Discriminative stimulus effects of ethanol and 3α-hydroxy-5α-pregnan-20-one in relation to menstrual cycle phase in cynomolgus monkeys (Macaca fascicularis)

 The present study was designed to characterize the discriminative stimulus effects of ethanol and the neurosteroid 3α-hydroxy-5α-pregnan-20-one (allopregnanolone) in nonhuman primates as a function of menstrual cycle phase. Female cynomolgus monkeys (Macaca fascicularis) were trained in a two-lever procedure to discriminate 1.0 g/kg ethanol (IG, 30 min pretreatment) from water using food reinforcement. A cumulative dosing procedure was used to assess changes in the potency of ethanol and an endogenous anxiolytic steroid in the follicular versus the luteal phase of the menstrual cycle. Plasma progesterone and allopregnanolone levels were determined within 24 h of testing to verify phase of menstrual cycle. The monkeys were more sensitive to the discriminative stimulus effects of ethanol and the ethanol-like effects of the endogenous neuroactive steroid allopregnanolone during the luteal phase of the menstrual cycle. These findings suggest that changes in the endogenous levels of ovarian-derived progesterone and allopregnanolone alter sensitivity to the discriminative stimulus effects of ethanol. Received: 13 March 1996 / Final version: 26 September 1996     

Increased specificity of ethanol's discriminative stimulus effects in an ethanol-pentobarbital-water discrimination in rats.

Ethanol's modulation of a number of receptor systems results in a heterogeneous discriminative stimulus complex. A previous study found that these heterogeneous discriminative stimulus effects were seemingly diminished when rats were trained to discriminate ethanol (2.0 g/kg) from pentobarbital (10.0 mg/kg). The present experiment was designed to extend these findings by using a lower training dose of ethanol (1.0 g/kg). Adult male Long-Evans rats (n = 7) discriminated pentobarbital (10.0 mg/kg; intragastric (i.g.)) from ethanol (1.0 g/kg; i.g.) from water (2.3 ml; i.g.) in a 3 lever, food-reinforced task. Substitution tests were conducted following intraperitoneal (i.p.) administration of GABA(A) positive modulators, noncompetitive NMDA antagonists, 5-HT1 agonists and isopropanol. The GABA(A) positive modulators diazepam, midazolam and allopregnanolone completely substituted for pentobarbital. Isopropanol completely substituted for ethanol, while the NMDA antagonists dizocilpine and phencyclidine partially substituted for ethanol. The 5-HT agonists RU 24969 and CGS 12066B did not result in complete substitution for ethanol or pentobarbital, although RU 24969 resulted in partial pentobarbital substitution. These data replicate and extend the previous findings that discriminating ethanol from pentobarbital attenuates the ethanol-like effects of GABA(A) positive modulators, NMDA antagonists and 5-HT1 agonists and results in a more specific ethanol cue. The outcome appears to be a conditional basis for the ethanol discrimination, where a full ethanol-like effect is produced only by drugs with pharmacological activity similar to the heterogenous effects of ethanol (e.g. other alcohols).     

Modulation of the ethanol-like discriminative stimulus effects of diazepam and phencyclidine by L-type voltage-gated calcium-channel ligands in rats

Rationale: Administration of voltage-gated calcium-channel (VGCC) modulators with ethanol can result in enhancement or attenuation of some behavioral effects of ethanol, including its discriminative stimulus effects. Objectives: The present study used a drug- discrimination paradigm to characterize modulation of the ethanol-like discriminative stimulus effects of a γ-amino-butyric acid (GABA)_A and N-methyl-d-aspartate (NMDA) ligand by administration of VGCC ligands. Methods: Two groups of adult male Long-Evans rats were trained to discriminate either 1.0 g/kg ethanol (n=8) or 2.0 g/kg ethanol (n=9) from water under a fixed-ratio (FR) 20 schedule of food presentation. Following training, ethanol substitution tests were conducted with cumulative doses of the GABA_A-positive modulator diazepam (0.3–10 mg/kg, i.p.) (DZP) and the uncompetitive NMDA antagonist phencyclidine (0.3–5.6 mg/kg, i.p.) (PCP). Next, a single dose of the VGCC antagonist nimodipine, nifedipine, isradipine, or the VGCC agonist (–)-BAY k 8644 (0.3 mg/kg, i.p.) was administered prior to a cumulative DZP or PCP dose–response determination. Results: None of the VGCC modulators produced robust or consistent alterations in the ethanol-like discriminative stimulus effects of DZP in animals trained with either 1.0 g/kg or 2.0 g/kg ethanol. However, the ethanol-like discriminative stimulus effects of PCP were significantly enhanced in the presence of the VGCC antagonists and attenuated in the presence of the agonist in animals trained with 2.0 g/kg ethanol. Conclusions: Overall, these data show that VGCC modulation is not a robust component of ethanol-like discriminative stimulus effects of DZP in animals trained with 1.0 g/kg or 2.0 g/kg ethanol. However, the ethanol-like effects of PCP, particularly at higher training doses, appear to be modulated by dihydropyridine-sensitive VGCCs. Received: 26 August 1999 / Final version: 22 October 1999     

