High rates of midazolam self-administration in squirrel monkeys.

Although benzodiazepines are frequently abused by humans, they usually maintain lower rates of self-administration behavior in laboratory animals than other drugs of abuse such as psychomotor stimulants or barbiturates. In the present study, intravenous (i.v.) self-administration of the short-acting benzodiazepine midazolam was evaluated in squirrel monkeys. Monkeys (n = 3) initially self-administered the short-acting barbiturate methohexital (100 microg/kg/injection) during daily 1-hour sessions under a fixed-ratio 10, 60 s time-out, schedule of i.v. drug injection. This dose of methohexital maintained high rates of responding averaging 0.9 responses per second. Midazolam was then substituted for methohexital, and midazolam dose was subsequently varied from 0.3 to 3 microg/kg/injection. Each dose of midazolam was tested for five consecutive sessions and each unit dose condition was separated by five sessions of vehicle extinction. The midazolam dose-response function was an inverted U-shaped curve, with maximal rates of self-administration responding averaging 1.01 responses/second at a dose of 1 microg/kg/injection (an average of 48 injections per 1-hour session). The rates and fixed-ratio patterns of responding maintained by self-administration of midazolam in the present study were comparable to the rates and patterns of responding maintained in squirrel monkeys by self-administration of other drugs of abuse, including cocaine, amphetamine, nicotine and tetrahydrocannabinol, under similar experimental conditions.

Lobeline inhibits the neurochemical and behavioral effects of amphetamine.

Lobeline interacts with the dopamine transporter and vesicular monoamine transporter, presynaptic proteins involved in dopamine storage and release. This study used rodent models to assess lobeline-induced inhibition of the neurochemical and behavioral effects of amphetamine. Rat striatal slices were preloaded with [(3)H]dopamine and superfused with lobeline for 30 min, and then with d-amphetamine (0.03-3.00 microM) plus lobeline for 60 min. As predicted, lobeline (1-3 microM) intrinsically increased (3)H overflow but did not inhibit d-amphetamine-evoked (3)H overflow. Consequently, the effect of lobeline on d-amphetamine-evoked endogenous dopamine and dihydroxyphenylacetic acid overflow was assessed. Lobeline (0.1-1 microM) inhibited d-amphetamine (1 microM)-evoked dopamine overflow but did not inhibit electrically evoked (3)H overflow, indicating a selective inhibition of this effect of d-amphetamine. To determine whether the in vitro results translated into in vivo inhibition, the effect of lobeline (0.3-10.0 mg/kg) pretreatment on d-amphetamine (0.1-1.0 mg/kg)-induced hyperactivity in rats and on d-methamphetamine (0.1-3.0 mg/kg)-induced hyperactivity in mice was determined. Doses of lobeline that produced no effect alone attenuated the stimulant-induced hyperactivity. Lobeline also attenuated the discriminative stimulus properties of d-methamphetamine in rats. Acute, intermittent, or continuous in vivo administration of lobeline (1-30 mg/kg) did not deplete striatal dopamine content. Thus, lobeline inhibits amphetamine-induced neurochemical and behavioral effects, and is not toxic to dopamine neurons. These results support the hypothesis that lobeline redistributes dopamine pools within the presynaptic terminal, reducing pools available for amphetamine-induced release. Collectively, the results support a role for lobeline as a potential pharmacotherapy for psychostimulant abuse.

Failure of baclofen to modulate discriminative-stimulus effects of cocaine or methamphetamine in rats.

The effects of baclofen, an agonist at GABA(B) receptors, were evaluated in rats trained to discriminate 10.0 mg/kg of cocaine or 1. 0 mg/kg of methamphetamine from saline under a fixed-ratio 10 schedule of food delivery. Baclofen (0.56-5.6 mg/kg) did not attenuate the discriminative-stimulus effects of the training dose of cocaine or methamphetamine and did not produce any shift in the cocaine and methamphetamine dose-response curves. Higher baclofen doses (3.0-5.6 mg/kg), however, markedly depressed or completely eliminated food-maintained responding. This suggests that previous reports of baclofen-induced decreases in cocaine self-administration behavior are connected, in some way, with either a general suppression of appetitive behaviors or with sedation and locomotor depression, rather than with any pharmacologically specific effect, and not accompanied by changes in subjective response to cocaine, as assessed by discriminative-stimulus measures.

