Long term exposure to the chemokine CCL2 activates the nigrostriatal dopamine system: a novel mechanism for the control of dopamine release.

Accumulating evidence show that chemokines can modulate the activity of neurons through various mechanisms. Recently, we demonstrated that CCR2, the main receptor for the chemokine CCL2, is constitutively expressed in dopamine neurons in the rat substantia nigra. Here we show that unilateral intranigral injections of CCL2 (50 ng) in freely moving rats increase extracellular concentrations of dopamine and its metabolites and decrease dopamine content in the ipsilateral dorsal striatum. Furthermore, these CCL2 injections are responsible for an increase in locomotor activity resulting in contralateral circling behavior. Using patch-clamp recordings of dopaminergic neurons in slices of the rat substantia nigra, we observed that a prolonged exposure (>8 min) to 10 nM CCL2 significantly increases the membrane resistance of dopaminergic neurons by closure of background channels mainly selective to potassium ions. This leads to an enhancement of dopaminergic neuron discharge in pacemaker or burst mode necessary for dopamine release. We provide here the first evidence that application of CCL2 on dopaminergic neurons increases their excitability, dopamine release and related locomotor activity.

The chemokine stromal cell-derived factor-1/CXCL12 activates the nigrostriatal dopamine system.

We recently demonstrated that dopaminergic (DA) neurons of the rat substantia nigra constitutively expressed CXCR4, receptor for the chemokine stromal cell-derived factor-1 (SDF-1)/CXCL12 (SDF-1). To check the physiological relevance of such anatomical observation, in vitro and in vivo approaches were used. Patch clamp recording of DA neurons in rat substantia nigra slices revealed that SDF-1 (10 nmol/L) induced: (i) a depolarization and increased action potential frequency; and (ii) switched the firing pattern of depolarized DA neurons from a tonic to a burst firing mode. This suggests that SDF-1 could increase DA release from neurons. Consistent with this hypothesis, unilateral intranigral injection of SDF-1 (50 ng) in freely moving rat decreased DA content and increased extracellular concentrations of DA and metabolites in the ipsilateral dorsal striatum, as shown using microdialysis. Furthermore, intranigral SDF-1 injection induced a contralateral circling behavior. These effects of SDF-1 were mediated via CXCR4 as they were abrogated by administration of a selective CXCR4 antagonist. Altogether, these data demonstrate that SDF-1, via CXCR4, activates nigrostriatal DA transmission. They show that the central functions of chemokines are not restricted, as originally thought, to neuroinflammation, but extend to neuromodulatory actions on well-defined neuronal circuits in non-pathological conditions.

Involvement of brain endogenous cholecystokinin in stress-induced impairment of spatial recognition memory.

The central fragment of cholecystokinin, CCK8, plays a critical role in stress-related changes in behavior and memory. Therefore, we investigated whether the endogenous cholecystokininergic system is involved in the impairment of attention and/or memory induced by stressful conditions. Plasma corticosterone concentrations increased three-fold and plasma adrenocorticotropin (ACTH); concentrations increased five-fold when rats were maintained in the open arm of an elevated plus maze for 5 min. The same stress conditions impaired spatial recognition in the two-trial memory task. In addition, this stress led to a significant decrease in the extracellular levels of cholecystokinin-like immunoreactivity in the dorsal subiculum/CA1 of the hippocampus and partially suppressed the increase obtained during the acquisition phase of memory. This suggests that the cholecystokininergic system in the hippocampus is involved in stress-induced impairment of spatial recognition memory.

Behavioral profile of CCK2 receptor-deficient mice.

CCK2 receptor-deficient mice were used to investigate in vivo the role of this receptor in behavior. Mutant mice showed a neuromuscular impairment in the traction and rotarod tests but not in the chimney test. Brain cholecystokinin has been shown to participate in stress-related behaviors. However, CCK2 receptor-deficient mice did not show behavioral modifications compared to wild-type mice in the elevated plus maze and in the motility conditioned suppression test, indicating that compensatory mechanisms very likely occur following CCK2 receptor invalidation. On the other hand, a hyperlocomotor activity was observed in actimeter which can be related to an impairment in environmental habituation. Finally, CCK2 receptor-deficient mice showed an impairment of performance in the spontaneous alternation behavior as expected from the opposite effects evoked by CCK2 agonists, supporting the physiological role of CCK2 receptors in attention and/or memory processes. This result is reinforced by the defects observed in these functions after the administration of CCK2 antagonists.