Discriminative stimulus effects of ethanol in rats using a three-choice ethanol-midazolam-water discrimination

Three-choice discrimination procedures are used to characterize how similar the discriminative stimulus effects of two drugs are in relation to each other. This procedure has suggested similarities between ethanol and ligands that positively modulate the gamma-aminobutyric acid type A (GABAA) receptor complex. As an extension to these studies, male Long-Evans rats were trained to discriminate midazolam (3.0 mg/kg, i.p.) from ethanol (1.0 g/kg, i.g.) from water (2.3 ml, i.g.) in a three-lever, food reinforced task. Substitution tests were conducted following administration of GABAA-positive modulators, noncompetitive N-methyl-D-aspartate (NMDA) antagonists, 5-HT1B agonists and isopropanol. Among the GABAA-positive modulators, diazepam was the only drug that completely substituted for midazolam; both pentobarbital and the neurosteroid allopregnanolone showed partial midazolam substitution. The NMDA antagonist dizocilpine substituted for ethanol, while phencyclidine showed no substitution for either ethanol or midazolam. The serotonin agonists tested also showed no substitution for either ethanol or midazolam. Isopropanol was the only other drug that completely substituted for ethanol. These data extend previous findings from an ethanol-pentobarbital-water discrimination and further define training conditions that result in a conditional basis for the ethanol discrimination where only those drugs with pharmacological heterogeneous effects similar to ethanol produce a full ethanol-like effect.     

Characterization of the discriminative stimulus effects of N-methyl- D-aspartate ligands under different ethanol training conditions in the cynomolgus monkey ( Macaca fascicularis)

RATIONALE: The current study was designed to extend our knowledge of the N-methyl- D-aspartate (NMDA) glutamate receptor system in mediating the discriminative stimulus effects of ethanol in non-human primates. OBJECTIVES: To characterize the discriminative stimulus effects of the NMDA uncompetitive antagonists dizocilpine, phencyclidine (PCP) and ketamine in male and female monkeys under different ethanol training conditions. METHODS: Adult male ( n=8) and female ( n=9) cynomolgus monkeys ( Macaca fascicularis) were divided into four groups and trained to discriminate 1.0 g/kg ethanol ( n=8) versus water or 2.0 g/kg ethanol ( n=9) versus water in a 2 x 2 design with training dose and sex as main group factors. Ethanol (20% w/v) solutions were administered intragastrically (IG) and responding was maintained under a fixed ratio schedule of food reinforcement. Dose-response determinations for dizocilpine [IG and intramuscular (IM)], PCP (IM) and ketamine (IM) were made under two training intervals (30 and 60 min). RESULTS: Dizocilpine, PCP and ketamine dose-dependently substituted for ethanol in three of four training conditions, the notable exception being in males trained with 2.0 g/kg ethanol. Ethanol-like discriminative stimulus effects were greater with IM dizocilpine than with IG dizocilpine. At the lower ethanol training dose (1.0 g/kg), there were no sex differences in the ethanol-like discriminative stimulus effects of dizocilpine, PCP or ketamine, nor were there sex differences in the potencies to produce ethanol-like discriminative stimulus effects. Sex differences were readily apparent with the higher ethanol training dose (2.0 g/kg), with the NMDA ligands failing to substitute for ethanol in male monkeys, probably due to the rate-suppressive effects of these compounds. CONCLUSIONS: These data suggest that NMDA receptor-mediated activity is a component to the discriminative stimulus effects of ethanol in male and female nonhuman primates. However, NMDA uncompetitive antagonists were less likely to produce discriminative stimulus effects similar to a high ethanol training dose in male monkeys. In comparison to consistent substitution by GABA(A) positive modulators for ethanol, substitution patterns produced by NMDA uncompetitive antagonists suggest a less robust mediation of the ethanol discriminative stimulus through NMDA receptor systems in nonhuman primates.     

