amantadine injected 60 min before the subthreshold dose of L-Dopa (5 mg/kg), induced antiakinesic actions in hypokinesic MPTP-treated mice. Concurrently, higher doses of memantine and MK-801 caused dyskinesic changes, reducing further rearing (10 and 30 mg/kg) and locomotor (30 mg/kg) behaviour of the MPTP mice; MK-801 elevated locomotion (0.1 mg/kg) but reduced rearing (0.3 mg/kg). In control, saline-treated mice, memantine (3, 10 and 30 mg/kg) and MK-801 (0.1 and 0.3 mg/kg) increased locomotor behaviour but decreased rearing behaviour. In rats, MK-801 induced marked increases in locomotor activity and disruptions of circular swim maze acquisition that were to greater or lesser extents blocked or potentiated by neuroleptic compounds: SCH 23390 (0.005 and 0.05 mg/kg) and clozapine (5.0 and 10.0 mg/kg) dose-dependently antagonised MK-801 (0.3 mg/kg) induced locomotor activity whereas raclopride (0.1 mg/kg) and haloperidol (0.1 mg/kg) attenuated it dose-specifically. Amperozide (0.5 mg/kg) attenuated the MK-801 effect but potentiated it at the 2.0 mg/kg dose. In the circular swim maze, raclopride (0.01 mg/kg) and SCH 23390 (0.05 mg/kg) improved the acquisitive performance of rats administered MK-801 (0.03 mg/kg) acutely whereas clozapine (10.0 mg/kg) and amperozide (2.0 mg/kg) deteriorated the performance of MK-801-treated rats. Postnatal administration of MK-801 (0.05 mg/kg, day 11 after birth) induced severe functional alterations in adult mice. At 70 days of age, MK-801 mice showed an initial hypoactivity followed by marked hyperactivity in the motor activity test chambers. These mice showed deficits in habituation, a nonassociative form of learning. Their hyperactivity in the test chambers was reversed by a low dose of d-amphetamine (0.25 mg/kg). Taken together, these findings display a wide range of acute/long-term functional alterations induced by NMDA antagonists, particularly MK-801, associated with animal models of brain disorders. Received July 9, 2001 Accepted August 6, 2001 Published online June 17, 2002     

Effects of dextromethorphan on dopamine dependent behaviours in rats

Dextromethorphan, a noncompetitive blocker of N-methyl-D- aspartate (NMDA) type of glutamate receptor, at 7.5-75 mg/kg, ip did not induce oral stereotypies or catalepsy and did not antagonize apomorphine stereotypy in rats. These results indicate that dextromethorphan at 7.5-75 mg/kg does not stimulate or block postsynaptic striatal D2 and D1 dopamine (DA) receptors. Pretreatment with 15 and 30 mg/kg dextromethorphan potentiated dexamphetamine stereotypy and antagonised haloperidol catalepsy. Pretreatment with 45, 60 and 75 mg/kg dextromethorphan, which release 5-hydroxytryptamine (5-HT), however, antagonised dexamphetamine stereotypy and potentiated haloperidol catalepsy. Apomorphine stereotypy was not potentiated or antagonised by pretreatment with 7.5-75 mg/kg dextromethorphan. This respectively indicates that at 7.5-75 mg/kg dextromethorphan does not exert facilitatory or inhibitory effect at or beyond the postsynaptic striatal D2 and D1 DA receptors. The results are explained on the basis of dextromethorphan (15-75 mg/kg)-induced blockade of NMDA receptors in striatum and substantia nigra pars compacta. Dextromethorphan at 15 and 30 mg/kg, by blocking NMDA receptors, activates nigrostriatal dopaminergic neurons and thereby potentiates dexampetamine stereotypy and antagonizes haloperidol catalepsy. Dextromethorphan at 45, 60 and 75 mg/kg, by blocking NMDA receptors, releases 5-HT and through the released 5-HT exerts an inhibitory influence on the nigrostriatal dopaminergic neurons with resultant antagonism of dexampetamine stereotypy and potentiation of haloperidol catalepsy.     

