Effects of calcium channel antagonists on the motivational effects of nicotine and morphine in conditioned place aversion paradigm

The motivational component of drug withdrawal may contribute to drug seeking and relapse through the negative reinforcement-related process; thus, it is important to understand the mechanisms that mediate affective withdrawal behaviors. The present study was undertaken to examine the calcium-dependent mechanism of negative motivational symptoms of nicotine and morphine withdrawal using the conditioned place aversion (CPA) paradigm. Rats were chronically treated with nicotine (1.168 mg/kg, free base, s.c., 11 days, three times daily) or morphine (10 mg/kg, s.c., 11 days, twice daily). Then, during conditioning, rats pre-treated with nicotine or morphine received a nicotinic receptor antagonist mecamylamine (3.5 mg/kg) or an opioid receptor antagonist naloxone (1 mg/kg) to precipitate withdrawal in their initially preferred compartment, or saline in their non-preferred compartment. Our results demonstrated that after three conditioning sessions, mecamylamine induced a clear place aversion in rats that had previously received nicotine injections, and naloxone induced a significant place aversion in rats that had previously received morphine injections. Further, the major findings showed that calcium channel antagonists, i.e., nimodipine, verapamil and flunarizine (5 and 10 mg/kg, i.p.), injected before the administration of mecamylamine or naloxone, attenuated nicotine or morphine place aversion.As an outcome, these findings support the hypothesis that similar calcium-dependent mechanisms are involved in aversive motivational component associated with nicotine a morphine withdrawal. We can suggest that calcium channel blockers have potential for alleviating nicotine and morphine addiction by selectively decreasing the incentive motivational properties of both drugs, and may be beneficial as smoking cessation or opioid dependence pharmacotherapies.     

Motivational effects mu- and kappa-opioid agonists following acute and chronic restraint stress: involvement of dopamine D(1) and D(2) receptors

The influence of both acute and chronic restraint stress on the rewarding properties of morphine (1, 2 or 3 mg/kg i.p.) and the aversive effects of naloxone (0.5 mg/kg i.p. x3 or 1.0 mg/kg i.p.) or bremazocine (0.4 mg/kg i.p.) was investigated. An acute (2 h) but not chronic restraint (2 h daily for 7 days) enhanced the morphine place preference, and elicited a place aversion with a subthreshold dose of bremazocine. This enhancing effect on the reinforcing properties induced by the drugs was prevented by either R(+)-SCH-23390 hydrochloride (R(+)-7-chloro-8-hydroxy-3-methyl-1-phenyl-2,3,4,5-tetrahydro-1H3-benzazepine, 30 microg/kg i.p.) or (+/-)-sulpiride (60 mg/kg i.p.), 10-20 min prior to the stress session. Naltrexone pretreatment (1 mg/kg i.p.) abolished the stress effect on morphine place preference but not that on bremazocine aversion. Instead, nor-BNI (30 microg/3 microl i.c.v.) abolished the stress's effects on bremazocine aversion, but did not modify those on morphine preference. These results show that: (1) acute stress enhanced the morphine and bremazocine conditioned reinforcing effects meanwhile chronic stress did not modify them; (2) the stimulation of D(1) and D(2) dopamine receptors is necessary for the development of restraint stress-induced sensitization to the conditioned reinforcing effects of drugs; and (3) the stimulation mu/delta- and kappa-opioid receptors seems to be differentially involved.     

A test of the opponent-process theory of motivation using lesions that selectively block morphine reward

The opponent-process theory of motivation postulates that motivational stimuli activate a rewarding process that is followed by an opposed aversive process in a homeostatic control mechanism. Thus, an acute injection of morphine in nondependent animals should evoke an acute rewarding response, followed by a later aversive response. Indeed, the tegmental pedunculopontine nucleus (TPP) mediates the rewarding effects of opiates in previously morphine-naive animals, but not other unconditioned effects of opiates, or learning ability. The aversive opponent process for acute morphine reward was revealed using a place-conditioning paradigm. The conditioned place aversion induced by 16-h spontaneous morphine withdrawal from an acute morphine injection in nondependent rats was abolished by TPP lesions performed prior to drug experience. However, TPP-lesioned rats did show conditioned aversions for an environment paired with the acute administration of the opioid antagonist naloxone, which blocks endogenous opioids. The results show that blocking the rewarding effects of morphine with TPP lesions also blocked the opponent aversive effects of acute morphine withdrawal in nondependent animals. Thus, this spontaneous withdrawal aversion (the opponent process) is induced by the acute rewarding effects of morphine and not by other unconditioned effects of morphine, the pharmacological effects of morphine or endogenous opioids being displaced from opiate receptors.     