Mutant mice lacking the cholecystokinin2 receptor show a dopamine-dependent hyperactivity and a behavioral sensitization to morphine.

Cholecystokinin2 (CCK2) receptor-deficient mice were used to analyze the in vivo function of CCK2 receptor and especially the incidence of this gene invalidation on enkephalinergic and dopaminergic systems. Hyperlocomotor activity of CCK2 receptor-deficient mice was suppressed by a selective D2 antagonist but not by a D1 antagonist. Injection of amphetamine induced a hyperlocomotor activity in both groups of mice while mutant mice were less sensitive to cocaine. Administration of 6 mg/kg of morphine once every 2 days for 5 days significantly (P<0.05) enhanced motor activity the last day compared to the first day, only in CCK2 receptor-deficient mice. These results emphasize the role of CCK2 receptors in counteracting the effects of dopaminergic systems and suggest that CCK2 receptor invalidation could lead to a slight behavioral sensitization.

Delta9-tetrahydrocannabinol releases and facilitates the effects of endogenous enkephalins: reduction in morphine withdrawal syndrome without change in rewarding effect.

Recent studies have suggested that cannabinoids might initiate the consumption of other highly addictive substances, such as opiates. In this work, we show that acute administration of Delta9-tetrahydrocannabinol in mice facilitates the antinociceptive and antidepressant-like responses elicited by the endogenous enkephalins protected from their degradation by RB 101, a complete inhibitor of enkephalin catabolism. This emphasizes the existence of a physiological interaction between endogenous opioid and cannabinoid systems. Accordingly, Delta9-tetrahydrocannabinol increased the release of Met-enkephalin-like material in the nucleus accumbens of awake and freely moving rats measured by microdialysis. In addition, this cannabinoid agonist displaced the in vivo [3H]diprenorphine binding to opioid receptors in total mouse brain. The repetitive pretreatment during 3 weeks of Delta9-tetrahydrocannabinol in mice treated chronically with morphine significantly reduces the naloxone-induced withdrawal syndrome. However, this repetitive administration of Delta9-tetrahydrocannabinol did not modify or even decrease the rewarding responses produced by morphine in the place preference paradigm. Taken together, these behavioural and biochemical results demonstrate the existence of a direct link between endogenous opioid and cannabinoid systems. However, chronic use of high doses of cannabinoids does not seem to potentiate the psychic dependence to opioids.

Leptin decreases feeding and exploratory behaviour via interactions with CCK(1) receptors in the rat.

We assessed the effects of peripheral leptin on anxiety and exploratory behaviour in the elevated plus-maze and in the four-hole box or Y-maze tests, in rats fed 80% of normal daily food intake and rats fed ad libitum. In the Y-maze test, i.p. injection of 0.4 or 1 mg/kg leptin into rationed rats significantly decreased the percentage of spontaneous alternation behaviour and increased the number of visits. In the elevated plus-maze test, rationed rats spent significantly more time in the open arms (aversive part of the maze) than did rats fed ad libitum. This difference in behaviour was abolished by injecting 0.4 mg/kg leptin. In the four-hole box test, i.p. administration of 1 mg/kg leptin significantly reduced the duration and number of hole visits in rationed and ad libitum fed rats. As with leptin inhibition of food intake, these behavioural changes caused by leptin were prevented by a CCK(1) receptor antagonist (L364,718), at a dose that had no effect by itself. Finally, a 20-min stress that increased corticosterone and ACTH levels had no effect on circulating leptin levels and on the leptin content of epididymal fat tissue, stomach and brain. Thus, leptin induces hypoexploration and decreases spontaneous alternation in rats and these effects are partly dependent on nutritional status. These results also suggest that the CCK system may be involved in the induction of these behavioural changes in rats by leptin, via the CCK(1) receptor.

Involvement of D2 dopamine receptors in the opposing effects of two CCK-B agonists in a spatial recognition memory task: role of the anterior nucleus accumbens.