Effects of narcotic antagonists on L-dopa reversal of reserpine-induced catalepsy and blepharoptosis in mice

Reserpine (1 mg/kg, i.p.) induced catalepsy and blepharoptosis in mice which were readily reversed by the administration of L-dopa (300 mg/kg, i.p.). The administration of the pure narcotic antagonists naloxone (10 mg/kg, i.p.) and naltrexone (1 mg/kg, i.p.) significantly potentiated L-dopa reversal of reserpine-induced catalepsy. Lower doses of the narcotic antagonists did not significantly alter this reversal. The L-dopa reversal of blepharoptosis was not significantly altered by either naloxone or naltrexone. These results indicate that while opiate receptors may be involved in L-dopa reversal of catalepsy, they may not have a role in the alteration of blepharoptosis.     

Effect of NMDA-receptor ligands on neocortical and hippocampal EEG activity of rat brain.

Neocortex and hippocampus play important role in motor activity, neuronal plasticity and learning and memory mechanisms. Electroencephalographic (EEG) activity of neocortex and hippocampus of rat following NMDA-receptor agonist, N-methyl-D-aspartate (NMDA), 0.25-2 nmol in 10 microliters, ICV and noncompetitive NMDA-receptor antagonists, MK 801 (0.025-0.1 mg/kg, ip) and ketamine (10-50 mg/kg, ip) at OH, 1/2H, 4H, 8H and 24H was recorded. The electrodes were implanted stereotaxically in hippocampus and neocortex respectively. NMDA (0.25 and 1 nmol) showed longer lasting decrease in amplitude in hippocampus and in frequency in cortical neurons while 2 nmol produced epileptogenic neurotoxicity. Opposite effect i.e. increase in amplitude in both, hippocampus and neocortex was observed with MK 801 and ketamine and these agents also showed longer lasting influence. Administration of MK 801 (0.05 mg/kg) and ketamine (50 mg/kg) prior to NMDA 2 nmol protected 40% animals from NMDA-induced neurotoxicity and blockade of NMDA-induced long term influence. The EEG effect of NMDA agonist and NMDA-induced neurotoxicity at higher dose and its modification by NMDA-antagonist, MK 801 and ketamine suggest that beside NMDA agonists (NMDA), its antagonists may, also affect long lasting changes in hippocampus and cortex. These antagonists reverse NMDA-mediated long term influence in these brain areas.     

GABA/BZ-and NMDA-receptor interaction in digoxin-induced convulsions in rats.

Digoxin (7.5 micrograms icv) induced 'pop-corn' type of convulsions and 100% mortality. The GABA-ergic agents produced varying degree of protection against digoxin-induced neurotoxicity. Diazepam (4 mg/kg) offered significant protection whereas pentobarbital (5 mg/kg) and baclofen (5 mg/kg) markedly reduced per cent mortality, but ethanol (2 g/kg), progabide (50 mg/kg) and muscimol (0.5 mg/kg) as well as GABA (50 mg/kg) could not offer significant protection in doses used. GABA-ergic agonists; GABA, baclofen, diazepam and pentobarbital when administered along with MK-801 (0.5 mg/kg) a non-competitive NMDA antagonist, a potentiation of anticonvulsant action of MK-801 was observed. MK-801 showed potent anticonvulsant profile in dose range (0.25-1 mg/kg) studied. A synergistic influence of Mg2+ and K+ ions on NMDA receptor antagonism was also observed. A role of GABA-ergic facilitation and NMDA antagonism as a potential anticonvulsant approach in digoxin-induced convulsions in rats has been suggested.     

N-methyl-D-aspartate receptor antagonists enhance histamine neuron activity in rodent brain

The modulation of histamine neuron activity by various non-competitive NMDA-receptor antagonists was evaluated by changes in tele-methylhistamine (t-MeHA) levels and histidine decarboxylase (hdc) mRNA expression induced in rodent brain. The NMDA open-channel blockers phencyclidine (PCP) and MK-801 enhanced t-MeHA levels in mouse brain by 50-60%. Ifenprodil, which interacts with polyamine sites of NR2B-containing NMDA receptors, had no effect. PCP also increased hdc mRNA expression in the rat tuberomammillary nucleus. The enhancement of t-MeHA levels elicited by MK-801 (ED50 of approximately 0.1 mg/kg) was observed in the hypothalamus, cerebral cortex, striatum and hippocampus. Control t-MeHA levels and the t-MeHA response to MK-801 were not different in male and female mice. Double immunostaining for HDC and NMDA receptor subunits showed that histamine neurons of the rat tuberomammillary nucleus express NMDA receptor subunit 1 (NR1) with NMDA receptor subunit 2A (NR2A) and NMDA receptor 2B subunit (NR2B). In addition, immunoreactivity for the neuronal glutamate transporter EAAC1 was observed near most histaminergic perikarya. Hence, these findings support the existence of histamine/glutamate functional interactions in the brain. The increase in histamine neuron activity induced by NMDA receptor antagonists further suggests a role of histamine neurons in psychotic disorders. In addition, the decrease in MK-801-induced hyperlocomotion observed in mice after administration of ciproxifan further strengthens the potential interest of H3-receptor antagonist/inverse agonists for the symptomatic treatment of schizophrenia.     