Self-administration behavior is maintained by the psychoactive ingredient of marijuana in squirrel monkeys.

Many attempts to obtain reliable self-administration behavior by laboratory animals with delta-9-tetrahydrocannabinol (THC), the psychoactive ingredient in marijuana, have been unsuccessful. Because self-administration behavior has been demonstrated in laboratory animals for almost all other psychoactive drugs abused by humans, as well as for nicotine, the psychoactive ingredient in tobacco, these studies would seem to indicate that marijuana has less potential for abuse. Here we show persistent intravenous self-administration behavior by monkeys for doses of THC lower than doses used in previous studies, but comparable to doses in marijuana smoke inhaled by humans.

Dopaminergic involvement in the discriminative-stimulus effects of methamphetamine in rats.

RATIONALE: Dopamine plays a major role in the behavioral effects of methamphetamine. OBJECTIVE: In the present experiments, the effects of different dopaminergic agonists, antagonists, and uptake inhibitors were evaluated in rats discriminating methamphetamine from saline. METHODS: In Sprague-Dawley rats trained to discriminate 1.0 mg/kg methamphetamine, i.p., from saline under a fixed-ratio schedule of food delivery, the ability of various dopaminergic agonists and uptake inhibitors to substitute for methamphetamine was evaluated. Subsequently, the ability of various dopaminergic antagonists to block the discriminative-stimulus effects of the training dose of methamphetamine was tested. RESULTS: The dopamine-uptake inhibitors cocaine (10.0 mg/kg), nomifensine (3.0 mg/kg), GBR-12909 (18.0 mg/kg), and bupropion (30.0 mg/kg) fully substituted for the 1.0 mg/kg training dose of methamphetamine. Chloro-APB (SKF-82958), a full agonist at D1 dopamine receptors, produced about 85% methamphetamine-appropriate responding, but the dose required (0.18 mg/kg) markedly decreased rates of responding. Chloro-PB (SKF-81297), another agonist at D1 receptors with a lower intrinsic activity than Chloro-APB, produced only partial generalization (maximum about 55%) at a dose of 1.0 mg/kg. Full substitution for the training dose of methamphetamine was observed with 0.03 mg/kg of the D2 agonist NPA and 0.56 mg/kg of the D3/D2 agonist 7-OH-DPAT. Both NPA and 7-OH-DPAT markedly decreased rates of responding at these doses. The D1 antagonist SCH-23390 (0.056 mg/kg), the D2 antagonist spiperone (0.18 mg/kg), and the mixed D1, D2 antagonist cis-flupenthixol (0.56 mg/kg) all completely blocked the discriminative-stimulus actions of the training dose of methamphetamine. CONCLUSIONS: The present findings in rats support previous research findings in other species indicating a major role of dopamine in the discriminative-stimulus effects of methamphetamine. These findings further indicate involvement of dopamine uptake sites as well as D1 and D2 receptors.

Effects of various serotonin agonists, antagonists, and uptake inhibitors on the discriminative stimulus effects of methamphetamine in rats.

Neurochemical studies indicate that methamphetamine increases central serotonin (5-HT) levels more markedly than other psychomotor stimulants such as amphetamine or cocaine. In the present study, we investigated 5-HT involvement in the discriminative stimulus effects of methamphetamine. In Sprague-Dawley rats trained to discriminate 1.0 mg/kg methamphetamine i.p. from saline under a fixed-ratio schedule of food presentation, the effects of selected 5-HT agonists, antagonists, and uptake inhibitors were tested. Fluoxetine (1.8-18.0 mg/kg) and clomipramine (3.0-18.0 mg/kg), selective serotonin uptake inhibitors, did not produce any methamphetamine-like discriminative stimulus effects when administered alone, but fluoxetine (5.6 mg/kg), unlike clomipramine (5.6 mg/kg), significantly shifted the methamphetamine dose-response curve to the left. Both 8-hydroxy-2-dipropylaminotetralin (0.03-0.56 mg/kg), a full agonist, and buspirone (1.0-10.0 mg/kg), a partial agonist at 5-HT(1A) receptors, partially generalized to the training dose of methamphetamine but only at high doses that decreased response rate. This generalization was antagonized by the coadministration of the 5-HT(1A) antagonist WAY-100635 (1.0 mg/kg). WAY-100635 (1.0 mg/kg) also partially reversed the leftward shift of the methamphetamine dose-response curve produced by fluoxetine. (+/-)-1-(2, 5-Dimethoxy-4-iodophenyl)-2-aminopropane (0.3 mg/kg), a 5-HT(2A/2C) agonist, shifted the methamphetamine dose-response curve to the left, and this leftward shift was antagonized by the coadministration of ketanserin (3.0 mg/kg), a 5-HT(2A/2C) antagonist. Ketanserin (3.0 mg/kg) also produced a shift to the right in the methamphetamine dose-response curve and completely reversed the leftward shift in the methamphetamine dose-response curve produced by fluoxetine. In contrast, tropisetron (1.0 mg/kg), a 5-HT(3) antagonist, produced a shift to the left of the methamphetamine dose-response curve, and this effect of tropisetron was antagonized by the coadministration of m-chlorophenyl-biguanide (1.8 mg/kg), a 5-HT(3) agonist. The present data suggest that the 5-HT system plays a modulatory role in the discriminative stimulus effects of methamphetamine. These effects appear to be mediated through 5-HT release and blockade of reuptake and subsequent activation of 5-HT(2A/2C) receptors, with limited involvement of other 5-HT receptor subtypes.