RATIONALE: A previous study in the rat has shown that systemic injection of two CCK-B agonists, BC264 and BC197, induced opposing effects on the retrieval phase of a spatial recognition memory task. OBJECTIVE: The present study was designed to investigate the mechanisms underlying these effects at the level of the dopaminergic system. METHODS: Rats were injected IPly with BC264 (0.3 microg/kg) or BC197 (30 microg/kg) and with D1 or D2 agonists and antagonists. The cognitive performances of rat were analysed on the retrieval phase of a spatial recognition memory task. The extracellular levels of dopamine were quantified in the anterior nucleus accumbens after injection of BC197 (3, 30 and 300 microg/kg IP), using the microdialysis technique on freely moving rats. Local injection of the D2 antagonist, sulpiride (2.5 ng/microl) was performed in the anterior nucleus accumbens and the cognitive performances analysed following systemic injection of BC264 (0.3 microg/kg). RESULTS: The improvement and the impairment of performance induced respectively by BC264 and BC197 were suppressed by peripheral administration of sulpiride, showing that these opposing effects were both mediated by the stimulation of D2-like receptors. However, different dopaminergic pathways seem to be involved in the effects of the two CCK-B agonists. Indeed, systemic administration of BC197 did not induce the increase of extracellular dopamine levels observed with BC264. Furthermore, local injection of sulpiride, in the anterior nucleus accumbens, completely suppressed the cognitive enhancing effect of BC264. CONCLUSION: These findings suggest that the D2-mediated deficit in the performance induced by BC197 involves brain structures other than the anterior nucleus accumbens. They also demonstrate a critical role of dopaminergic transmission within the anterior nucleus accumbens in the improving effect induced by BC264 in a spatial memory task.

Rat hippocampal neurons are critically involved in physiological improvement of memory processes induced by cholecystokinin-B receptor stimulation.

The involvement in memory processes of the neuropeptide cholecystokinin (CCK) through its interaction with the CCK-B receptors was studied. The two-trial recognition memory task was used. Control animals showed recognition memory after a 2 hr time interval but not after a 6 hr time interval between the two trials. The improving effect of a selective CCK-B agonist, BC 264, intraperitoneally administered (0.3 microgram/kg) in the retrieval phase of the task (6 hr time interval), was also observed after its injection (1 pmol/0.5 microliter) in the dorsal subiculum/CA1 of the hippocampus but not in the caudate/putamen nucleus or in the prefrontal cortex of rats. The CCK-B antagonist L-365,260 injected (10 ng/0.5 microliter) into this region of the hippocampus abolished the improving effect of BC 264 injected intraperitoneally. Furthermore, L-365,260 injected in the hippocampus suppressed the recognition of the novel arm normally found in the controls (2 hr time interval) when it was injected before the acquisition or the retrieval phase of the task. In addition, an increase of the extracellular levels of CCK-like immunoreactivity in the hippocampus of rats during the acquisition and retention phase of the task was observed. Finally, CCK-B receptor-deficient mice have an impairment of performance in the memory task (2 hr time interval). Together, these results support the physiological involvement of the CCKergic system through its interaction with CCK-B receptors in the hippocampus to improve performance of rodents in the spatial recognition memory test.

Peripheral stimulation of CCK-B receptors by BC264 induces a hyperexploration, dependent on the delta opioid system in the nucleus accumbens of rat.

This study analyses the influence of the CCKergic system on the enkephalinergic system in the exploratory behavior of rats, using both behavioral and biochemical approaches. The results show that the increase of the spontaneous alternation behavior induced by the selective CCKB agonist, BC264 (3 microg/kg) was not suppressed by the opioid antagonists, naloxone (100 microg/kg), or naltrindole (300 microg/kg). In contrast, BC264 injected at the same dose induced a hyperlocomotor activity measured in the open-field test, which was antagonized by the selective delta opioid antagonist, naltrindole. BC264 (3 microg/kg) significantly increased the extracellular levels of Met-LI in the anterior part of the nucleus accumbens. Furthermore, local injection of naltrindole (0.25 microg/0.5 microl) in the anterior nucleus accumbens completely suppressed the hyperlocomotion induced by BC264. The behavioral effects induced by BC264 cannot be explained by its interaction with gastrinic receptors mediating gastric acid release, since BC264 produced a long-lasting increase of gastric acid output from conscious gastric fistula rats only at doses 100 times higher than those inducing behavioral modifications. The hyperlocomotion obtained after stimulation by BC264 of probably peripheral CCKB receptors, indicates that this receptor type could participate in the transmission of information between the peripheral system and some regions of the CNS involved in motivations and emotions.

Cognitive enhancing effects in young and old rats of pBC264, a selective CCK(B) receptor agonist.