Repeated pre-exposure to morphine into the ventral pallidum enhances morphine-induced place preference: involvement of dopaminergic and opioidergic mechanisms

In the present study, the effect of repeated administration of morphine into the ventral pallidum (intra-VP) on the conditioned place preference (CPP) induced by systemic morphine injection was investigated in male Wistar rats. Subcutaneous (s.c.) administration of morphine (2.5, 5 and 7.5mg/kg), during conditioning, induced conditioned place preference (CPP). The maximum response was obtained with 5mg/kg of morphine. Lower dose of morphine (0.5mg/kg) did not induce CPP, but in the animals which had previously, received 3 days intra-VP repeated injections of morphine (3 or 5microg/rat) followed by 5 days free of the drug, elicited a significant CPP. Moreover, 3 days intraperitoneal (i.p.) pretreatment with different doses of naloxone (0.5, 1 and 2mg/kg), SCH 23390 (0.012, 0.025 and 0.05mg/kg) or sulpiride (6.2, 12.5 and 25mg/kg) in combination with repeated injections of morphine (5microg/rat), blocked the opioid response on the acquisition of morphine (0.5mg/kg) CPP. On the other hand, our results showed that 3 days single repeated administration of different doses of naloxone (0.5, 1 or 2mg/kg, i.p.), SCH 23390 but not sulpiride followed by 5 days free of the drug, significantly decreased the acquisition of morphine (0.5mg/kg) CPP and also induced place aversion. Furthermore, the drugs' injections had no effect on locomotor activity on the testing phase of CPP. It is concluded that repeated intra-VP injections of morphine induces behavioral sensitization, which may be due to the opioidrgic and/or dopaminergic mechanism(s).     

Cocaine, but not morphine, induces conditioned place preference and sensitization to locomotor responses in CB1 knockout mice

The involvement of cannabinoid CB1 receptors in morphine and cocaine motivational effects was investigated using CB1 knockout mice. For this purpose, we evaluated the rewarding effects in the place conditioning paradigm and the sensitization to the locomotor responses induced by these drugs. The hyperlocomotion induced by acute morphine administration (15 mg/kg, s.c.) was preserved, but the sensitization to this locomotor response induced by chronic morphine treatment was abolished in CB1 mutant mice. Morphine (5 mg/kg, s.c.) induced conditioned place preference in wild-type mice but failed to produce any response in knockout mice, indicating the inability of morphine to induce rewarding effects in the absence of CB1 cannabinoid receptors. When the aversive effects of morphine withdrawal were investigated using the place aversion paradigm, no differences between genotypes were observed. Acute cocaine (10 mg/kg, i.p.) induced hyperlocomotor responses in wild-type and knockout mice and a chronic cocaine treatment produced a similar sensitization to this response in both genotypes. In the conditioning place preference paradigm, cocaine (20 mg/kg, i.p.) produced rewarding responses in both wild-type and knockout mice. These results demonstrate that CB1 receptors are essential for adaptive responses produced by chronic morphine but not by chronic cocaine treatment.     

