MGM-9 [(E)-methyl 2-(3-ethyl-7a,12a-(epoxyethanoxy)-9-fluoro-1,2,3,4,6,7,12,12b-octahydro-8-methoxyindolo[2,3-a]quinolizin-2-yl)-3-methoxyacrylate], a derivative of the indole alkaloid mitragynine: a novel dual-acting mu- and kappa-opioid agonist with potent antinociceptive and weak rewarding effects in mice

Mitragynine is a major indole alkaloid isolated from the Thai medicinal plant Mitragyna speciosa that has opium-like properties, although its chemical structure is quite different from that of morphine. We attempted to develop novel analgesics derived from mitragynine, and thus synthesized the ethylene glycol-bridged and C10-fluorinated derivative of mitragynine, MGM-9 [(E)-methyl 2-(3-ethyl-7a,12a-(epoxyethanoxy)-9-fluoro-1,2,3,4,6,7,12,12b-octahydro-8-methoxyindolo[2,3-a]quinolizin-2-yl)-3-methoxyacrylate]. We hypothesized that a dual-acting mu- and kappa-opioid agonist could produce potent antinociceptive effects with fewer rewarding effects compared with mu agonists. In this study, MGM-9 exhibited high affinity for mu- and kappa-opioid receptors with Ki values of 7.3 and 18 nM, respectively. MGM-9 showed a potent opioid agonistic effect, and its effects were meditated by mu- and kappa-opioid receptor mechanisms in in vitro assays. Subcutaneous and oral administration of MGM-9 produced potent antinociceptive effects in mouse tail-flick, hot-plate, and writhing tests. When administered orally, the antinociceptive effect of MGM-9 was seven to 22 times more potent than that of morphine. The antinociceptive effects of MGM-9 were mediated by both mu- and kappa-opioid receptors. Subcutaneous administration of MGM-9 twice daily for 5 days led to antinociceptive tolerance. In the gastrointestinal transit study, MGM-9 inhibited gastrointestinal transit, but its effect was weaker than that of morphine at equi-antinociceptive doses. Furthermore, MGM-9 induced less hyperlocomotion and fewer rewarding effects than morphine. The rewarding effect of MGM-9 was blocked by a mu antagonist and enhanced by a kappa antagonist. Taken together, the results suggest that MGM-9 is a promising novel analgesic that has a stronger antinociceptive effect and weaker adverse effects than morphine.     

The effects of chronic intraperitoneal administration of the GABA B receptor agonist baclofen on food intake in rats

This study was undertaken to examine the effects of repeated administration of the GABA(B) receptor agonist baclofen on food intake in male Wistar rats. In the 1st Experiment, the effects of daily administration of physiological saline and baclofen (2 mg/kg, i.p.) for 27 days were investigated on food intake and body weight in non-deprived rats (n=6 in each group). Baclofen significantly (P<0.05) increased cumulative food intake each day over the treatment period during the 60 min measurement period following administration. Tolerance did not develop to the short-term hyperphagic effect of baclofen over the course of the experiment. In addition, treatment with baclofen did not alter body weight of the animals over the 27 day treatment period when compared with the saline control rats. In the 2nd Experiment, the effects of acute and chronic administration of baclofen (2 mg/kg) were investigated on 24 h food intake in rats. The rats were injected daily for 21 days with either saline (n=6) or baclofen (n=6). Food intake was measured in 30 min time bins for 24 h on treatment Days 1, 12 and 21 following injection. The results showed that while baclofen produced short-term increases in food consumption following injection on treatment Days 1, 12 and 21, the daily (24 h) food intake of the animals was not significantly different from those of control rats. Thus, these data reveal that while chronic administration of baclofen (2 mg/kg) produces short-term increases in feeding without the development of tolerance, daily (24 h) food consumption is not affected. These findings are consistent with the observation that chronic administration of baclofen (2 mg/kg) had no effect on the body weight of these animals.     