Characterization of the discriminative stimulus effects of GABAA receptor ligands in Macaca fascicularis monkeys under different ethanol training conditions

Rationale: Some evidence suggests an involvement of nucleus accumbens in spatial learning. However, it is controversial whether the mesoaccumbens dopaminergic pathways play a specific role in the acquisition of spatial information. Objective: The goal of these experiments was to investigate the effect of dopaminergic manipulations in the nucleus accumbens on a non-associative task designed to estimate the ability to encode/transmit spatial and non-spatial information. Methods: The effects of focal administrations of the D1 and D2 dopamine receptor antagonists, SCH 23390 (6.25, 12.5, 50 ng/side) and sulpiride (12.5, 50, 100 ng/side), respectively, and dopamine (DA; 1.25 and 2.5 μg/side) into the nucleus accumbens were studied on reactivity to spatial and non-spatial changes in an open field with objects. Results: Both SCH 23390 and sulpiride impaired reactivity to spatial change. However, several differences were found in the effects induced by the two DA antagonists. SCH 23390 did not affect locomotor activity and only slightly impaired exploration of the novel object. On the contrary, the D2 antagonist, induced a general, dose-dependent, impairment on all variables measured. Local administration of DA increased locomotor activity, but did not affect reactivity to spatial and non-spatial changes. Conclusions: These results demonstrate a facilitatory role of mesoaccumbens dopamine in the acquisition of spatial information. Moreover, they suggest that nucleus accumbens D1 DA receptors, play a more selective role in the modulation of spatial learning than accumbens D2 DA receptors. Electronic Publication     

Ethanol-like discriminative stimulus effects of the neurosteroid 3α-hydroxy-5α-pregnan-20-one in femaleMacaca fascicularis monkeys

The present study was designed to characterize the discriminative stimulus effects of ethanol and the neurosteroid 3-hydroxy-5-pregnan-20-one (allopregnanolone) in non-human primates. Female cynomolgus monkeys (Macaca fascicularis) were trained in a two-le-ver procedure to discriminate 1.0 g/kg ethanol (IG, 30 min pretreatment) from water using food reinforcement. Consistent with previous results in a variety of species, pentobarbital (0.56–17 mg/kg, IG) resulted in a dose-dependent substitution for the discriminative stimulus effects of ethanol, with an average ED₅₀ value of 1.9 mg/kg. Administration of allopregnanolone (0.3–5.6 mg/kg, IV) also produced complete substitution for the discriminative stimulus effects of ethanol, with an ED₅₀ value of 1.0 mg/kg. Plasma allopregnanolone levels 35 min following the administration of 3.0 mg/kg allopregnanolone ranged from 33 to 69 ng/ml. The ethanollike discriminative stimulus effects of 1.0 mg/kg allopregnanolone (IV) were present for 60 min, with a return to complete water-appropriate responding at 90 min post-treatment. The results indicate that the endogenous neuroactive steroid allopregnanolone produces subjective effects in cynomolgus monkeys that are similar to ethanol. These findings suggest that changes in the endogenous levels of allopregnanolone could alter sensitivity to the subjective effects of ethanol.     