Evidence for opiate-activated NMDA processes masking opiate analgesia in rats

The acute interaction between opioid receptors and N-methyl-D-aspartate (NMDA) receptors on nociception was examined in rats using tail-flick and paw-pressure vocalisation tests. When injected at various times (1 to 6 h) after morphine (5 to 20 mg/kg, i.v.) or fentanyl (4x40 microgram/kg, i.v.), the opioid receptor antagonist naloxone (1 mg/kg, s.c.) not only abolished the opiate-induced increase in nociceptive threshold, but also reduced it below the basal value (hyperalgesia). The noncompetitive NMDA receptor antagonist MK-801 (0.15 or 0.30 mg/kg, s.c.) prevented the naloxone-precipitated hyperalgesia and enhanced the antinociceptive effects of morphine (7.5 mg/kg, i.v.) and fentanyl (4x40 microgram/kg, i.v.). These results indicate that the antinociceptive effects of morphine and fentanyl, two opiate analgesics widely used in humans in the management of pain, are blunted by concomitant NMDA-dependent opposing effects which are only revealed when the predominant antinociceptive effect is sharply blocked by naloxone. This study provides new rationale for beneficial adjunction of NMDA receptor antagonists with opiates for relieving pain by preventing pain facilitatory processes triggered by opiate treatment per se.     

The mGluR5 antagonist MPEP reduces the conditioned rewarding effects of cocaine but not other drugs of abuse

We examined the ability of 2-methyl-6-(phenylethynyl)-pyridine (MPEP), a selective antagonist of the type 5 metabotropic glutamate receptor (mGluR5), to reduce the rewarding effects of various drugs of abuse in the conditioned place preference (CPP) paradigm. Mice were treated with MPEP (1, 5, and 20 mg/kg i.p.) 10 min prior to cocaine (15 mg/kg i.p.), D-amphetamine (2 mg/kg i.p.), nicotine (0.5 mg/kg i.p.), morphine (5 mg/kg i.p.), or ethanol (2 g/kg i.p.) on 3 successive days of CPP conditioning trials. MPEP pretreatment dose-dependently reduced the development of CPP for cocaine only. When tested alone at the doses effective in reducing CPP, MPEP produced neither a place preference nor aversion. These data provide further support for a role of the mGluR5 receptor in the rewarding effects of cocaine.     

Involvement of the serotonergic neuronal system in phencyclidine-induced place aversion in rats.

The possible involvement of the serotonergic neuronal system in aversive motivation produced by phencyclidine [1-(1-phenylcyclohexyl)piperidine; PCP] was investigated using a place-conditioning paradigm in rats. PCP (4 mg/kg, i.p.) produced place aversion in this task as reported previously (Kitaichi K, Noda Y, Hasegawa T, Furukawa H, Nabeshima T. Acute phencyclidine induces aversion, but repeated phencyclidine induces preference in the place conditioning test in rats. Eur J Pharmacol 1996;318:7-9). The blockade of serotonin2A (5-HT2A) receptors using the antagonist ritanserin (3 and 10 mg/kg, p.o.) significantly attenuated this aversive property of PCP whereas lesions of serotonergic neurons using 5,7-dihydroxytryptamine (5,7-DHT, 100 microg/animal, i.c.v.) failed to affect it. Repeated PCP treatment (10 mg/kg, i.p. for 14 days), which is enough to diminish the stereotyped 5-HT2A receptor-mediated head-twitch behavior, also decreased the place aversion. These results suggest that the serotonergic neuronal system, specifically the 5-HT2A receptor, may play a critical role in producing PCP-induced place aversion.     

Maintenance of conditioned place preferences and aversion in C57BL6 mice: effects of repeated and drug state testing

In order to determine the factors affecting the expression of place conditioning (i.e. conditioned place preference or aversion), groups of C57BL6 mice were conditioned to morphine, cocaine or naloxone (all drugs 4 mg/kg s.c.) and tested intermittently (up to 4 weeks) or repeatedly (daily). When tested once only in a drug-free state, the expression of place conditioning to all drugs generally strengthened with the passing of time and was only marginally different when tested once more later. The expression of place conditioning was remarkably resistant to extinction during repeated daily testing, though decreases were observed over 2 weeks of testing. Subsequently, a small and non-significant degree of spontaneous recovery of the expression of place conditioning was observed when animals were undisturbed for an extended period of time. Administering animals the same drug to which they were conditioned 20 min prior to testing (i.e. drug state testing), either prior to or following repeated testing, enhanced expression of morphine-induced conditioned place preference, whereas expression of cocaine-induced conditioned place preference was unaffected. When vehicle was administered prior to testing, there was no evidence of naloxone-induced conditioned place aversion, whereas naloxone administration maintained conditioned place aversion. These results show that the expression of place conditioning in C57BL6 mice does not readily diminish over time, but on the contrary, tends to strengthen if tested only once or intermittently. Thus, the hedonic properties of drugs may be more clearly revealed during long-term, rather than short-tem testing, and in some instances, when tested in the drugged state.     

