Effects of an ethanol-paired conditioned stimulus on responding for ethanol suppressed by a conditioned-taste-aversion.

Ethanol-Paired Conditioned Stimuli (CS) can increase ethanol-responding either in extinction or occurring at low rates late in a session. To examine the generality of CS-induced increases in ethanol-responding, we examined whether a CS could increase responding suppressed by Conditioned-Taste-Aversion (CTA), which presumably suppresses responding by changing ethanol's valence from positive to negative. Rats were trained to respond for ethanol under a Random Interval (RI) schedule. We then removed the lever and paired Random-Time ethanol deliveries with illumination of a stimulus light (i.e., CS) for 10 sessions. Results were compared with a Truly Random Control group, in which the light and ethanol deliveries occurred independently. In a subsequent experiment, rats were treated similarly, except the light served as a discriminative stimulus, as the lever was extended and ethanol deliveries were available under a RI during light presentations. After this training, the lever was returned and rats again responded for ethanol. Subsequently, sessions were followed by LiCl administration. When responding reached low levels, LiCl administration stopped and the light was occasionally illuminated during the session. Responding during the light presentation was compared to responding during the period preceding light presentation. Responding partially recovered across 10 sessions and was greater during light presentations than in the period before it in all three groups. Increases were not reliably different between the groups, indicating that explanations for these increases such as CS-induced increases in motivation or approach toward the light are unlikely to be correct. The most likely explanation for these light-induced increases is that during sessions in which the light had been presented previously, LiCl had never been presented and thus, the light had come to signal that ethanol was safe to drink.

Delayed emergence of methamphetamine's enhanced cardiovascular effects in nonhuman primates during protracted methamphetamine abstinence.

BACKGROUND: Methamphetamine abuse is linked with brain abnormalities, but its peripheral effects constitute an integral aspect of long-term methamphetamine use. METHODS: Eight male rhesus monkeys with long histories of intravenous methamphetamine self-administration were evaluated 1 day, and 1, 4, 12, 26, and 52 weeks after their last methamphetamine self-administration session. On test days, isoflurane-anesthetized animals received a 0.35 mg/kg IV methamphetamine challenge. A control group consisted of 10 age and gender matched drug naïve monkeys. Cardiovascular responses to methamphetamine were followed for 2.5h. Echocardiograms were acquired at 3 and 12 months of abstinence and in the control animals. RESULTS: No pre-methamphetamine baseline differences existed among 7 physiological measures across all conditions and controls. As expected, methamphetamine increased heart rate and blood pressure in controls. However, immediately following the self-administration period, the blood pressure response to methamphetamine challenge was reduced when compared to control monkeys. The peak and 150-min average heart rate increases, as well as peak blood pressure increases following methamphetamine were significantly elevated between weeks 12 to 26 of abstinence. These data indicate the development of tolerance followed by sensitization to methamphetamine cardiovascular effects. Echocardiography demonstrated decreased left ventricular ejection fraction and cardiac output at 3 months of abstinence. Importantly, both cardiovascular sensitization and cardiotoxicity appeared to be reversible as they returned toward control group levels after 1 year of abstinence. CONCLUSIONS: Enhanced cardiovascular effects may occur after prolonged abstinence in addicts relapsing to methamphetamine and may underlie clinically reported acute cardiotoxic events.

The dense core vesicle protein IA-2, but not IA-2ß, is required for active avoidance learning.