Substitution of the 5-HT1 agonist trifluoromethylphenylpiperazine (TFMPP) for the discriminative stimulus effects of ethanol: effect of training dose

The role of the ethanol training dose on the ability of the selective 5-HT¹ agonist TFMPP (m-trifluoromethylphenylpiperazine) to produce ethanol-like discriminative stimulus effects was evaluated in three groups of rats trained to discriminate 1.0 g/kg (n=5), 1.5 g/kg (n=6) or 2.0 g/kg (n=7) ethanol (IG) from water using a two-lever procedure with food reinforcement available under a fixed ratio 20 (FR 20) schedule. Ethanol generalization gradients were comparable in the three groups, indicating few potency differences in the ethanol stimulus across training dose. However, the ability of TFMPP (0.1–1.7 mg/kg; IP) to substitute for ethanol was dependent on the training dose. TFMPP resulted in partial substitution in the 1.0 g/kg group, complete substitution for 1.5 g/kg group and no substitution in the 2.0 g/kg ethanol training group. The results indicate a serotonergic component to the discriminative stimulus effects of an intermediate dose of ethanol that is not prominent as the dose of ethanol is raised. These data add further support for the hypothesis that ethanol produces a mixed discriminative cue, the components of which are not uniformly amplified when the dose of ethanol is increased.     

The discriminative stimulus properties of self-administered ethanol are mediated by GABAA and NMDA receptors in rats

RATIONALE: The neurobiological systems that mediate the discriminative stimulus effects of self-administered drugs are largely unknown. The present study examined the discriminative stimulus effects of self-administered ethanol. METHODS: Rats were trained to discriminate ethanol (1 g/kg, IP) from saline on a two-lever drug discrimination task with sucrose (10% w/v) reinforcement. Test sessions were conducted with ethanol (0 or 10% v/v) added to the sucrose reinforcement to determine if self-administered ethanol would interact with the discriminative stimulus effects of investigator-administered ethanol, or with the ethanol-like discriminative stimulus effects of the GABAA-positive modulator pentobarbital or the non-competitive NMDA antagonist MK-801. RESULTS: During a saline test session, ethanol (10% v/v) was added to the sucrose reinforcement. Responding by all animals began accurately on the saline-appropriate lever and then switched to the ethanol-appropriate lever after rats self-administered a mean dose of 1.2 +/- 0.14 g/kg ethanol. During cumulative self-administration trials, responding initially occurred on the saline lever and then switched to the ethanol-appropriate lever after ethanol (0.68 +/- 0.13 g/kg) was self-administered. Investigator-administered MK-801 (0.01-1.0 mg/kg, cumulative IP) and pentobarbital (0.3-10.0 mg/kg, cumulative IP) dose-dependently substituted for ethanol. When ethanol (10% v/v) was added to the sucrose reinforcer, MK-801 and pentobarbital dose-response curves were shifted significantly to the left. CONCLUSIONS: Self-administered ethanol substituted for and potentiated the stimulus effects of investigator-administered ethanol, suggesting that the discriminative stimulus effects of self-administered ethanol are similar to those produced by investigator-administered ethanol. Self-administered ethanol enhanced the ethanol-like discriminative stimulus effects of MK-801 and pentobarbital, which suggests that the discriminative stimulus effects of self-administered ethanol are mediated by NMDA and GABAA receptors.     

An investigation of endogenous neuroactive steroid-induced modulation of ethanol's discriminative stimulus effects

Neuroactive steroids exhibit rapid non-genomic central nervous system activity, including modulation of GABAA and NMDA receptors, two receptors known to mediate the effects of methanol. Neuroactive steroids that modulate GABAA receptors in a manner similar to ethanol were expected to potentiate the discriminative stimulus and/or rate-suppressing effects of ethanol. In contrast, neuroactive steroids that modulate GABAA or NMDA receptors in a manner opposite to ethanol were hypothesized to attenuate the effects of ethanol. Adult male rats were trained to discriminate 1.0 or 2.0 g/kg ethanol (i.g.) from water (i.g.). Animals were pretreated with subthreshold doses (i.p.) of ethanol and neuroactive steroids and exposed to an acute stressor (n = 5), prior to conducting ethanol cumulative-dosing (i.p.) tests. Only ethanol and 3 beta, 5 beta-P pretreatments potentiated the discriminative stimulus effects of ethanol. None of the six neuroactive steroid manipulations attenuated the effects of ethanol. These results demonstrate that a neuroactive steroid, endogenous in humans, can enhance the interoceptive effects of ethanol.     