Role of ascending and descending serotonergic pathways in the antinociceptive effect of baclofen

Summary The role of ascending and descending serotonergic pathways in the antinociceptive effect of baclofen was examined by lesioning specific pathways with the neurotoxin 5,7-dihydroxytryptamine (5,7-DHT). Antinociception in rats was assessed using the tail flick and hot plate tests 3/4 and 10/11 days after lesioning and the placement of lesions verified by analysis of serotonin (5-HT) in brain and spinal cord. Lesions to the ventromedial tegmentum depleted 5-HT selectively in brain and inhibited the antinociceptive effect of baclofen in the tail flick test 3/4 but not 10/11 days after lesioning. Lesions to the nucleus raphe medianus produced a marked depletion of 5-HT in the hippocampus and produced the same effect on baclofen. Lesions to the nucleus raphe dorsalis were less selective, depleting 5-HT in a number of brain regions and in the spinal cord, and inhibited the antinociceptive effect of baclofen at the later but not the earlier time interval. Lesions to descending pathways by microinjection of 5,7-DHT into the ventral raphe or nucleus raphe magnus did not affect the action of baclofen significantly. Lesions to both ascending and descending pathways by intracerebroventricular 5,7-DHT increased the effect of baclofen. The hot plate test generally was less sensitive to these manipulations, although changes parallel to the tail flick test were observed in a number of instances. Both the destruction of 5-HT pathways and development of supersensitivity at 5-HT receptors may contribute to the interactions observed. Send offprint requests to J. Sawynok     

The GABA(B) receptor agonist, baclofen, and the positive allosteric modulator, CGP7930, inhibit visceral pain-related responses to colorectal distension in rats

Activation of GABA(B) receptors by the selective agonist baclofen produces anti-nociceptive effects in animal models of somatic pain. The aim of the present study was to evaluate the effect of baclofen and the GABA(B) receptor positive allosteric modulator CGP7930 on pseudo-affective responses to colorectal distension in rats. Female Sprague-Dawley rats were subjected to repeated, noxious colorectal distension (CRD) (12 distensions at 80 mmHg, for 30 s with 5 min intervals). The visceromotor response (VMR) and cardiovascular responses (mean arterial blood pressure (ABP) and heart rate (HR)) to CRD were monitored in conscious, telemetrized animals. Baclofen (0.3-3 micromol/kg, i.v.) reduced the VMR to CRD dose-dependently, reaching a 61% maximal inhibition (p < 0.001). The highest doses of baclofen attenuated CRD-evoked increases in ABP by 17% (p > 0.05) and reduced the change in HR by 48% (p < 0.01). CGP7930 (3-30 micromol/kg, i.v.) reduced the VMR to CRD in a dose-dependent fashion with a maximal inhibition of 31% (p < 0.05). The highest dose of CGP7930 also attenuated the increase in ABP by 18% (p > 0.05) and inhibited the increase in HR by 24% (p < 0.05) associated with CRD. Neither baclofen nor CGP7930 affected colorectal compliance. The results suggest that activation of GABA(B) receptors produces anti-nociceptive effects in a rat model of mechanically induced visceral pain. While CGP7930 was less efficacious than baclofen overall, positive allosteric modulation of GABA(B) receptors may represent a valid approach in the treatment of visceral pain conditions, with the possibility of an improved safety profile compared to full agonism.     

Additive inhibition of lordosis by simultaneous treatments with GABA(A) and GABA(B) receptor agonists, muscimol and baclofen, in female rats

In order to investigate the relationship between GABA_A and GABA_B receptors in the induction of lordosis behavior, agonists of these receptor subtypes were injected simultaneously to estrogen-treated ovariectomized rats and lordosis behavior was observed before and after the injections. The GABA_A receptor agonist, muscimol (MUS), at a dose in the range from 1.0 to 1.4 mg/kg body weight (bw) or the GABA_B receptor agonist, baclofen (BAC) at a dose in the range from 1 to 10 mg/kg bw, was injected intraperitoneally. The lordosis quotient (LQ) decreased after treatments with MUS or BAC and a dose-dependent decrease of LQ was observed in MUS or BAC-treated rats. When 1.2 mg/kg bw MUS and 5 mg/kg bw BAC were injected simultaneously, the mean LQ decreased strongly and was significantly lower than the values obtained after single injections of the agonists at these doses (P < 0.05). In addition, to ascertain the time-course of changes, a behavioral test was carried out 7 times from 15 to 180 min after the injection of agonists. The low LQ in the rats injected with both MUS and BAC continued longer than in rats given single injections. These results indicate that both GABA_A and GABA_B receptors are involved in lordosis-inhibiting mechanisms by the GABA neuron and operate independently.     