RATIONALE: The implication of CCK(B) receptors in cognitive processes is far from fully understood. OBJECTIVE: The present study investigated the effect of propionyl-BC264, a selective agonist of CCK(B) receptors, in young and old rats. METHODS: Cognitive functions were studied in a two-trial recognition memory task developed in our laboratory. RESULTS: It was shown that propionyl-BC264 enhanced information processing in young as well as in old rats when injected (10 microg/kg; IP) immediately after the acquisition phase and before the retrieval trial but not before the acquisition trial. This cognitive enhancing effect was blocked by prior administration of L 365,260, a selective CCK(B) receptor antagonist. CONCLUSIONS: In view of the fact that BC264 is devoid of anxiogenic effects, it could be of value in the treatment of cognitive impairments associated with both normal and pathological ageing.

Opposing effects of two CCK(B) agonists on the retrieval phase of a two-trial memory task after systemic injection in the rat.

The effects of two selective CCK(B) agonists, BC 264 and BC 197, on memory processes were investigated in rats using a recently developed two-trial recognition memory task. Control animals showed recognition memory after a 2 but not a 6 h time interval between the two trials, thus allowing a memory impairing (2 h) or improving (6 h) effect of pharmacological treatments to be measured. Drugs were injected i.p. before the second trial (retrieval phase). This experimental procedure was first studied with scopolamine and DL-amphetamine, for which a significant deficit after a 2 h interval or improvement after a 6 h interval of performance was observed, respectively. The CCK(B) agonist, BC 264, was ineffective after a 2 h time interval, whereas the dose of 0.3 microg/kg significantly enhanced performance after a 6 h inter-trial interval. In contrast, BC 197 (30 microg/kg) produced a significant disruption of performance after a 2 h inter-trial interval but was without effect after a 6 h time interval. The effects of the two CCK(B) agonists were abolished by pretreatment with a selective CCK(B) antagonist, L365,260 but not by a selective CCK(A) antagonist, L364,718. The present results suggest that CCK(B) receptors display functional heterogeneity and that CCK(B) agonists like BC 264 could offer a new perspective for the treatment of attentional and/or memory deficits.

Acute intrahippocampal injection of human interleukin-1beta stimulates the anterior pituitary POMC transcription and increases plasma levels of ACTH and corticosterone in the male rat.

It has been well documented that interleukin-1beta (IL-1beta) is a major mediator for recruiting the hypothalamo-pituitary-adrenal (HPA) axis following infectious disease. The recent localization of IL-1beta receptors in neurons of the hippocampus provides further support for the role of IL-1beta as a neurotransmitter/neuromodulator in the central nervous system. In this study, we investigated whether an acute intrahippocampal injection of IL-1beta is able to rapidly stimulate HPA activity. Seven days after bilateral implantation of a guide cannula into the hippocampus, human IL-1beta (10 ng/0.5 microliter/side) was injected to freely moving male rats. Following this, animals were sacrificed at times 20, 45 and 90 min postinjection and a kinetic analysis of hIL-1beta action on plasma ACTH and corticosterone (CORT) concentrations and nuclear processing of the anterior pituitary (AP) proopiomelanocortin (POMC) was conducted. Intrahippocampal administration of hIL-1beta significantly increased both plasma ACTH and CORT concentrations at 45 and 90 min postinjection. This increase in ACTH concentration paralleled a rise in AP POMC gene transcription. Moreover, the increase in AP POMC primary transcript was followed by an increase in AP POMC intermediate processing RNA. However, at these times, no significant hIL-1beta effect on the level of AP nuclear POMC mRNA was observed. Almost identical results were obtained after intraperitoneal injection of hIL-1beta. In conclusion, our data demonstrates that the hippocampal IL-1beta/IL-1beta receptor is directly and rapidly implicated in HPA activation, in the same manner as that observed after intraperitoneal administration of hIL-1beta. These results show that IL-1 action in the hippocampus could be of immunoneuroendocrine significance for the HPA axis activation during inflammatory states.

CCK in anxiety and cognitive processes.

Extensive studies were carried out on the involvement of the CCKergic system in anxiety-, panic- and stress-related behaviour. The stimulation of CCK-A or CCK-B receptors is implicated in the physical and psychological responses of CCK to stress. Furthermore, several selective CCK-B agonists produce anxiogenic-like effects, while CCK-B antagonists induce anxiolytic-like responses in several models of anxiety. However, BC264 a highly selective CCK-B agonist, does not produce anxiogenic-like effects but increases attention and/or memory. These effects are dependent on the dopaminergic systems. Together with biochemical data, this led to the hypothesis of the existence of two CCK-B binding sites, CCK-B1 and CCK-B2, which could correspond to different activation states of a single molecular entity. Investigations into CCK-B1 and CCK-B2 systems might be of critical interest, since only one site, CCK-B1, appears to be responsible for the effects of anxiety. Furthermore, the improvement of attention and/or memory processes by CCK, through CCK-B2 receptors, could offer a new perspective in the treatment of attention and/or memory disorders.