Noradrenergic modulation of the discriminative-stimulus effects of methamphetamine in rats.

RATIONALE: Neurochemical and clinical studies indicate involvement of noradrenergic (NE) neurotransmitter system in the actions of methamphetamine. OBJECTIVE: The present study investigated NE involvement in the discriminative-stimulus effects of methamphetamine. METHODS: In Sprague-Dawley rats trained to discriminate 1.0 mg/kg methamphetamine, IP, from saline under a fixed-ratio schedule of food presentation, effects of various NE agonists, antagonists and uptake inhibitors were tested. RESULTS: Desipramine (3.0-18.0 mg/kg) and nisoxetine (5.6-30.0 mg/kg), two selective NE-uptake inhibitors, did not significantly generalize to methamphetamine when administered alone, but 5.6 mg/kg desipramine and 10.0 mg/kg nisoxetine significantly shifted the methamphetamine dose-response curve to the left. The beta NE agonist, isoproterenol (0.56-3.0 mg/kg), and antagonist, propranolol (1.0-18.0 mg/kg), neither generalized to methamphetamine when given alone nor altered the discriminative-stimulus effects of methamphetamine when administered in combination. The alpha- NE agonist methoxamine (1.0-5.6 mg/kg) failed to generalize to the methamphetamine training stimulus. When given in combination with methamphetamine, the alpha-1 NE antagonist, prazosin (1.0 mg/kg), shifted the methamphetamine dose-response curve somewhat to the right and partially blocked the discriminative-stimulus effects of the 1.0 mg/kg training dose of methamphetamine, but these changes were not significant or dose-related, with further increases in prazosin dose (1.8-10.0 mg/kg) either producing similar or smaller changes. The alpha-2 NE agonist, clonidine, partially generalized to methamphetamine at doses of 0.1-0.18 mg/kg and increased drug-appropriate responding at lower doses of methamphetamine, but it partially blocked the discriminative-stimulus effects of higher 0.56-1.0 mg/kg doses of methamphetamine over the same dose range. The alpha-2 NE antagonist, yohimbine, also partially generalized to methamphetamine and blocked the discriminative-stimulus effects of the 1.0 mg/kg training dose of methamphetamine at doses of 5.6-10.0 mg/kg. A lower 3.0 mg/kg dose of yohimbine increased methamphetamine-appropriate responding when given together with low 0.1-0.3 mg/kg doses of methamphetamine. CONCLUSIONS: The present data suggest that the NE system plays a modulatory role in the discriminative-stimulus effects of methamphetamine. These effects appear to be mediated through NE uptake sites and alpha-2 receptors, with limited involvement of alpha- receptors and beta receptors.

Behavioral, toxic, and neurochemical effects of sydnocarb, a novel psychomotor stimulant: comparisons with methamphetamine.