Inhibitory effects of GABA(B) receptor agonists on swallowing in the dog

The effects of the GABA(B) receptor agonists baclofen (1.4 and 7 micromol/kg i.v.) and CGP 44532 ([(2S)-3-amino-2-hydroxypropyl]methyl phosphinic acid], 0.2 and 0.7 micromol/kg i.v.) on transient lower esophageal sphincter relaxations and spontaneous and pharyngeally stimulated swallowing were investigated in conscious dogs. Both compounds inhibited transient lower esophageal sphincter relaxations dose-dependently, CGP 44532 being approximately fivefold more potent. In experiments designed to measure transient lower esophageal sphincter relaxations, spontaneous swallowing was suppressed by both compounds. When swallowing was evoked by intrapharyngeal water injection, both baclofen and CGP 44532 reduced the occurrence of primary peristalsis. It is concluded that centrally acting GABA(B) receptor agonists inhibit spontaneous and stimulated swallowing probably through an action in the central pattern generator for swallowing.     

The GABA(B) receptor agonist baclofen attenuates cocaine- and heroin-seeking behavior by rats.

Conditioned stimuli paired with drugs of abuse can acquire motivational properties, and are capable of inducing drug-seeking behavior and relapse to cocaine use. Converging evidence implicates the mesolimbic dopamine (DA) system, through interactions with limbic afferents to the nucleus accumbens, in behavior controlled by conditioned stimuli. The GABA(B) receptor agonist baclofen has been shown to decrease break points in rats responding for cocaine under progressive ratio schedules and also to attenuate activation of limbic cortical areas in human cocaine addicts. The purpose of the present study was therefore to investigate the effects of baclofen on drug-associated cue-controlled cocaine- or heroin-seeking behavior by rats. Under the second-order schedule of reinforcement used in the present study, cocaine or heroin were available after a fixed time interval, while high rates of responding during the interdrug intervals were maintained by the response-contingent presentations of drug-associated conditioned reinforcers. Baclofen decreased stimulus-maintained responding for either heroin or cocaine, but decreased only cocaine intake under an FR1 schedule. These results therefore support preliminary clinical findings and suggest that drugs with GABA(B) receptor agonist properties may aid abstinence in human drug addicts by decreasing the propensity to cue-induced drug-seeking and relapse.     

The GABA(B) receptor allosteric modulator CGP7930, like baclofen, reduces operant self-administration of ethanol in alcohol-preferring rats

GABA systems have been implicated as targets for ethanol at the cellular, molecular and behavioural level. The present study was designed to further examine the potential of the GABA(B) receptor as a target for regulating operant alcohol responding. Given that the prototypic agonist, baclofen, reduces the self-administration of alcohol, we hypothesized that the GABA(B) receptor allosteric modulator, CGP7930, might have similar actions but a reduced side-effect profile. In this context, inbred alcohol-preferring (iP) rats were trained to respond for 10% v/v ethanol in a fixed ratio paradigm; all drug testing was performed under an FR3 schedule. Both baclofen and CGP7930 independently reduced voluntary responding for 10% ethanol in a dose-related manner. Neither drug impacted upon responding for water. A combination of subthreshold doses of baclofen and CGP7930 was also able to reduce operant responding for ethanol, suggesting that CGP7930 is indeed acting to facilitate GABA(B) receptor-mediated signalling in this paradigm. These data demonstrate the potential of positive allosteric modulators of metabotropic GABA(B) receptors to regulate alcohol responding.     

Activation mechanism of the heterodimeric GABA(B) receptor

The GABA(B) receptor was the first heteromeric G-protein coupled receptor (GPCR) identified. Indeed, both GABA(B1) and GABA(B2) subunits appear necessary to get a functional GABA(B) receptor. Soon after the cloning of both subunits, it was demonstrated that GABA(B2) was required for GABA(B1) to reach the cell surface. However, even a mutated GABA(B1) able to reach the cell surface is not functional alone despite its ability to bind GABA(B) ligands. This clearly demonstrated that GABA(B2) is not only required for the correct trafficking of GABA(B1) but also for the correct functioning of the receptor. In the present review article, we will summarize our actual knowledge of the specific role of each subunit in ligand recognition, intramolecular transduction, G-protein activation and allosteric modulation. We will show that the GABA(B) receptor is an heterodimer (not an hetero-oligomer), that agonists bind in GABA(B1), whereas GABA(B2) controls agonist affinity and is responsible for G-protein coupling. Finally, we will show that the recently identified positive allosteric modulator CGP7930 acts as a direct activator of the heptahelical domain of GABA(B2), being therefore the first GABA(B2) ligand identified so far.     