Opposite effects of CCK(B) agonists in grooming behaviour in rats: further evidence for two CCK(B) subsites.

1. The hypothesis of the existence of two CCK(B) receptor subsites, CCK(B1) and CCK(B2) corresponding probably to different coupling states of CCK(B) receptors, was studied by measuring grooming behaviour in rats. 2. The B1 receptor agonist, BC197 (300 microg kg(-1), i.p.) produced a 45-50% decrease in grooming activity, which was prevented by both the CCK(B) receptor antagonists CI-988 (20 microg kg(-1) i.p.) and L-365,260 (200 microg kg(-1), i.p.). 3. In contrast, 3, 10 and 30 microg kg(-1), i.p., of the potent B2 receptor agonist, BC264, enhanced grooming (150-190%). This effect was prevented by previous injection of 75 microg kg(-1) of L-365,260 while higher doses (200 microg kg(-1), i.p.) produced only a partial antagonism. Moreover, CI-988 (20 microg kg(-1), i.p.), showed an opposite effect in potentiating the responses induced by BC264. However, 200 microg kg(-1) of CI-988 tended to suppress the increase of grooming induced by BC264. 4. The effects of BC264 were prevented by the D1 receptor (SCH 23390) and D2 receptor (sulpiride) antagonists, while those of BC197 were only antagonized by sulpiride, emphasizing the existence of a link between peptidergic (CCK) and dopaminergic systems. 5. This study brings additional evidence for the existence of the two CCK(B) receptor subsites and suggests that particular attention should be focused on the selectivity of CCK(B) receptor agonists, notably to explain the fact that some compounds such as Boc-CCK4 induce anxiogenic-like effects while others, including BC264, are devoid of these effects.

The CCK-B agonist, BC264, increases dopamine in the nucleus accumbens and facilitates motivation and attention after intraperitoneal injection in rats.

Although it is known that panic attacks are triggered by the cholecystokinin fragment CCK4, the specific involvement of peripheral or central cholecystokinin CCK receptors in various adaptive processes such as emotion, memory and anxiety has yet to be demonstrated. With this aim, we have investigated the biochemical and pharmacological effects resulting from the administration of BC264, a highly potent and selective CCK-B agonist able to cross the blood-brain barrier. Very low doses of BC264 (microg/kg i.p.), increased the exploration of animals submitted to an unknown territory but were devoid of anxiogenic properties in the elevated plus maze. BC264 increased locomotion and rearings of rats newly placed in an open field and improved their spontaneous alternation in a Y-maze. The use of vagotomized animals showed that the increased alternation induced by BC264 did not require an intact vagus nerve, unlike the locomotor activation. These behavioural effects, prevented by the prior i.p. administration of the CCK-B antagonist L-365,260 but not by the CCK-A antagonist L-364,718, were shown to depend on dopaminergic systems, since they were blocked by D1 (SCH23390, 25 microg/kg i.p.) or D2 (sulpiride, 50 or 100 mg/kg i.p.) antagonists. In addition, bilateral perfusion in freely moving rats of BC264 at pharmacologically active doses, using a newly designed microdialysis system, was found to increase the extracellular levels of DA, DOPAC and HVA in the anterior part of the nucleus accumbens. These results show that activation of CCK-B receptors by BC264 does not produce anxiogenic-like effects but appears to improve motivation and attention, whereas other CCK-B agonists such as BocCCK4 induce anxiogenic responses. Several explanations, including the existence of different sub-sites of the CCK-B receptor, could account for these differential effects.

Social interaction increases the extracellular levels of [Met]enkephalin in the nucleus accumbens of control but not of chronic mild stressed rats.