The islet-antigens IA-2 and IA-2ß are major autoantigens in type-1 diabetes and transmembrane proteins in dense core vesicles (DCV). Recently we showed that deletion of both IA-2 and IA-2ß alters the secretion of hormones and neurotransmitters and impairs behavior and learning. The present study was designed to evaluate the contribution to learning of each of these genes by using single knockout (SKO) and double knockout (DKO) mice in an active avoidance test. After 5 days of training, wild-type (WT) mice showed 60-70% active avoidance responses, whereas the DKO mice showed only 10-15% active avoidance responses. The degree of active avoidance responses in the IA-2 SKO mice was similar to that of the DKO mice, but in contrast, the IA-2ß SKO mice behaved like WT mice showing 60-70% active avoidance responses. Molecular studies revealed a marked decrease in the phosphorylation of the cAMP response element-binding protein (CREB) and Ca(2+)/calmodulin-dependent protein kinase II (CAMKII) in the striatum and hippocampus of the IA-2 SKO and DKO mice, but not in the IA-2ß SKO mice. To evaluate the role of CREB and CAMKII in the SKO and DKO mice, GBR-12909, which selectively blocks the dopamine uptake transporter and increases CREB and CAMKII phosphorylation, was administered. GBR-12909 restored the phosphorylation of CREB and CAMKII and increased active avoidance learning in the DKO and IA-2 SKO to near the normal levels found in the WT and IA-2ß SKO mice. We conclude that in the absence of the DCV protein IA-2, active avoidance learning is impaired.

Effects of orbitofrontal cortex lesions on cocaine self-administration.

Previous research has implicated limbic and prefrontal cortical areas in the control of drug-seeking behavior. The present study examined the effects of orbitofrontal-cortex (OFC) lesions on acquisition, dose-dependence, within-session patterning, and reinstatement of cocaine self-administration. Rats received OFC or sham lesions before or after acquisition (0.3 mg/kg/injection, paired with a visual stimulus), then were tested with a range of doses (0, 0.03, 0.1, 0.3 and 1). Compared to controls, rats lesioned before acquisition acquired the behavior sooner, responded more at low doses, and responded more on the first day of extinction. Rats that were lesioned after acquisition showed an even larger increase in responding (approximately 250%) at the lowest dose, and they also showed increased timeout responding and drug "loading" at low doses. Pre-acquisition lesions were tested and found to have no effect on cocaine-induced reinstatement. In parallel experiments examining effects of pre-acquisition OFC lesions on food-reinforced responding, lesions did not alter acquisition, maintenance, or reinstatement, but accelerated the course of extinction. The increased cocaine self-administration seen in OFC-lesioned rats did not resemble the dysregulated drug intake observed in long-access models of addiction but might be due to impaired response inhibition or impaired tracking of the reward value of drug-related cues.

Signaling through the JAK/STAT pathway, recent advances and future challenges.

Investigation into the mechanism of cytokine signaling led to the discovery of the JAK/STAT pathway. Following the binding of cytokines to their cognate receptor, signal transducers and activators of transcription (STATs) are activated by members of the janus activated kinase (JAK) family of tyrosine kinases. Once activated, they dimerize and translocate to the nucleus and modulate the expression of target genes. During the past several years significant progress has been made in the characterization of the JAK/STAT signaling cascade, including the identification of multiple STATs and regulatory proteins. Seven STATs have been identified in mammals. The vital role these STATs play in the biological response to cytokines has been demonstrated through the generation of murine 'knockout' models. These mice will be invaluable in carefully elucidating the role STATs play in regulating the host response to various stresses. Similarly, the solution of the crystal structure of two STATs has and will continue to facilitate our understanding of how STATs function. This review will highlight these exciting developments in JAK/STAT signaling.

Interactions between cocaine and dopamine agonists on cardiovascular function in squirrel monkeys.