The effects of intraperitoneal administration of the GABA(B) receptor agonist baclofen on food intake in CFLP and C57BL/6 mice

The effects of the GABA(B) receptor agonist baclofen were investigated on food intake in non-deprived CFLP and C57BL/6 mice. In Experiment 1, baclofen (1-8 mg /kg) administered i.p. to CFLP mice, produced a dose-related increase in food intake. The 4 and 8 mg/kg doses produced significant increases in cumulative feeding when measure 120 min after administration (at least P < 0.05, in each case). In Experiment 2, baclofen (1-10 mg/kg), administered intraperitoneally (i.p.) to C57BL/6 mice, also produced a dose-related increase in food intake. The 4 mg/kg dose of baclofen significantly increased cumulative food intake at 60 min (P < 0.05), while the 2 and 4 mg/kg doses significantly increased cumulative food intake at 120 min (P < 0.01, in each case). The 10mg/kg dose was without effect. These data show that systemic administration of the GABA(B) agonist baclofen produces an increase in food consumption in two different strains of mice and extend previous observations made in rat to another rodent species.     

gamma-Hydroxybutyric acid and baclofen decrease extracellular acetylcholine levels in the hippocampus via GABA(B) receptors.

The effect of γ-hydroxybutyric acid (GHB) and baclofen, a GABA_B receptor agonist, on extracellular hippocampal acetylcholine levels was studied in freely moving rats by microdialysis. GHB (200 and 500 mg/kg, i.p.) reduced in a dose-dependent manner, extracellular hippocampal acetylcholine concentrations and this effect was prevented by the GABA_B receptor antagonist (2S)(+)-5,5-Dimethyl-2-morpholineacetic acid (SCH 50911), at the dose of 20 mg/kg (i.p.), while the putative GHB receptor antagonist 6,7,8,9-Tetrahydro-5-hydroxy-5H-benzocyclohept-6-ylideneacetic acid (NCS 382) was ineffective. Similar to GHB, the GABA_B agonist baclofen (10 and 20 mg/kg, i.p.) produced a dose-related reduction in extracellular acetylcholine concentrations which was prevented by SCH 50911. These findings indicate that GHB-induced reduction of hippocampal acetylcholine release is mediated by GABA_B receptors and support a possible involvement of hippocampal GABA_B receptors in the control of cognitive processes and in the claimed amnesic effect of GHB intoxication.     

Anxiolytic-like effects of MTEP, a potent and selective mGlu5 receptor agonist does not involve GABA(A) signaling

Several lines of evidence suggest a crucial involvement of glutamate in the mechanism of action of anxiolytic drugs including the involvement of group I metabotropic glutamate (mGlu) receptors. Given the recent discovery of a selective and brain penetrable mGlu5 receptor antagonists, the effect of 3-[(2-methyl-1,3-thiazol-4-yl)ethynyl]-pyridine (MTEP), i.e. the most potent mGlu5 antagonist, was evaluated in established models of anxiety after single or repeated administration. We also studied if the anxiolytic effect of MTEP is mediated by mechanism involving the GABA-benzodiazepine (BZD) receptor complex. Experiments were performed on male Wistar rats or male Albino Swiss mice. The anxiolytic-like effects of MTEP were tested in the conflict drinking test and the elevated plus-maze test in rats as well as in the four-plate test in mice. MTEP (0.3-3.0 mg/kg) induced anxiolytic-like effects in the conflict drinking test (after single and repeated administration) and in the elevated plus-maze test in rats. In the four-plate test in mice, it exerted anxiolytic activity at a dose of 20 mg/kg. MTEP had no effect on the locomotor activity of animals. The anxiolytic-like effect of MTEP was not changed by BZD antagonist flumazenil. Moreover, a synergistic interaction between non-effective doses of MTEP and diazepam was observed in the conflict drinking test. These data suggest that selective mGlu5 receptor antagonists mediated anxiolysis is not dependent on GABA-ergic system and that these agents may play a role in the therapy of anxiety.     