Brain ethanol concentrations and ethanol discrimination in rats: effects of dose and time

Rationale In drug discrimination procedures, the substitution pattern for ethanol of various receptor ligands is dependent upon ethanol training dose, presumably reflecting functionally different concentrations of ethanol in the brain. The discriminative stimulus effects of ethanol are also time-dependent, although very few studies have investigated the time course of ethanol discriminations. Objectives The present study investigated the relationship between brain ethanol concentrations (BrEC), as measured by intracranial microdialysis of the nucleus accumbens, and the time course of ethanol discriminative effects. Methods Two groups of rats were trained to discriminate either 1.0 or 2.0 g/kg ethanol from water following a 30-min post-ethanol interval. Following training, the time course of the discriminative stimulus was assessed using a series of abbreviated testing trials at 20-min intervals for 5 h after the administration of various ethanol doses (0, 0.5, 1.0 and 2.0 g/kg). The rats were then fitted with microdialysis probes and the time course of BrECs were determined under conditions similar to the behavioral assessments. Results BrECs were significantly above zero at 4 min post-gavage and attained peak concentrations of 16 mmol/l, 24 mmol/l and 42 mmol/l at 9 min, 16 min and 95 min after IG administration of 0.5, 1.0 and 2.0 g/kg ethanol, respectively. BrECs were similar in ethanol-naive and ethanol-trained rats, indicating a lack of pharmacokinetic tolerance under these discrimination procedures. The discriminative stimulus effects of ethanol were dose- and time-dependent, with a threshold concentration of approximately 12 mmol/l achieved at 5 min after 1.0 g/kg ethanol gavage in rats trained to discriminate 1.0 g/kg ethanol. Acute tolerance to the discriminative stimulus effects of ethanol was evident from BrECs 2–5 h post-ethanol gavage. Conclusions Ethanol given intragastrically results in a rapid increase in BrEC, independent of ethanol exposure history. The discriminative stimulus effects of ethanol trained at 30 min post-gavage reflect a specific range of BrEC, and depend on the training dose. These data suggest that qualitatively different stimulus effects of ethanol reflect both different ranges of BrEC, as well as within dose acute tolerance to the discriminative stimulus effects.     

Pharmacological and anatomical evidence for an interaction between mGluR5- and GABA(A) alpha1-containing receptors in the discriminative stimulus effects of ethanol.

The discriminative stimulus properties of ethanol are mediated in part by positive modulation of GABA(A) receptors. Recent evidence indicates that metabotropic glutamate receptor subtype 5 (mGluR5) activity can influence GABA(A) receptor function. Therefore, the purpose of this work was to examine the potential involvement of mGluR5 in the discriminative stimulus effects of ethanol. In rats trained to discriminate ethanol (1 g/kg, intragastric gavage (i.g.)) from water, 2-methyl-6-(phenylethyl)-pyridine (MPEP) (1-50 mg/kg, i.p.) a selective noncompetitive antagonist of the mGlu5 receptor did not produce ethanol-like stimulus properties. However, pretreatment with MPEP (30 mg/kg) reduced the stimulus properties of ethanol as indicated by significant reductions in ethanol-appropriate responding, specifically at 0.5 and 1 g/kg ethanol, and a failure of ethanol test doses (1 and 2 g/kg) to fully substitute for the ethanol training dose. To test whether mGluR5 antagonism altered the GABA(A) receptor component of the ethanol stimulus, the ability of MPEP to modulate pentobarbital and diazepam substitution for ethanol was assessed. Pentobarbital substitution (1-10 mg/kg, i.p.) for ethanol was not altered by MPEP pretreatment. However, MPEP pretreatment inhibited the ethanol-like stimulus properties of diazepam (5 mg/kg, i.p.). To examine a potential anatomical basis for these pharmacological findings, expression patterns of mGluR5- and benzodiazepine-sensitive GABA(A) alpha1-containing receptors were examined by dual-label fluorescent immunohistochemistry with visualization by confocal microscopy. Results indicated that mGluR5- and GABA(A) alpha1-containing receptors were both coexpressed in limbic brain regions and colocalized on the same cells in specific brain regions including the amygdala, hippocampus, globus pallidus, and ventral pallidum. Together, these findings suggest an interaction between mGluR5- and benzodiazepine-sensitive GABA(A) receptors in mediating ethanol discrimination.     