Conscious squirrel monkeys were treated i.v. with cocaine and various dopamine agonist drugs. Cocaine produced a dose-dependent increase in blood pressure, heart rate, and the rate-pressure product (RPP). The dopamine D1 receptor agonist (+/-)-6-chloro-3-allyl-1-phenyl-2,3,4,5-tetrahydro-1H-3-benzazepine hydrobromide (SKF 82958) produced effects comparable to cocaine. The D1 agonist (+/-)-6-chloro-7, 8-dihydroxy-1-phenyl-2,3,4,5-tetrahydro-1H-3-benzazepine hydrobromide (SKF 81297) also produced increases in blood pressure and heart rate but was much less potent than either cocaine or SKF 82958. The partial D1 agonist (+/-)-7,8-dihydroxy-3-allyl-1-phenyl-2,3,4,5-tetrahydro-1H-3-benzazepine hydrochloride (SKF 77434) did not significantly affect any cardiovascular parameters. The D2 agonist quinpirole slightly decreased blood pressure and increased heart rate. As such, the RPP only slightly increased. The selective dopamine uptake inhibitor 1-[2-[bis-(4-fluorphenyl)methoxy]ethyl]-4-(3-phenylpropyl)piperazine (GBR 12909) produced increases in blood pressure, heart rate, and RPP, but again these effects were smaller and only seen at doses higher than cocaine. Effects similar to those with GBR 12909 were seen with the dopamine autoreceptor antagonist cis-(+)-5-methoxy-1-methyl-2-(di-n-propylamino)tetralin (UH 232). The combination of GBR 12909, SKF 82958, or SKF 77434 with cocaine produced effects that were clearly subadditive. The effects of quinpirole in combination with cocaine were comparable to, or lower than, those of cocaine alone on blood pressure and RPP. The effects on heart rate were additive. Only UH 232 produced additive effects with cocaine for all three measures. As dopamine agonists have been proposed as potential treatments for cocaine abuse, these results suggest that dopamine D1 agonists and uptake inhibitors can be used safely in combination with cocaine. Caution may be warranted, however, with the use of dopamine autoreceptor antagonists in the treatment of cocaine abuse.

Effects of cocaine and cocaine metabolites on cardiovascular function in squirrel monkeys.

The effects of cocaine and the cocaine metabolites norcocaine, ecgonine methyl ester, benzoylecgonine and cocaethylene were evaluated in conscious squirrel monkeys for their effects on blood pressure and heart rate. Norcocaine, ecgonine methyl ester and benzoylecgonine are produced in vivo following cocaine use. Cocaethylene is produced in vivo following concurrent cocaine and alcohol use. Increases in both blood pressure and heart rate were observed following cocaine doses of 0.3-3.0 mg/kg. Ecgonine methyl ester and benzoylecgonine had no effect on either parameter up to doses of 10.0 mg/kg. Norcocaine increased blood pressure, but was less potent than cocaine. Norcocaine did not affect heart rate at doses up to 3.0 mg/kg. In contrast to the other metabolites, cocaethylene increased blood pressure and heart rate similarly to cocaine. These results suggest that ecgonine methyl ester and benzoylecgonine are devoid of cardiovascular effects at doses comparable to cocaine and would not be expected to contribute to cocaine's overall cardiovascular effects. Norcocaine's effect on blood pressure might contribute to the cardiovascular effects of cocaine, but this metabolite is produced only at low levels in vivo. The one metabolite that might be expected to contribute to cocaine's overall cardiovascular effect is cocaethylene, although the degree of this contribution is not clear.

Self-administration of remifentanil, an ultra-short acting opioid, under continuous and progressive-ratio schedules of reinforcement in rats.

RATIONALE: Remifentanil is a mu-opioid agonist with an exceptionally short duration of action. Evaluating remifentanil's effects within the self-administration model of drug abuse may provide insight into the relationship between a drug's duration of action and its effectiveness as a reinforcer. OBJECTIVES: This study was conducted to establish a dose-effect function for intravenous remifentanil self-administration in rats and to assess the drug's ability to maintain responding under intermittent schedules of reinforcement. METHODS: Inter-infusion intervals were recorded under two continuous-reinforcement schedules of remifentanil self-administration. In the fixed-dose schedule, the unit dose (0.25-32 micrograms/kg) was held constant within sessions but varied across sessions. In the variable-dose schedule, four different doses were self-administered in random order within each session. For comparison, heroin (6.25-125 micrograms/kg) was studied with the variable-dose schedule. Remifentanil and heroin were also compared under a progressive-ratio schedule of reinforcement in which the response requirements increased exponentially with each successive infusion until responding ceased within each session. RESULTS: Under the continuous-reinforcement schedules, inter-infusion intervals for both drugs increased monotonically as a function of dose, with the remifentanil curve being considerably flatter. Under the progressive-ratio schedule, breaking points varied as an inverted-U shaped function, and the highest breaking points maintained by remifentanil and heroin were similar. At the doses that maintained the highest breaking points under the progressive-ratio schedule, post-infusion pauses under the continuous-reinforcement schedule were about three times shorter with remifentanil than with heroin. CONCLUSIONS: Although rates of self-administration are clearly influenced by a drug's duration of action, the ability to maintain responding under intermittent schedules of reinforcement may be independent of duration of action.