Attenuation of morphine antinociceptive tolerance by a CB1 receptor agonist and an NMDA receptor antagonist: Interactive effects

CB₁ cannabinoid (CB₁) receptor agonists and N-Methyl-d-Aspartate (NMDA) receptor antagonists attenuate the development of morphine antinociceptive tolerance. The present study used dose-addition analysis to evaluate CB₁/NMDA receptor interactions on this endpoint. Chronic morphine administration (5 days, 100 mg/kg, twice daily) resulted in a 2.8-fold rightward shift in the morphine dose-effect curve. Co-administration of either the CB₁ receptor agonist CP-55940 (5-(1,1-Dimethylheptyl)-2-[5-hydroxy-2-(3-hydroxypropyl)cyclohexyl]phenol; 0.32-1.0 mg/kg) or the NMDA receptor antagonist (−)-6-phosphonomethyl-deca-hydroisoquinoline-3-carboxylic acid (LY235959; 1.0-3.2 mg/kg) with morphine dose-dependently attenuated morphine tolerance. The relative potency of each drug alone was quantified using a defined level of effect (one-quarter log shift in the morphine dose-effect curve), resulting in equieffective doses of 0.42 mg/kg and 1.1 mg/kg for CP-55940 and LY235959, respectively. Subsequent experiments assessed CP-55940/LY235959 interactions using a fixed-proportion design. Co-administration of CP-55940/LY235959 mixtures (1:1, 1:3.2, or 1:10 CP-55940/LY235959) with morphine dose-dependently attenuated morphine tolerance. Isobolographic and dose-addition analysis were used to statistically compare the experimentally determined potency for each mixture (z_mix) with predicted additive potency (z_add). Mixtures of 1:1 and 1:3.2 CP-55940/LY235959 produced additive effects (z_add = z_mix), while the mixture of 1:10 CP-55940/LY235959 produced a supra-additive effect (z_add > z_mix). These results suggest that CP-55940 and LY235959 produce additive or supra-additive attenuation of morphine antinociceptive tolerance after repeated morphine administration, depending on their relative concentrations.     

Identification of a novel,selective GABA(A) alpha5 receptor inverse agonist which enhances cognition

In pursuit of a GABA(A) alpha5-subtype-selective inverse agonist to enhance cognition, a series of 6,7-dihydro-2-benzothiophen-4(5H)-ones has been identified as a novel class of GABA(A) receptor ligands. These thiophenes have higher binding affinity for the GABA(A) alpha5 receptor subtype compared to the GABA(A) alpha1, alpha2, and alpha3 subtypes, and several analogues exhibit high GABA(A) alpha5 receptor inverse agonism. 6,6-Dimethyl-3-(2-hydroxyethyl)thio-1-(thiazol-2-yl)-6,7-dihydro-2-benzothiophen-4(5H)-one (43) has been identified as a full inverse agonist at the GABA(A) alpha5 receptor and is functionally selective over the other major GABA(A) receptor subtypes. 43 readily penetrates into the CNS to give selective occupancy of GABA(A) alpha5 receptors. In addition, 43 enhances cognitive performance in rats in the delayed 'matching-to-place' Morris water maze test-a hippocampal-dependent memory task-without the convulsant or proconvulsant activity associated with nonselective, GABA(A) receptor inverse agonists.     

The effects of ethanol,phenobarbital, and baclofen on ethanol withdrawal in the rhesus monkey

Physical dependence on ethanol was produced in four rhesus monkeys by IV ethanol administration every 8 h. Ethanol was administered on each occasion until the eyeblink reflex was lost. Evidence of physical dependence development, in the form of tremoring 8 h after an infusion, appeared on day 8 of chronic administration. Abrupt cessation of ethanol administration following 16 days of chronic administration was accompanied by moderate to severe tremoring, retching, vomiting, and one or more convulsions. Peak withdrawal occurred between 12 and 32 h after abrupt discontinuation of ethanol administration, and decreased over a period of 64–204 h. Ethanol dependence was then reinstated. Once every 3–4 days, ethanol was withheld for 16 h. Withdrawal signs were scored for the first 12 h of this period, and then a test dose of ethanol, phenobarbital, or baclofen was administered. Withdrawal or intoxication signs were scored over the next 4 h, at which time ethanol administration was resumed. Both ethanol and phenobarbital suppressed ethanol withdrawal sign in a dose-related manner, and produced dose-related intoxication. Baclofen was largely ineffective in reducing withdrawal-induced tremors, although it was capable of producing sedation of a different type than that produced by phenobarbital and ethanol.     