Central antidopaminergic properties of 2-bromolisuride, an analogue of the ergot dopamine agonist lisuride

2-Bromolisuride (2-Br-LIS), a derivative of the ergot dopamine (DA) agonist lisuride, was investigated in rodents in comparison with the DA antagonist haloperidol with regard to its influence on DA related behaviour, cerebral DA metabolism and prolactin (PRL) secretion. 2-Br-LIS produced catalepsy in mice (ED50 3.3 mg/kg i.p.), antagonized apomorphine-induced stereotypies in mice (ED50 0.4 mg/kg i.p.), antagonized DA agonist-induced stereotypies in rats (0.1-1.56 mg/kg i.p.), inhibited locomotor activity in rats (0.025-6.25 mg/kg i.p.), antagonized the hyperactivity produced by various DA agonists in rats (0.025-6.25 mg/kg i.p.) and inhibited the apomorphine-induced hypothermia in mice (0.05-0.78 mg/kg i.p.). 2-Br-LIS (0.03-10 mg/kg i.p.) stimulated DA biosynthesis and DOPAC formation in the striatum and DA rich limbic system of rats, but had no effect on serotonin turnover. In striatum and limbic forebrain of gamma-butyrolactone-pretreated rats 2-Br-LIS reversed the apomorphine-induced inhibition of DOPA accumulation. 2-Br-LIS (0.03 - 3 mg/kg) enhanced PRL secretion in intact male rats. These findings indicate DA antagonistic properties of 2-Br-LIS presumably due to blockade of central pre- and postsynaptic DA receptors being of approximately the same order of potency as haloperidol. 2-Br-LIS is the first ergot compound with definite antidopaminergic properties suggesting its potential usefulness as a neuroleptic.     

Amphetamine-Induced Glutamate Efflux in the Rat Ventral Tegmental Area Is Prevented by MK-801, SCH 23390, and Ibotenic Acid Lesions of the Prefrontal Cortex

We showed previously that amphetamine challenge produces a delayed increase in glutamate efflux in the ventral tegmental area of both naive and chronic amphetamine-treated rats. The present study examined the mechanisms underlying this response. The NMDA receptor antagonist MK-801 (0.1 mg/kg, i.p.) or the D1 dopamine receptor antagonist SCH 23390 (0.1 mg/kg, i.p.), given 30 min before acute amphetamine (5 mg/kg, i.p.), prevented amphetamine-induced glutamate efflux. Neither antagonist by itself altered glutamate efflux. Ibotenic acid lesions of the prefrontal cortex similarly prevented amphetamine-induced glutamate efflux, while producing a trend toward decreased basal glutamate levels (82.8% of sham group). Previous work has shown that the doses of NMDA and D1 receptor antagonists used in this study prevent the induction of behavioral sensitization when coadministered repeatedly with amphetamine, and that identical prefrontal cortex lesions performed before repeated amphetamine prevent the induction of ambulatory sensitization. Thus, treatments that prevent acute amphetamine from elevating glutamate efflux in the ventral tegmental area also prevent repeated amphetamine from eliciting behavioral sensitization. These findings suggest that repeated elevation of glutamate levels during a chronic amphetamine regimen may contribute to the cascade of neuroadaptations within the ventral tegmental area that enables the induction of sensitization.     