Chronic application of various mild stress has been shown to decrease the responsiveness to reward in rats. This effect, which was suggested to mimic anhedonia, one of the main symptoms observed in depressive patients, can be measured by various tests. Thus chronic mild stress was shown to reduce the consumption of a palatable sucrose solution, and to decrease the acquisition of preferences for a distinct environment paired with a variety of reinforcing substances. These negative responses could be prevented by chronic treatment with tricyclic or atypical antidepressants. The behavioural changes, induced by exposure to chronic mild stress, were shown to be associated with a number of changes in dopaminergic neurotransmission in the mesolimbic system, especially in the nucleus accumbens. The nucleus accumbens contains a large number of enkephalinergic cell bodies giving rise to local collaterals and axons projecting to the globus pallidus-ventral pallidum region (for review see Ref. 9). Furthermore, there is evidence that this structure is instrumental in mediating the reward effects of exogenous and endogenous opioids (for reviews see Refs 5,7,17). This study was carried out to analyse the possible contribution of the enkephalinergic system in the anhedonic-like state induced by chronic mild stress. Microdialysis was used to study the extracellular levels of [Met]enkephalin-like material in the rostral part of the nucleus accumbens of freely moving rats exposed or not to chronically mild stress. In both groups, the basal levels of [Met]enkephalin-like material were found to be similar. Exposure of the two groups to a congener, increased the extracellular levels of [Met]enkephalin in the controls but not in chronic mild stressed rats. This suggests that the reactivity of the endogenous opioid system could be reduced in stress induced model of anhedonia.

Slow delivery of the selective cholecystokinin agonist pBC 264 into the rat nucleus accumbens using microspheres.

Neuropeptides have been shown to play a critical role in adaptational processes, probably by long-term modulation of neuronal pathways. It could therefore be interesting to study behavioral changes induced by chronic local stimulation of neuropeptide receptors. With this aim poly(lactide-co-glycolide) microspheres loaded with a highly potent, peptidase-resistant, cholecystokinin (CCK)-B-selective CCK peptidomimetic agonist (pBC 264) were prepared by a water in oil in water emulsion solvent evaporation method and stereotaxically implanted into the anterior part of the rat nucleus accumbens. Two different kinds of loaded polymeric microspheres differing only by the stabilizing agent [ovalbumin (OVA) or Pluronic F 68] added to the inner emulsion were used. The histological and behavioral studies done 24 h and 8 days after implantation of nonloaded microspheres in the nucleus accumbens indicated that the microspheres were well tolerated. The in vivo release of the selective CCK-B agonist pBC 264 (associated with a tracer dose of [3H]pBC 264) from microspheres prepared with OVA was very fast (92% after 6 h), whereas only 26% (88 pmol) of pBC 264 was released from the formulation with Pluronic F 68 after 24 h. Eight days after implantation 36% of pBC 264 had diffused from the microspheres, and 8% (approximately 30 pmol) was still present in the brain concentrated around the site of administration. In all cases the released material was found to correspond to intact pBC 264, thus demonstrating the possibility of obtaining a slow controlled release of peptide in vivo. This method opens up interesting perspectives to study the long-term effects of neuropeptides.

The dual peptidase inhibitor RB101 induces a long-lasting increase in the extracellular level of Met-enkephalin-like material in the nucleus accumbens of freely moving rats.

This study was carried out to analyze the extracellular levels of Met-enkephalin-like material in the nucleus accumbens, a brain structure involved in the effects of opioids on motor activity and reward processes, using microdialysis in awake and freely moving rats, combined with a sensitive radioimmunoassay. The levels of Met-enkephalin-like material were measured after administration of a dual inhibitor of enkephalin-degrading enzymes, RB101, to evaluate its in vivo protecting effects. The basal levels of Met-enkephalin-like immunoreactivity in the nucleus accumbens were approximately 1.2 pg/30 min or 2.2 fmol/30 min (37 pM). Perfusion of KCI (100 mM) produced a 17-fold increase in the level of Met-enkephalin-like material in this structure. During the 8-h perfusion, which started at 9 a.m., a spontaneous increase of the basal level of Met-enkephalin-like material in the nucleus accumbens occurred between 4 and 4:30 p.m., suggesting the existence of variation in opioid peptide secretion, at least in this structure. Intraperitoneal injection of RB101 induced a dose-dependent and long-lasting (210-min) increase in the extracellular levels of Met-enkephalin-like material. A prolonged effect was also observed in the behavioral studies in which the inhibitor increased global motor activity of rats 210 min after injection. These data represent the first direct evidence that dual inhibitors of enkephalin-degrading enzymes increase in vivo the extracellular levels of Met-enkephalin-like material in awake and freely moving rats.