Effects of intraperitoneal administration of the GABA B receptor agonist baclofen on food intake in rats measured under different feeding conditions

The effects of intraperitoneal (i.p.) administration of the GABA(B) receptor agonist baclofen were assessed in rats under different feeding conditions. In Experiment 1, it was observed that baclofen (1-4 mg/kg) significantly (at least, P<0.05) increased cumulative food intake in non-deprived rats during the 120 min measurement period during the early light phase of the light-dark cycle. By contrast, during the early dark phase of the light-dark cycle in non-deprived rats, the 1mg/kg doses of baclofen significantly increased cumulative feeding at 30, 60 and 120 min (at least P<0.05), the 2mg/kg dose significantly increased feeding at 30 and 60 min (at least P<0.05) and the 4 mg/kg dose had no effects on feeding. In Experiment 2, baclofen (1-4 mg/kg) was found to produce no significant effects on food intake in rats that were food-deprived for 22 h. In Experiment 3, the effects of baclofen were investigated on food intake in 16 h food-deprived rats that had received an oral preload for 2h prior to drug administration. Baclofen (1-4 mg/kg) significantly increased cumulative food consumption (at least, P<0.05) only during the first 30 min after administration in these animals. The results of this study indicate that the effects of baclofen on food intake may be related to the state of hunger or satiety of the animals and the time during the light-dark cycle when the drug is administered.     

Differential sensitivity to the motor and hypothermic effects of the GABA<Subscript>B</Subscript> receptor agonist baclofen in various mouse strains

Rationale Comparison of different mouse strains can provide valuable information about the genetic control of behavioural and molecular phenotypes. Recent evidence has demonstrated the importance of GABA_B receptors in anxiety and depression. Investigation of the phamacogenetics of GABA_B receptor activation may aid in the understanding of mechanisms underlying the role of GABA_B in affect.Objectives The aim of current study was to determine the relative sensitivity of different mouse strains to GABA_B receptor agonism in two models of GABA_B receptor function, namely hypothermia and motor incoordination.Methods Mice each from 11 strains (BALB/cByJIco, DBA/2JIco, OF1, FVB/NIco, CD1, C3H/HeOuJIco, 129/SvPasIco, NMRI, C57BL/6JIco, A/JOlaHsd and Swiss) were trained to walk on a rotarod for 300 s. On the following day, mice received 0, 3, 6 or 12 mg/kg of l-baclofen PO. Rectal temperature and rotarod performance were measured at 0, 1, 2 and 4 h after drug application.Results l-Baclofen produced a significant dose-dependent hypothermia and ataxia in most, but not all, mouse strains examined. The magnitude and duration of response was influenced by strain, with mice of the 129/SvPasIco strain showing largest hypothermic response to 12 mg/kg l-baclofen and C3H/HeOuJIco the lowest, whereas the BALB/cByJIco strain demonstrated greatest ataxic response on the rotarod, and NMRI the least. Interestingly, some strains (notably C3H/HeOuJIco) had marked differential hypothermic and ataxic responses, with minimal body temperature responses to l-baclofen but significant ataxia on the rotarod observed.Conclusion There is differential genetic control on specific GABA_B receptor populations that mediate hypothermia and ataxia. Further, these studies demonstrate that background strain is an important determinant of GABA_B receptor mediated responses, and that hypothermic and ataxic responses may be influenced by independent genetic loci.     

Both GABA(B) receptor agonist and antagonists decreased brain stimulation reward in the rat

The present experiments were designed to determine the role of GABA(B) receptor function on brain stimulation reward. Using a discrete-trial current-intensity threshold procedure, dose-effect functions were generated for the GABA(B) receptor agonist CGP 44532 (0-1.0 mg/kg, s.c.) and the GABA(B) receptor antagonists CGP 56433A (0-10.0 mg/kg, s.c.) and CGP 51176 (0-300.0 mg/kg, s.c.) on brain reward thresholds in rats. The GABA(B) receptor antagonists CGP 56433A and CGP 51176 were used also to examine interaction effects with the GABA(B) receptor agonist CGP 44532 on reward thresholds. Administration of the highest doses of both the GABA(B) receptor agonist and antagonists elevated reward thresholds. Thus, both the agonist and antagonists used induced a reward decrement when administered separately. In addition, the co-administration of either of the two receptor antagonists with the agonist induced an additive effect on thresholds, rather than blocking the agonist-induced threshold elevations. These results suggest that activation of GABA(B) receptors modulates intracranial self-stimulation behavior in a complex fashion, possibly through differential effects of GABA(B) agonists and antagonists on pre- and post-synaptic GABA(B) receptors.