Endogenous enkephalins, not endorphins, modulate basal hedonic state in mice

The aversive response to naloxone administration observed in human and animal studies suggests the presence of an endogenous opioid tone regulating hedonic state but the class(es) of opioid peptides mediating such opioid hedonic tone is uncertain. We sought to address this question using mice deficient in either beta-endorphin or pro-enkephalin in a naloxone-conditioned place aversion paradigm. Mice received saline in the morning in one chamber and either saline or naloxone (0.1, 1 or 10 mg/kg, s.c.) in the afternoon in another chamber, each day for 3 days. On the test day they were given free access to the testing chambers in the afternoon and the time spent in each chamber was recorded. Whereas wild-type and beta-endorphin-deficient mice exhibited a robust conditioned place aversion to naloxone, pro-enkephalin knockout mice failed to show aversion to naloxone at any dose tested. In contrast, these mice showed a normal conditioned aversion to the kappa opioid receptor agonist, U50,488 (5 mg/kg), and to LiCl (100 mg/kg) indicating that these mice are capable of associative learning. In a separate experiment, pro-enkephalin knockout mice, similar to wild-type and beta-endorphin-deficient mice, demonstrated a significant conditioned place preference to morphine (2.5, 5 and 10 mg/kg s.c.). These data suggest that enkephalins, but not endorphins, may mediate an endogenous opioid component of basal affective state and also indicate that release of neither endogenous enkephalins nor endorphins is critical for the acquisition or expression of the association between contextual cues and the rewarding effect of exogenously administered opiates.     

A cannabinoid receptor antagonist attenuates conditioned place preference but not behavioural sensitization to morphine

The present study compared the effects of the cannabinoid receptor antagonist SR 141716 on morphine-induced locomotor sensitization (Experiment 1) and conditioned place preference (CPP, Experiment 2) in male albino Wistar rats. In Experiment 1, rats received seven consecutive daily treatments with morphine (10 mg/kg, SC) in combination with either SR 141716 (0, 0.1, 0.5 or 3.0 mg/kg, IP), or naloxone (10 mg/kg, IP). Three days later, all rats were challenged with a lower dose of morphine (5 mg/kg, SC). Rats pre-treated with morphine showed significantly elevated locomotor activity during the challenge session compared to vehicle-pre-treated animals indicating behavioural sensitization. Prior naloxone, but not SR 141716, co-administration with morphine, significantly attenuated the locomotor sensitization observed. In Experiment 2A, SR 141716 (0.1 mg/kg, IP), co-administered during conditioning, significantly attenuated the place preference produced by morphine (4 mg/kg, SC) in a standard unbiased two compartment place conditioning task. In Experiment 2B, the timing of drug administration and drug doses used were altered to be similar to Experiment 1, such that a comparison between the sensitization and CPP paradigms could be made. Thus, rats were conditioned with morphine (10 mg/kg, SC) combined with SR 141716 (0, 0.1, 0.5 or 3.0 mg/kg, IP) and tested for place preference under the influence of morphine (5 mg/kg, SC). SR 141716 attenuated morphine place preference at a dose (3.0 mg/kg) that did not itself affect place conditioning. Morphine also induced locomotor sensitization in the drug-paired compartment in Experiment 2B which was not blocked by any dose of SR 141716. We conclude that CB1 receptor antagonism modulates the rewarding value of opioids, but not the behavioural sensitization induced by chronic opioid administration.     