Pharmacological blockade of serotonin 5-HT₇ receptor reverses working memory deficits in rats by normalizing cortical glutamate neurotransmission

The role of 5-HT₇ receptor has been demonstrated in various animal models of mood disorders; however its function in cognition remains largely speculative. This study evaluates the effects of SB-269970, a selective 5-HT₇ antagonist, in a translational model of working memory deficit and investigates whether it modulates cortical glutamate and/or dopamine neurotransmission in rats. The effect of SB-269970 was evaluated in the delayed non-matching to position task alone or in combination with MK-801, a non-competitive NMDA receptor antagonist, and, in separate experiments, with scopolamine, a non-selective muscarinic antagonist. SB-269970 (10 mg/kg) significantly reversed the deficits induced by MK-801 (0.1 mg/kg) but augmented the deficit induced by scopolamine (0.06 mg/kg). The ability of SB-269970 to modulate MK-801-induced glutamate and dopamine extracellular levels was separately evaluated using biosensor technology and microdialysis in the prefrontal cortex of freely moving rats. SB-269970 normalized MK-801 -induced glutamate but not dopamine extracellular levels in the prefrontal cortex. Rat plasma and brain concentrations of MK-801 were not affected by co-administration of SB-269970, arguing for a pharmacodynamic rather than a pharmacokinetic mechanism. These results indicate that 5-HT₇ receptor antagonists might reverse cognitive deficits associated with NMDA receptor hypofunction by selectively normalizing glutamatergic neurotransmission.     

Anticataleptic potencies of glutamate-antagonists

Summary The anticataleptic effects of non-competitive and competitive NMDA antagonists as well as those of an agonist at the allosteric glycine binding site of the NMDA receptor were tested in the catalepsy model. Some of these drugs were further tested in a reaction time task demanding rapid locomotor initiation. The results show that the non-competitive NMDA antagonists dizocilpine and memantine as well as the competitive antagonists CGP 39551, CGP 37849 and CPPene antagonized dopamine D2 receptor mediated catalepsy induced by haloperidol. D-cycloserine, a partial glycine agonist per se had no effects, but it enhanced the anticataleptic effects of dizocilpine when coadministered. However, the effects of CGP 37849 were abolished. Dopamine D1 receptor mediated catalepsy induced by SCH 23390 was antagonized by dizocilpine, memantine, CPPene, but not by CGP 37849. In the reaction time task dizocilpine, memantine and CGP 37849 were tested for their anti-akinetic and anti-bradykinetic potencies. All these compounds improved haloperidolinduced slowing of reaction time. However, they acted differentially on haloperidol-induced slowing of movement execution and decreased initial acceleration. Thus, antagonists at the NMDA receptor may have a therapeutic potential in the treatment of Parkinson's disease. Their potency can be manipulated specifically at the glycine binding site.     

Possible mechanism of anticonvulsant effect of ketamine in mice

The study was designed to investigate the effect of ketamine on convulsive behaviour using maximal electroshock (MES) test. An attempt was also made to study the possible receptor mechanisms involved. MES seizures were induced in mice via transauricular electrodes (60 mA, 0.2sec). Seizure severity was assessed by the duration of tonic hindlimb extensor phase and mortality due to convulsions. Intraperitoneal administration of ketamine produced a dose-dependent (5-50 mg/kg) protection against hindlimb extensor phase. The anticonvulsant effect of ketamine was antagonized neither by naloxone (low as well as high doses) nor sulpiride, but was attenuated by haloperidol, a dopamine (D2)/sigma receptor antagonist. Co-administration of gamma-aminobutyric acid (GABA)-ergic drugs (GABA, muscimol, diazepam and baclofen) and N-methyl-D-aspartate (NMDA) receptor antagonist, dizocilpine (MK801) with ketamine facilitated the anticonvulsant action of the latter drug. In contrast, flumazenil, a benzodiazepine (BZD)-GABAA receptor antagonist, reversed the facilitatory effect of diazepam on the anti-MES effect of ketamine. Similarly, delta-aminovaleric acid (DAVA), antagonized the facilitatory effect of baclofen on anti-MES action of ketamine. These BZD-GABAergic antagonists, flumazenil or DAVA per se also attenuated the anti-MES effect of ketamine given alone. The results suggest that besides its known antagonistic effect on NMDA channel, other neurotransmitter systems i.e. sigma, GABAA-BZD-chloride channel complex and GABAB receptors may also be involved in the anti-MES action of ketamine.     

Acute ammonia toxicity is mediated by the NMDA type of glutamate receptors.