Effects of compounding drug-related stimuli: escalation of heroin self-administration.

Previous experiments have demonstrated that presenting independently established discriminative stimuli in compound can substantially increase operant responding maintained by food reinforcement or shock avoidance. Recently, this phenomenon was also shown to occur with cocaine self-administration. The present study further assessed the generality of these stimulus-compounding effects by systematically replicating them with heroin self-administration. Rats' nose-poke responses produced intravenous heroin (0.025 mg/kg per infusion) on a variable-ratio schedule when either a tone or a light was present. In the absence of these stimuli, responding was not reinforced. Once discriminative control by the tone and light had been established, the stimuli were presented in compound under extinction (with heroin discontinued) or maintenance conditions (with heroin available during test-stimulus presentations). In extinction, the tone-light compound increased responding approximately threefold compared to tone or light alone. Under maintenance conditions, compounding increased heroin intake approximately twofold. These effects closely matched those obtained earlier with cocaine. This consistency across pharmacological classes and across drug and nondrug reinforcers further confirms that (a) self-administered drugs support conditioning and learning in a manner similar to that supported by other reinforcers; and (b) multiple drug-related cues interact in lawful and predictable ways to affect drug seeking and consumption.

Stimulus compounding enhances conditioned suppression produced by cocaine-paired stimuli.

When 2 stimuli that occasion cocaine self-administration are presented in compound, their ability to increase cocaine-reinforced operant responding is substantially enhanced. The goal of the present experiment was to determine whether stimulus compounding could produce analogous enhancements of a classically conditioned drug effect. Food-maintained responding in rats was suppressed by a tone and a light that were individually paired with response-independent cocaine (3 mg/kg iv). This conditioned suppression was significantly enhanced when the stimuli were presented together in a stimulus-compounding test. The magnitude of this enhancement was similar to that in previous studies in which responding was suppressed by shock-paired stimuli. These results demonstrate that multiple drug-related cues interact in a predictable manner to influence both operant and classically conditioned behavior.

Butyrylcholinesterase accelerates cocaine metabolism: in vitro and in vivo effects in nonhuman primates and humans.

Butyrylcholinesterase (BChE) is known to metabolize cocaine in humans. In the present study, three different experiments were performed to determine whether the addition of horse serum-derived BChE would accelerate the metabolism of cocaine. In the first experiment, the addition of BChE to squirrel monkey plasma in vitro reduced the half-life of cocaine by over 80%, decreased the production of the metabolic product benzoylecgonine, and increased ecgonine methyl ester formation. The effect of BChE on cocaine metabolism was reversed by a specific BChE inhibitor. In the second, in vivo, experiment, exogenously administered BChE reduced peak cocaine concentrations when given to anesthetized squirrel monkeys. Finally, incubation of cocaine with added BChE in human plasma in vitro resulted in a decrease in cocaine half-life similar to that observed with squirrel monkey plasma. The magnitude of the decrease in cocaine half-life was proportional to the amount of added BChE. Together, these results indicate that exogenously administered BChE can accelerate cocaine metabolism in such a way as to potentially lessen the behavioral and toxic effects of cocaine. Therefore, BChE may be useful as a treatment for cocaine addiction and toxicity.

Conditioned suppression with cocaine as the unconditioned stimulus.