Distinct changes in the behavioural effects of morphine and naloxone in CCK2 receptor-deficient mice

The effects of morphine, mu-opioid receptor agonist, and naloxone, a non-selective opioid receptor antagonist, in the locomotor activity and place conditioning tests were studied in the CCK(2) receptor-deficient male mice. The exposure of mice to the motility boxes for 3 consecutive days induced a significant inhibition of locomotor activity in the wild-type (+/+) mice compared to homozygous (-/-) animals. The administration of naloxone (10 mg/kg i.p.) to animals, adapted to the motility boxes, induced a significant reduction of locomotor activity in the homozygous (-/-), but not in the wild-type (+/+) mice. Treatment of habituated mice with morphine (10 mg/kg i.p.) caused a stronger increase of locomotor activity in the wild-type (+/+) mice compared to the homozygous (-/-) littermates. In the place preference test the pairing of the preferred side with naloxone (1 and 10 mg/kg i.p.) induced a dose-dependent place aversion in the wild-type (+/+) mice. The treatment with naloxone was less effective in the homozygous (-/-) mice, because the high dose of naloxone (10 mg/kg) tended to shift the preference. The pairing of morphine (3 mg/kg i.p.) injections with the non-preferred side induced a significant place preference both in the wild-type (+/+) and homozygous (-/-) mice. The increased density of opioid receptors was established in the striatum of homozygous (-/-) mice, but not in the other forebrain structures. In conclusion, the targeted invalidation of CCK(2) receptors induces a dissociation of behavioural effects of morphine and naloxone. Morphine-induced place preference remained unchanged, whereas hyper-locomotion was less pronounced in the mutant mice compared to the wild-type (+/+) littermates. By contrast, naloxone-induced place aversion was weaker, but naloxone caused a stronger inhibition of locomotor activity in the homozygous (-/-) mice than in the wild-type (+/+) animals. These behavioural alterations can be explained in the light of data that the targeted mutation of CCK(2) receptors induces distinct changes in the properties of opioid receptors in various brain structures.     

Protein Kinases in the Rat Nucleus Accumbens are Involved in the Aversive Component of Opiate Withdrawal

The specific participation of protein kinases in the expression of the somatic signs of morphine withdrawal has been previously demonstrated, suggesting that changes in intracellular signalling systems are involved in opioid addiction. In the present study, the involvement of protein kinases in the aversive/dysphoric effects of morphine abstinence has been investigated in the nucleus accumbens, because of the critical role played by the mesolimbic system in the rewarding effects of opioids. Rats were chronically treated with morphine, twice a day for 5 days, with doses progressively increased from 5 to 30 mg/kg (i-p.). In addition, microinjections into the nucleus accumbens of the serine-threonine kinase inhibitors H7 or H8 (1 or 10 nmol per side) or saline once daily were also given, both in control and in morphine-treated animals. After these chronic treatments, withdrawal syndrome was induced by naloxone administration (0.1 mg/kg, s. c.), and the motivational component of morphine abstinence was studied using the place aversion paradigm. When administered at the highest dose (10 nmol), H7 and H8 strongly reduced the place aversion induced by naloxone in morphine dependent animals. Protein kinase inhibitors did not induce significant behavioural responses in non-dependent animals. Chronic morphine treatment induced a selective up-regulation of adenylate cyclase activity in the amygdala, without affecting other brain regions. The morphine-increased adenylate cyclase activity in amygdala was reversed by the chronic intra-accumbens microinjection of H7 or H8. These results suggest that serine-threonine kinases in the nucleus accumbens play an important role in the emotional/dysphoric properties which characterize opiate withdrawal.     

The Type IV phosphodiesterase inhibitor rolipram interferes with drug-induced conditioned place preference but not immediate early gene induction in mice

Behavioural effects of psychostimulant and opiate drugs are mediated in part by cAMP pathways operating in the nucleus accumbens. Degradation of cAMP occurs through the action of phosphodiesterases, such as the Type IV phosphodiesterases (PDE4s) that are found throughout the brain. To examine the potential role of PDE4 in reward-mediated behaviour, we measured the effects of rolipram, a PDE4 selective inhibitor, on cocaine (18 mg/kg i.p.) and morphine (5 mg/kg s.c.) conditioned place preference in Swiss Webster mice. Rolipram (0, 0.2 or 1.0 mg/kg i.p.) given 30 min prior to drug administration dose-dependently reduced conditioning due to both cocaine and morphine. However, rolipram did not affect place preference induced by food, nor did it prevent the expression of a previously established place preference conditioned by cocaine or morphine. In a second experiment, rolipram administered 30 min prior to a single cocaine injection (50 mg/kg i.p.), did not alter cocaine-induced c-Fos expression in the caudate putamen or nucleus accumbens core. However, rolipram, but not cocaine, induced c-Fos in the nucleus accumbens shell. These results indicate that elevation of cAMP in neurons that express PDE4s may attenuate the rewarding properties of cocaine and morphine, but does not alter the cocaine signalling cascade that induces c-Fos expression. Thus, PDE4-mediated regulation of cAMP levels could underlie the establishment of reward valence to abused drugs.     