Interactions between Δ<Superscript>9</Superscript>-tetrahydrocannabinol and <Emphasis Type="Bold">μ</Emphasis> opioid receptor agonists in rhesus monkeys: discrimination and antinociception

RATIONALE: Opioid receptor agonists can enhance some effects of cannabinoid receptor agonists, and cannabinoid receptor agonists can enhance some effects of opioid receptor agonists; however, the generality of these interactions is not established. OBJECTIVE: This study examined interactions between the discriminative stimulus and antinociceptive effects of mu opioid receptor agonists and Delta(9)-tetrahydrocannabinol (THC) in rhesus monkeys. RESULTS: Neither heroin nor morphine (intravenous (i.v.) or subcutaneous (s.c.)) altered the discriminative stimulus effects of THC in monkeys (n = 5) discriminating 0.1 mg/kg THC i.v. In contrast, THC (s.c.) markedly attenuated the discriminative stimulus effect of morphine and heroin in nondependent monkeys (n = 4) discriminating 1.78 mg/kg morphine s.c. Doses of THC that attenuated the discriminative stimulus effects of morphine in nondependent monkeys failed to modify the discriminative stimulus effects of morphine in morphine-dependent (5.6 mg/kg/12 h) monkeys (n = 4) discriminating 0.0178 mg/kg naltrexone s.c. THC also failed to modify the discriminative stimulus effects of naltrexone in morphine-dependent monkeys or the effects of midazolam in monkeys (n = 4) discriminating 0.32 mg/kg midazolam s.c. Doses of THC (s.c.) that attenuated the discriminative stimulus effects of morphine in nondependent monkeys enhanced the antinociceptive effects of morphine (s.c.) in nondependent monkeys. While mu receptor agonists did not alter the discriminative stimulus effects of THC, THC altered the effects of mu receptor agonists in a context-dependent manner. CONCLUSION: That the same doses of THC enhance, attenuate, or do not affect morphine, depending on the condition, suggests that attenuation of morphine by THC can result from perceptual masking rather than common pharmacodynamic mechanisms or pharmacokinetic interactions.     

Pharmacological analysis of the heterogeneous discriminative stimulus effects of ethanol in rats using a three-choice ethanol-dizocilpine-water discrimination

The present study used a three-choice operant drug discrimination procedure to determine if NMDA-mediated discriminative stimulus effects could be separated from other stimulus effects of 2.0 g/kg ethanol. Adult male Long-Evans rats (n = 7) were trained to discriminate dizocilpine (0.17 mg/kg; IG) from ethanol (2.0 g/kg; IG) from water (4.7 ml; IG) using food reinforcement. Substitution tests were conducted following administration of the GABA_A positive modulators allopregnanolone (5.6–30.0 mg/kg; IP), diazepam (0.3–10.0 mg/kg; IP) and pentobarbital (1.0–21.0 mg/kg; IP), the non-competitive NMDA antagonist phencyclidine (0.3–10.0 mg/kg; IP), the 5-HT₁ agonists TFMPP (0.3–5.6 mg/kg; IP) and RU 24969 (0.3–3.0 mg/kg; IP), and isopropanol (0.10–1.25 g/kg; IP). Allopregnanolone, diazepam and pentobarbital substituted completely (>80%) for ethanol. Isopropanol partially (77%) substituted for ethanol. Phencyclidine substituted completely for dizocilpine. RU 24969 and TFMPP did not completely substitute for either training drug, although RU 24969 partially (62%) substituted for ethanol. Successful training of this three-choice discrimination indicates that the discriminative stimulus effects of 0.17 mg/kg dizocilpine were separable from those of 2.0 g/kg ethanol. The finding that attenuation of NMDA-mediated effects of ethanol occurred without altering significantly GABA_A- and 5-HT₁-mediated effects suggests that the NMDA component may be independent of other discriminative stimulus effects of 2.0 g/kg ethanol. Received: 18 November 1997 / Final version: 10 February 1998     

Combined discriminative stimulus effects of midazolam with other positive GABA<Subscript>A</Subscript> modulators and GABA<Subscript>A</Subscript> receptor agonists in rhesus monkeys