A conditioned-suppression procedure was used to study drug conditioning using cocaine as the unconditioned stimulus (UCS). Rats were first trained to nose poke for food-reinforcement during daily 60-min sessions. At least 1 week following jugular vein catheterization, a 5-min tone-light compound stimulus was presented 30 min into the food-reinforcement session. Two minutes after the onset of the stimulus, either 0 (saline), 1.0, 3.0 or 5.6 mg/kg cocaine, was administered i.v. to separate groups of rats. For another group, the stimulus was presented, and the 5.6 mg/kg dose of cocaine was injected in an unpaired fashion (i.e., at different times). After 5 days of training a test was given with the tone-light stimulus presented alone. No disruption of responding during the tone-light stimulus was observed in the saline and 1.0 mg/kg cocaine groups or for the unpaired group. When the tone-light stimulus was paired with 5.6 mg/kg cocaine; however, it produced nearly a 50% reduction in responding, which then gradually extinguished when the stimulus was presented alone for 5 days. The 3.0 mg/kg cocaine group produced intermediate suppression. When the tone-light compound stimulus was shortened to 70 s and the interstimulus interval (ISI) was 0, 30, or 60 s in three separate groups of rats, the most robust conditioned suppression was observed at the 60 s ISI. Therefore, the conditioned suppression procedure, using 3.0 or 5.6 mg/kg i.v. cocaine doses as the UCS, produced robust conditioning effects comparable to other drugs and more conventional reinforcers. The conditioned suppression procedure may be a useful model for studying the classically conditioned effects of cocaine.

Dextromethorphan alters methamphetamine self-administration in the rat.

Various lines of evidence indicate that methamphetamine (METH) self-administration in rats is under dopaminergic control, and NMDA receptors have been shown to control the release of dopamine at its synapse. Consequently, the aim of this study was to observe the effects of dextromethorphan (DM), a non-competitive NMDA antagonist, in rats self-administering METH. The hypothesis was that acute pretreatment of DM (25 mg/kg) would alter response to METH. DM significantly altered self-administration by reducing the number of correct responses for three METH self-administration doses (0.05, 0.1, 0.25 mg/kg). The same pretreatment did not affect responding for food reward. These findings show that the DM was able to selectively alter METH self-administration.

Cocaine reward and MPTP toxicity: alteration by regional variant dopamine transporter overexpression.

Polygenic factors play important roles in animal models of substance abuse and susceptibility to dopaminergic neurodegeneration. Genetic factors are also likely to contribute to the etiology of human drug abuse disorders, and may alter human vulnerabilities to Parkinsonian neurodegeneration. The dopamine transporter (DAT; SLC6A3) is densely expressed by the dopaminergic midbrain neurons that play central roles in drug reward and is believed to be a primary site of action for cocaine reward. This transporter is necessary for the action of selective dopaminergic neurotoxins, and is uniquely expressed on neurons that are the primary targets of Parkinsonian neurodegeneration. To study possible influences of variant DAT expression on these processes, we have constructed transgenic mice (THDAT) in which tyrosine hydroxylase (TH) promoter sequences drive expression of a rat DAT cDNA variant, increase striatal DAT expression by 20-30%, and provide modest alterations in striatal levels of dopamine and its metabolites. THDAT mice habituate more rapidly to a novel environment than wildtype littermates. These animals display enhanced reward conferred by cocaine, as measured by conditioned place preference. However, locomotor responses to cocaine administration are similar to those of wildtype mice, except at high cocaine doses. THDAT mice display more than 50% greater losses of dopaminergic neurons following a course of MPTP treatment than do wildtype control mice. These results document a model for allelic variation at a gene locus that can exert significant effects in murine models of human substance abuse vulnerability and dopaminergic neurodegeneration.

Cardiovascular responses to cocaine self-administration: acute and chronic tolerance.

The nature and the mechanism of tolerance to the cardiovascular responses to cocaine self-administration were studied in rats implanted with telemetric devices. The first infusion of cocaine (1 mg/kg/infusion) on day 1 of testing produced rapid and brief increases in mean arterial blood pressure and in heart rate. Subsequent infusions in the same session produced minimal effects. With chronic testing, there were gradual reductions in cardiovascular responses to the first infusion in the daily session and enhancements in the daily cocaine intake, with significant changes occurring by the fourth week of the testing. Following saline extinction testing (for 5 days), reinstatement of cocaine during week 6 led to a partial and short lasting (

Heterozygous VMAT2 knockout mice display prolonged QT intervals: possible contributions to sudden death.