Sydnocarb (3-(beta-phenylisopropyl)-N-phenylcarbamoylsydnonimine) is a psychostimulant in clinical practice in Russia as a primary and adjunct therapy for a host of psychiatric disorders, including schizophrenia and depression. It has been described as a stimulant with an addiction liability and toxicity less than that of amphetamines. The present study undertook to evaluate the psychomotor stimulant effects of sydnocarb in comparison to those of methamphetamine. Sydnocarb increased locomotor activity of mice with reduced potency (approximately 10-fold) and efficacy compared with methamphetamine. Sydnocarb blocked the locomotor depressant effects of haloperidol at doses that were inactive when given alone. The locomotor stimulant effects of both methamphetamine and sydnocarb were dose-dependently blocked by the dopamine D1 and D2 antagonists SCH 39166 and spiperone, respectively; blockade generally occurred at doses of the antagonists that did not depress locomotor activity when given alone. In mice trained to discriminate methamphetamine from saline, sydnocarb fully substituted for methamphetamine with a 9-fold lower potency. When substituted for methamphetamine under self-administration experiments in rats, 10-fold higher concentrations of sydnocarb maintained responding by its i.v. presentation. Sydnocarb engendered stereotypy in high doses with approximately a 2-fold lower potency than methamphetamine. However, sydnocarb was much less efficacious than methamphetamine in inducing stereotyped behavior. Both sydnocarb and methamphetamine increased dialysate levels of dopamine in mouse striatum; however, the potency and efficacy of sydnocarb was less than methamphetamine. The convulsive effects of cocaine were significantly enhanced by the coadministration of nontoxic doses of methamphetamine but not of sydnocarb. Taken together, the present findings indicate that sydnocarb has psychomotor stimulant effects that are shared by methamphetamine while demonstrating a reduced behavioral toxicity.

Effects of dopamine and serotonin-releasing agents on methamphetamine discrimination and self-administration in rats.

To analyze the involvement of dopamine (DA) and serotonin (5-HT) release in the stimulus properties of methamphetamine, two amphetamine analogs that selectively release either brain DA (phentermine) or 5-HT (fenfluramine) were tested for their ability to substitute for methamphetamine in rats discriminating methamphetamine (1.0 mg/kg) from saline. They were subsequently tested for their ability to alter IV methamphetamine (0.06 mg/kg per injection) self-administration in the same species when given as a pretreatment. The DA releaser phentermine, like methamphetamine itself, decreased methamphetamine self-administration (to 70% of baseline responding), but only at a dose of 3.0 mg/kg that fully generalized to the methamphetamine stimulus in the discrimination study. The 5-HT releaser fenfluramine attenuated methamphetamine self-administration to a much larger extent than phentermine (to 37% of baseline responding) at a dose of 1.8 mg/kg that did not generalize to methamphetamine and did not decrease rate of responding in the discrimination study. Tolerance developed to the inhibitory effect of 1.8 mg/kg fenfluramine on methamphetamine self-administration when it was given repeatedly over four consecutive daily sessions. The fenfluramine-induced decrease in methamphetamine self-administration was also attenuated when it was given together with the small 1.0 mg/kg dose of phentermine. These results suggest that DA release plays a dominant role in the discriminative stimulus effects of methamphetamine. However, stimulation of 5-HT release can strongly modify methamphetamine self-administration.

Potentiation of the discriminative-stimulus effects of methamphetamine by the histamine H3 receptor antagonist thioperamide in rats.

In order to assess the role of histamine H3 receptors in the discriminative-stimulus effects of methamphetamine, rats were trained to discriminate 1.0 mg/kg methamphetamine, i.p., from saline under a fixed-ratio schedule of food presentation. The histamine H3 receptor antagonist thioperamide (1.0 mg/kg s.c.), which facilitates histamine release, significantly shifted the methamphetamine dose-response curve to the left when tested together with different doses of methamphetamine and markedly extended the time-course of methamphetamine's discriminative-stimulus effects. The histamine H3 receptor agonist R-alpha-methylhistamine (3.0 mg/kg i.p.), which blocks histamine release, did not produce any effects when given alone, but it attenuated the effects of thioperamide on the methamphetamine dose-response curve when both drugs were given together. Thus, methamphetamine's discriminative-stimulus effects are markedly potentiated by the blockade of histamine H3 receptors by thioperamide. This is likely due to thioperamide's actions at histamine H3 autoreceptors on histaminergic neurons to facilitate release of histamine by methamphetamine or at histamine H3 heteroreceptors on other monoaminergic neurons (e.g., dopaminergic, serotonergic or noradrenergic) to facilitate release of other neurotransmitters.