Rationale Interactions among compounds at GABA_A receptors might have important implications for the therapeutic and other effects of positive GABA_A modulators (e.g. benzodiazepines).Objectives This study examined whether a midazolam discriminative stimulus is modified by GABA_A agonists that act at sites other than benzodiazepine sites.Methods Rhesus monkeys discriminating midazolam (0.32 mg/kg SC) received direct-acting GABA_A receptor agonists (e.g. muscimol and gaboxadol), an indirect-acting GABA_A receptor agonist (progabide), ethanol, another benzodiazepine (triazolam), a barbiturate (pentobarbital), or a neuroactive steroid (pregnanolone) alone and in combination with midazolam.Results When administered alone, triazolam (0.1 mg/kg), pentobarbital (17.8 mg/kg) and pregnanolone (5.6 mg/kg) occasioned high levels of midazolam lever responding, ethanol (1–3 g/kg) occasioned intermediate levels of midazolam lever responding, and muscimol (0.32–1 mg/kg), gaboxadol (3.2–10 mg/kg) and progabide (10–32 mg/kg) occasioned low levels of midazolam lever responding. When combined with less-than-fully effective doses of midazolam, progabide (32 mg/kg) and ethanol (1 g/kg), but not muscimol and gaboxadol, enhanced the midazolam discriminative stimulus. Triazolam, pregnanolone and pentobarbital increased the potency of midazolam to occasion midazolam lever responding and the effects of these combinations were additive.Conclusions Direct-acting GABA_A receptor agonists are qualitatively different from positive GABA_A modulators in rhesus monkeys trained to discriminate midazolam. Although GABA_A receptor agonists and modulators can enhance the actions of benzodiazepines at the GABA_A receptor complex, the same drugs do not necessarily modify the discriminative stimulus effects of benzodiazepines. These results underscore the importance of the mechanism by which drugs alter Cl^– flux at the GABA_A receptor complex as a determinant not only of drug action but also of drug interaction and whether any particular drug enhances the behavioral effects of a benzodiazepine.     

Gamma-hydroxybutyric acid in male and female cynomolgus monkeys trained to discriminate 1.0 or 2.0 g/kg ethanol

Gamma-hydroxybutyric acid has been proposed as a pharmacotherapy for alcoholism in part based on similar discriminative stimulus effects as ethanol. To date, drug discrimination studies with gamma-hydroxybutyric acid and ethanol have exclusively used rodents or pigeons as subjects. To evaluate possible differences between species, sex, and route of administration, this study investigated the substitution of gamma-hydroxybutyric acid (intragastrically or intramuscularly) for ethanol 30 or 60 min after administration in male (n=6) and female (n=7) cynomolgus monkeys trained to discriminate 1.0 and 2.0 g/kg ethanol. At least one dose of gamma-hydroxybutyric acid completely or partially substituted for ethanol in three of the 13 monkeys tested, with each case occurring in female monkeys. Ethanol-appropriate responding did not increase with gamma-hydroxybutyric acid dose. Monkeys were more sensitive to the response rate decreasing effects of gamma-hydroxybutyric acid administered intramuscularly compared with intragastrically. The lack of gamma-hydroxybutyric acid substitution for ethanol suggests that these drugs have different receptor bases for discrimination. Furthermore, the data do not strongly support shared discriminative stimulus effects as the rationale for gamma-hydroxybutyric acid pharmacotherapy for alcoholism.     

Ethanol effects in pigeons trained to discriminate MK-801, PCP or CGS-19755

The non-competitive N-methyl-D-aspartate (NMDA) antagonists MK-801, PCP and ketamine have recently been found to produce full drug-appropriate responding in pigeons trained to ethanol (1.5g/kg) in a two-key operant drug discrimination procedure. In the present study, ethanol (0.56-3.2g/kg i.g.) was administered to pigeons trained to discriminate MK-801 (0.18mg/kg, n = 5), PCP (1.0mg/kg, n = 4) or the competitive NMDA antagonist CGS-19755 (1.8mg/kg, n = 4) from vehicle. Up to doses that caused large reductions in response rates, ethanol produced only vehicle-appropriate responding in the pigeons trained to PCP and only low levels of drug-appropriate responding in pigeons trained to MK-801 and CGS-19755. The present results suggest there could be asymmetric generalization between the discriminative stimulus effects of i.g. ethanol and NMDA antagonists.     

Sex and menstrual cycle effects on progressive ratio measures of cocaine self-administration in cynomolgus monkeys.