Heterozygous knockout (KO) mice with half of wild-type levels of expression of the vesicular monoamine transporter (VMAT2) can suddenly die in midlife. To seek mechanisms for this sudden death, we have examined electrocardiogram (ECG) data telemetered from freely-moving heterozygote and wild-type littermate mice. Many ECG parameters were indistinguishable in mice of these two strains. However, heterozygous mice displayed prolonged QT intervals. These findings provide likely contributions to differences in vulnerability to lethal arrhythmias in these animals, and a candidate gene for contributions to human interindividual differences in vulnerability to cardiac arrhythmias.

Comparison of cocaine and Na+ channel blockers on cardio-respiratory function in the rabbit.

The cardio-respiratory effects of cocaine were compared to various Na+ channel blocking Class I antiarrhythmics. Anesthetized rabbits were treated with various doses of either cocaine, quinidine, procainamide, lidocaine or flecainide. Cocaine produced clear decreases in blood pressure and heart rate. None of the other sodium channel blockers produced any change in blood pressure, and heart rate was decreased only slightly by procainamide and lidocaine. Cocaine produced larger increases in QRS duration than were observed for the four sodium channel blockers. All five drugs produced comparable increases in respiratory rate. Separate rabbits were pretreated with either the alpha-adrenoceptor antagonist phentolamine or the beta-adrenoceptor antagonist propranolol prior to cocaine. Phentolamine attenuated the blood pressure decrease following cocaine and propranolol attenuated the heart rate decrease following cocaine. These results suggest that the sodium channel blocking properties contribute only minimally to the overall effects of cocaine on blood pressure and heart rate. Further, the large effect of cocaine on QRS duration suggests that cocaine may act at sodium channels in a manner different from the other drugs. This unique effect of cocaine may contribute to the sudden death associated with cocaine use in some individuals.

The GABAB agonist baclofen modifies cocaine self-administration in rats.

The present experiments were conducted to examine further the ability of GABAergic compounds to modify the reinforcing effects of cocaine. In male Sprague-Dawley rats, behaviour was maintained under a fixed-ratio (FR)-5 with a 240 s timeout (TO) multiple schedule of cocaine (0.66 mg/kg/infusion) and food (45 mg) in 180 min sessions. Once rats could reliably nose-poke for comparable number of reinforcers over sessions, and demonstrate extinction selectively for each reinforcer, pretreatments were examined. The GABAB agonist baclofen (2.5-10.0 mg/kg i.p.) administered 30 min before the start of the session, dose-dependently attenuated behaviour maintained by cocaine, whereas responding maintained by food was marginally decreased. 4,5,6,7-Tetrahydroisoxazolo [5,4-c]pyridin-3-ol hydrochloride (THIP) (2-8 mg/kg i.p.) a GABAA agonist failed to modify cocaine-maintained or food-maintained responding. In another experiment, behaviour maintained by cocaine (0.66 mg/kg/infusion) under an FR-5 TO 20 s schedule of reinforcement was attenuated by intra-nucleus accumbens (100-300 ng) or intra-ventral tegmental area (300 ng) administration of baclofen. Similar doses of baclofen administered into the striatum had no effect. Repeated systemic pretreatment for 3 days with baclofen (2.5 mg/kg i.p.) produced gradual decreases in cocaine-maintained responding. A larger dose (5.0 mg/kg i.p.) tested repeatedly for 5 days decreased the number of cocaine injections self-administered. The present findings demonstrate that modulation of GABA systems may have therapeutic potential for the treatment of psychomotor stimulant abuse.

Serotonin-4 receptor antagonists reverse cocaine-induced cardiac arrhythmia.

The effect of the 5-HT4 antagonists GR113808A and GR125487D on cocaine-induced cardiac arrhythmia was examined in the rat. Cocaine alone, given i.v. at a rate of 2 mg/kg every 5 min, produced an initial increase in blood pressure followed by a severe drop in pressure and bradycardia. Sustained ventricular fibrillation was noted after 6-12 mg/kg cocaine and quickly progressed to asystole. Pretreatment with both GR113808A and GR125487D antagonized these effects in a dose-dependent manner. When given after the onset of arrhythmia, both drugs reversed the cocaine-induced arrhythmia's. Thus, the 5-HT4 antagonists may be useful in the treatment of cocaine toxicity.