Changes in micturition volume thresholds in conscious dogs following spinal opiate administration

Micturition difficulties appear as an often-reported side effect of the clinical use of opiates for spinal analgesia. Only a few experimental studies have focused specifically on this problem, especially in an unanesthetized animal model where chronic pharmacological studies can be carried out. The changes in micturition volume thresholds that occurred following spinal intrathecal injections of 1 mg of morphine sulphate were measured in 11 conscious dogs and compared with threshold changes produced in these same dogs by i.v. injections of various doses of morphine sulphate and by intrathecal and i.v. injections of naloxone HCl. In all cases, intrathecal or systemic morphine at doses of 1.0 mg or greater significantly (P less than 0.05) increased the bladder volume at which micturition took place. Naloxone, injected intrathecally to reverse the effects of intrathecal morphine, significantly reduced the micturition volume threshold, in most cases to below control volumes. A 400 microgram dose of naloxone, injected intrathecally without prior injection of morphine, significantly lowered the volume threshold in 9 dogs, even though two of these dogs had elevated thresholds following naloxone injection. The reduction in volume thresholds by i.v. naloxone not preceded by morphine injection was not statistically significant over that of control. These results are interpreted in light of recent findings concerning localization of endogenous opiate receptors within the micturition reflex pathway.     

Motivational state determines the functional role of the mesolimbic dopamine system in the mediation of opiate reward processes.

We have previously reported that mesolimbic dopamine (DA) substrates are critically involved in the rewarding effects of opiates only during states of opiate-dependence and withdrawal. However, in previously drug-naive animals, opiate reward is mediated through a DA-independent neural system. In the present study, we report that bilateral microinjections of a DA receptor antagonist, alpha-flupenthixol (0.3-3 microg/0.5 microl) into the nucleus accumbens (NAc), blocks morphine reward (10 mg/kg, i.p.) in opiate-withdrawn animals, but not in opiate-naive animals, suggesting that accumbal dopamine receptors are required for opiate reward signaling in drug-deprived motivational states. Next, the role of dopamine was examined in the development of opiate dependence and somatic withdrawal, and expression of withdrawal aversions. Pretreatment with alpha-flupenthixol (0.8 mg/kg, i.p.) before morphine injections during the development of opiate dependence did not effect expression of withdrawal aversions or the expression of somatic withdrawal. We have previously reported that pretreatment with a dopamine receptor antagonist, alpha-flupenthixol, blocks the aversive effects of opiate withdrawal. We now report that pretreatment with a direct dopamine receptor agonist, apomorphine (1.0-5.0 mg/kg, i.p.) before conditioning in a state of withdrawal, also blocks the aversive effects of opiate withdrawal. We propose that the aversive motivational effects of opiate withdrawal may be mediated by a specific dopaminergic neuronal signal.     

The use of place conditioning in studying the neuropharmacology of drug reinforcement

The place conditioning paradigm has proven successful in identifying the neural mechanisms of drug reinforcement. Two classes of drugs, opiates and psychomotor stimulants, have received the most study, and in each case an important role for DA neurons of the mesolimbic system has been established. Moreover, both receptor subtypes, D1 and D2, appear to be involved. Despite this progress, the substrates of drug reward are not completely understood. First, a role for DA has not been established for all stimulants: DA receptor blockade failed to affect conditioned place preferences produced by the stimulants methylphenidate, nomifensine, or bupropion. Second, preliminary evidence suggests that intact serotonergic transmission is important in morphine place conditioning, but a similar consistent finding has not been observed with amphetamine place conditioning. Further study may reveal an interesting dissociation of serotonin's role in the rewarding effects of psychomotor stimulants and opiates. Finally, the role of the opiate receptor subtype kappa is not known; also, the significance of the several anatomical sites that support opiate place conditioning remains unclear.     