Fluctuations in ovarian steroid hormones across the menstrual/estrous cycle influence the abuse-related effects of acute cocaine administration in women and chronic cocaine self-administration in rodents, but there have been no comparable studies in non-human primates. The interactions among sex, menstrual cycle phase, and cocaine self-administration (0.0032, 0.01, and 0.032 mg/kg/injection (inj)) under a progressive ratio schedule were investigated in four female and two male cynomolgus monkeys. Females were given unrestricted access to cocaine across 54 menstrual cycles, and males were studied over 23 pseudo-cycles of 30 days duration. Ovulatory cycles were defined by luteal phase elevations in progesterone and 44 cycles were ovulatory. During ovulatory menstrual cycles, females reached significantly higher progressive ratio break points than males at all three unit doses of cocaine (P<0.001). During anovulatory cycles, females also reached significantly higher break points than males for 0.032 mg/kg/inj cocaine (P<0.01). Progressive ratio break points for cocaine (0.01 and 0.032 mg/kg/inj) did not vary significantly as a function of ovarian steroid hormone levels during the follicular and the luteal phase of ovulatory menstrual cycles, or during anovulatory cycles. Progressive ratio break points for 0.0032 mg/kg/inj cocaine were significantly higher during the follicular phase than during the late luteal phase (P<0.05-0.001). There were no systematic changes in progressive ratio break points in male pseudo-cycles. Significant cocaine dose-related sex differences were observed, but no consistent changes in cocaine self-administration as a function of menstrual cycle phase, or levels of estradiol and progesterone, were detected in female cynomolgus monkeys.     

Discriminative stimulus effects of self-administered ethanol

The conditions under which a drug is administered often alter the behavioral effects of that drug. The present study examined the effect of changes in response dependence on the discriminative stimulus effects of ethanol. Six Long-Evans rats were trained to discriminate 1000 mg/kg, interperitoneal (i.p.) ethanol from saline. A dose-effect curve was then obtained using i.p. doses of 100, 320, 560, 1000, 1320 and 1560 mg/kg ethanol. Ethanol doses of 1000 mg/kg and greater produced more than 80% ethanol-lever selection. The rats were then trained to orally self-administer 10% weight/volume ethanol and tested to determine if self-administered oral ethanol would substitute for experimenter administered i.p. ethanol. A mean self-administered ethanol intake of 1114 mg/kg (+/-156 mg/kg) produced 83% ethanol-lever responding. Restricted access to 560 mg/kg of self-administered ethanol resulted in 33% i.p. ethanol-lever responding. Doses of 100 and 320 mg/kg ethanol did not substitute for i.p. ethanol. These data show that orally self-administered ethanol can produce discriminative stimulus effects that are similar to i.p. experimenter-administered ethanol and that orally self-administered ethanol produces centrally-mediated discriminative stimulus effects.     

Discriminative stimulus effects of ethanol: lack of interaction with taurine

Recent microdialysis studies showed that ethanol administration increases the release of taurine in various rat brain regions, and it was suggested that this increase in extracellular concentrations of taurine might mediate some of the neurochemical effects of ethanol. Previous drug discrimination studies showed that positive modulators of the GABA(A) receptor consistently substituted for ethanol discriminative stimulus effects. Since taurine is also believed to modulate GABA(A) receptor activity, this study addressed the hypothesis that taurine mediates the discriminative stimulus effects of ethanol due to GABA(A) activation. Male Long-Evans rats were trained to discriminate water from either 1 or 2 g/kg ethanol. In a first experiment, various taurine doses (0-500 mg/kg) were tested to investigate whether taurine substitutes for ethanol. In a second experiment, rats were pretreated with either 500 mg/kg taurine or an equivalent volume of saline before testing for ethanol discrimination with various ethanol doses (0-2.0 g/kg). The results showed that taurine does not substitute for ethanol at any tested doses. In addition, taurine pretreatments failed to modify the dose-response curve for ethanol discrimination. These results demonstrate that taurine is not directly involved in mediating the discriminative stimulus effects of ethanol. It is therefore very unlikely that the brain release of taurine observed after ethanol administration is implicated in the major pharmacological effects of ethanol, i.e. positive modulation of GABA(A) receptor, that mediate its discriminative stimulus effects.