Previous experiments in our laboratory suggested that ammonium toxicity could be mediated by the NMDA type of glutamate receptors. To assess this hypothesis we tested if MK-801, a specific antagonist of the NMDA receptor, is able to prevent ammonium toxicity. Mice and rats were injected i.p. with 12 and 7 mmol/kg of ammonium acetate, respectively. 73% of the mice and 70% of the rats died. However, when the animals were injected i.p. with 2 mg/kg of MK-801, 15 min before ammonium injection, only 5% of the mice and 15% of the rats died. The remarkable protection afforded by MK-801 indicates that ammonia toxicity is mediated by the NMDA receptor.     

The involvement of NMDA and AMPA receptors in the mechanism of antidepressant-like action of zinc in the forced swim test

Antidepressant-like activity of zinc in the forced swim test (FST) was demonstrated previously. Enhancement of such activity by joint administration of zinc and antidepressants was also shown. However, mechanisms involved in this activity have not yet been established. The present study examined the involvement of the NMDA and AMPA receptors in zinc activity in the FST in mice and rats. Additionally, the influence of zinc on both glutamate and aspartate release in the rat brain was also determined. Zinc-induced antidepressant-like activity in the FST in both mice and rats was antagonized by N-methyl-d-aspartic acid (NMDA, 75 mg/kg, i.p.) administration. Moreover, low and ineffective doses of NMDA antagonists (CGP 37849, L-701,324, d-cycloserine, and MK-801) administered together with ineffective doses of zinc exhibit a significant reduction of immobility time in the FST. Additionally, we have demonstrated the reduction of immobility time by AMPA receptor potentiator, CX 614. The antidepressant-like activity of both CX 614 and zinc in the FST was abolished by NBQX (an antagonist of AMPA receptor, 10 mg/kg, i.p.), while the combined treatment of sub-effective doses of zinc and CX 614 significantly reduces the immobility time in the FST. The present study also demonstrated that zinc administration potentiated a veratridine-evoked glutamate and aspartate release in the rat’s prefrontal cortex and hippocampus. The present study further suggests the antidepressant properties of zinc and indicates the involvement of the NMDA and AMPA glutamatergic receptors in this activity.     

Involvement of γ-Aminobutyric Acid and N-Methyl-D-Aspartate Receptors in the Inhibitory Effect of Ethanol on Pentylenetetrazole-Induced c-fos Expression in Rat Brain

The expression of c-fos mRNA in rat brain was induced by intraperitoneal administration of pentylenetetrazole (PTZ) and picrotoxin, which act on the picrotoxin binding site of the gamma-aminobutyric acid-benzodiazepine (GABA-BZ) receptor complex, by N-methyl-D-aspartate (NMDA) and kainic acid, agonists of different classes of glutamate receptors and by caffeine, an antagonist of adenosine receptors. The actions of PTZ and picrotoxin but not that of NMDA were blocked by ethanol and the NMDA-receptor antagonist, MK-801. Ro 15-4513 partially reversed the inhibitory effect of ethanol on PTZ-induced c-fos mRNA synthesis. Acute ethanol administration blocked the actions of PTZ and NMDA without affecting the response to kainic acid or caffeine. Taken together, these data suggest that ethanol blocks c-fos gene activation by noncompetitive antagonists of the GABA-BZ receptor via actions on both the NMDA and GABA receptors.     

谷氨酸及NMDA受体拮抗剂MK-801对大鼠伏核痛兴奋神经元电活动的影响

本文研究了谷氨酸(glutamic acid,Glu)及其NMDA受体拮抗剂5-甲基二氢丙环庚烯亚胺马来酸(MK-801)对人鼠伏核(nucleus accumbens,NAc)痛兴奋神经元(pain-excitation neurons,PEN)痛诱发反应的影响。电刺激坐骨神经作为伤害性刺激,用玻璃微电极记录NAc的PEN放电,观察脑室内注射Glu和NAc内注射MK-801对大鼠NAc中PEN伤害性诱发活动的影响。结果显示,伤害性刺激可使NAc的PEN电活动增强;脑室内注射Glu(10nmol／10μl)可使NAc的PEN伤害性诱发放电频率增加;NAc内注射MK-801(1．0nmol／0．5μl)可阻断这种作用;MK-801本身也可部分抑制PEN伤害性诱发反应。上述结果表明,Glu对PEN伤害性反应的易化作用是通过NMDA受体介导的：Glu和NMDA受体参与NAc伤害性信息传递的调制。     

Involvement of NMDA receptor in low-frequency magnetic field-induced anxiety in mice