Influence of morphine and cyclazocine on the cortical epileptic foci in rabbits

The effects of morphine, cyclazocine and naloxone on penicillin- and strychnine-induced epileptic foci were studied in rabbits. The intracortical injection of penicillin (75, 150 and 300 units) elicited isolated spikes followed by repeated ictal events. The application of strychnine (0.062 and 0.125%) over the cortical surface of one side induced appearance of ipsilateral spiking spreading to the contralateral cortex.

Administration of morphine (0.25–0.75 mg/kg i.v.) or cyclazocine (0.05–3.0 mg/kg i.v.) inhibited the occurrence or the duration of the EEG and motor manifestations induced by penicillin (75 and 150 units) and strychnine (0.062 and 0.125%), while it did not influence the effect of 300 units of penicillin. High doses of morphine (up to 10 mg/kg i.v.) failed to affect the epileptic responses to penicillin and strychnine and at the same time significantly reduced the pO₂ in arterial blood.

Naloxone per se potentiated the effects of the lower doses of penicillin and strychnine. Only at very high doses (20 mg/kg i.v.) displayed a weak antagonism towards the anticonvulsant effect of the two opiates. A full antagonism is only observed towards the effect of cyclazocine (2 mg/kg i.v.) administered after penicillin.

Present data provide additional evidence of the heterogeneity of regulations by opioids of convulsive phenomena. One can hypothesize that the anticonvulsant effect of the two opiate agonists is mediated by naloxone-insensitive opiate receptors, while the proconvulsant-convulsant effect of naloxone might be related to an inhibition of GABA and glycine-mediated transmission.     

Effects of NMDA receptor antagonists (MK-801 and memantine) on the acquisition of morphine-induced conditioned place preference in mice

Several studies have shown that the systemic administration of a variety of N-methyl-D-aspartate (NMDA) receptor antagonists can block the development or expression of conditioned place preference (CPP) induced by rewarding drugs such as morphine. In the present study, we examined the effects of different doses of two non-competitive NMDA receptor antagonists, MK-801 (0.1, 0.2 and 0.3 mg/kg) and memantine (2.5, 5, 10, 20 and 40 mg/kg), in CPP induced by 40 mg/kg of morphine in male mice. The CPP was carried out with an unbiased procedure in terms of initial spontaneous preference. Animals received the different doses of drugs in the conditioning sessions. MK-801 and memantine, at all doses used, produced neither place preference nor place aversion, but the higher doses of memantine (20 and 40 mg/kg) were able to completely block morphine-induced CPP. The present data show that the NMDA receptor antagonists MK-801 and memantine have no reinforcing properties but memantine is capable of preventing the acquisition of morphine-induced CPP. These results suggest that the development of morphine-induced CPP may be closely related to NMDA receptors and that the glutamatergic system can modulate opiate reward.     

Opiate receptors and sleep. II. Effects of micro-injection of ethyl alcohol and pentobarbital in the median thalamus, periaqueductal gray matter and nucleus of the tractus solitarius of the rabbit (author's transl)

There is an analogy between sleep EEGs produced by microinjections of morphine in the bulbo-mesencephalo-thalamic recruiting system and EEGs seen during anesthetic-induced sleep. Many studies in the last 10 years have claimed cross-tolerance and cross-dependence between opiates and ethyl alcohol. Opiates, ethyl alcohol and pentobarbital have many common metabolic actions in the central nervous system. Like morphine, microinjections of optimal equimolar doses of ethyl alcohol and pentobarbital in the bulbo-mesencephalo-thalamic sleep-inducing system of the rabbit produce sleep EEGs with abundant fast activity, which is blocked by naloxone (2 mg/kg i.v.) or by microinjections (160 micrograms) into the same structures. However, there is neither binding nor displacement by naloxone of ethyl alcohol or pentobarbital from the opiate receptor. It is thus probable that, via an as yet unknown mechanism, ethyl alcohol and pentobarbital promote the release of endorphins or peptides, which are specific ligands of all or some opiate receptors.