It had been reported that exposure to extremely low-frequency magnetic field (ELFMF) induces anxiety in human and rodents. Anxiety mediates via the activation of N-methyl-d-aspartate (NMDA) receptor, whereas activation of γ-aminobutyric acid (GABA) receptor attenuates the same. Hence, the present study was carried out to understand the contribution of NMDA and/or GABA receptors modulation in ELFMF-induced anxiety for which Swiss albino mice were exposed to ELFMF (50?Hz, 10?G) by subjecting them to Helmholtz coils. The exposure was for 8?h/day for 7, 30, 60, 90 and 120 days. Anxiety level was assessed in elevated plus maze, open field test and social interaction test, on 7th, 30th, 60th, 90th and 120th exposure day, respectively. Moreover, the role of GABA and glutamate in ELFMF-induced anxiety was assessed by treating mice with muscimol [0.25?mg/kg intraperitoneally (i.p.)], bicuculline (1.0?mg/kg i.p.), NMDA (15?mg/kg i.p.) and MK-801 (0.03?mg/kg i.p.), as a GABA_A and NMDA receptor agonist and antagonist, respectively. Glutamate receptor agonist exacerbated while inhibitor attenuated the ELFMF-induced anxiety. In addition, levels of GABA and glutamate were determined in regions of the brain viz, cortex, striatum, hippocampus and hypothalamus. Experiments demonstrated significant elevation of GABA and glutamate levels in the hippocampus and hypothalamus. However, GABA receptor modulators did not produce significant effect on ELFMF-induced anxiety and elevated levels of GABA at tested dose. Together, these findings suggest that ELFMF significantly induced anxiety behavior, and indicated the involvement of NMDA receptor in its effect.     

Inhibitory effect of ceruletide on haloperidol-induced catalepsy in rats

Ceruletide (CLT: 160 micrograms/kg, SC) produced a relatively long-lasting inhibition of haloperidol (HPD: 2 mg/kg, PO) catalepsy in rats. Neither bilateral vagotomies nor hypophysectomy abolished the anticataleptic effect of CLT. However, (-)-L-364,718 and proglumide blocked the effect of CLT. CLT (160 micrograms/kg) significantly inhibited HPD (2 mg/kg)-induced increase in dopamine (DA) release from the rat striatum. This effect of CLT was also antagonized by proglumide. These results suggest that CLT (160 micrograms/kg) primarily acts on cholecystokinin-A receptor in the brain, exerts some modulatory influence on HPD binding to striatal DA receptors via unknown neural pathways and, consequently, inhibits HPD catalepsy.     

Glutamatergic Dysbalance and Oxidative Stress in In Vivo and In Vitro Models of Psychosis Based on Chronic NMDA Receptor Antagonism

Background

The psychotomimetic effects of N-methyl-D-aspartate (NMDA) receptor antagonists in healthy humans and their tendency to aggravate psychotic symptoms in schizophrenic patients have promoted the notion of altered glutamatergic neurotransmission in the pathogenesis of schizophrenia.

Methods

The NMDA-receptor antagonist MK-801 was chronically administered to rats (0.02 mg/kg intraperitoneally for 14 days). In one subgroup the antipsychotic haloperidol (1 mg/kg) was employed as a rescue therapy. Glutamate distribution and 3-NT (3-nitrotyrosine) as a marker of oxidative stress were assessed by immunohistochemistry in tissue sections. In parallel, the effects of MK-801 and haloperidol were investigated in primary embryonal hippocampal cell cultures from rats.

Results

Chronic NMDA-R antagonism led to a marked increase of intracellular glutamate in the hippocampus (126.1 +/− 10.4% S.E.M of control; p = 0.037), while 3-NT staining intensity remained unaltered. No differences were observed in extrahippocampal brain regions. Essentially these findings could be reproduced in vitro.

Conclusion

The combined in vivo and in vitro strategy allowed us to assess the implications of disturbed glutamate metabolism for the occurrence of oxidative stress and to investigate the effects of antipsychotics. Our data suggest that oxidative stress plays a minor role in this model than previously suggested. The same applies to apoptosis. Moreover, the effect of haloperidol seems to be mediated through yet unidentified mechanisms, unrelated to D2-antagonism. These convergent lines of evidence indicate that further research should be focused on the glutamatergic system and that our animal model may provide a tool to explore the biology of schizophrenia.