Lack of operant ethanol self-administration in dopamine D2 receptor knockout mice

RATIONALE: Dopamine D2 receptors are postulated to play an important role in modulating the reinforcing effects of abused drugs including ethanol. OBJECTIVES: This experiment examined operant ethanol self-administration in dopamine D2 receptor knockout (KO) mice and wild-type (WT) mice using a continuous access procedure. METHODS: Adult male KO and WT mice were trained in 30-min sessions to perform a lever press response for access to 10% v/v ethanol. After training, the mice were placed in test chambers on a continuous (23 h/day) basis with access to food (one lever press, i.e., FR1), 10% v/v ethanol (four lever presses, i.e., FR4), and water from a sipper tube (phase 1). After 30 consecutive sessions, response patterns were determined for 0, 5, 10, 20 and 30% v/v ethanol (phase 2). Saccharin (0.2% w/v) was subsequently added to the ethanol mixture and responding was examined for 0, 5, 10 and 20% ethanol (phase 3). RESULTS: During phase 1, WT mice displayed higher ethanol-lever responding compared to KO mice. Food lever responding and water intake was the same in both genotypes. During phase 2, WT mice displayed concentration-dependent ethanol lever responding, whereas KO mice responded at low rates regardless of ethanol concentration. WT mice also responded more for food compared to KO mice. Each genotype showed similar water intakes except at the 20% ethanol concentration, where WT mice had lower intakes. During phase 3, WT mice continued to show higher responding for all concentrations including saccharin alone. WT mice also continued to respond more for food compared to KO mice, but drank less water. In each phase, WT mice displayed episodic (bout) responding on the ethanol lever. KO mice did not respond for ethanol in bouts. CONCLUSIONS: Reduced responding in the KO mice for several reinforcers including ethanol indicates a more general role for dopamine D2 receptors in motivated responding rather than a specific role in ethanol reinforcement.     

Motivational properties of ethanol in mice selectively bred for ethanol-induced locomotor differences

Ethanol-induced locomotor stimulation has been proposed to be positively correlated with the rewarding effects of ethanol (Wise and Bozarth 1987). The present experiments provided a test of this hypothesis using a genetic model. Three behavioral indices of the motivational effects of ethanol (drinking, taste conditioning, place conditioning) were examined in mice from two independent FAST lines, selectively bred for sensitivity to ethanol-induced locomotor stimulation, and mice from two independent SLOW lines, selectively bred for insensitivity to ethanol-induced locomotor stimulation. In a single-bottle procedure, mice were allowed access to drinking tubes containing ethanol in a concentration (1–12% v/v) that increased over 24 consecutive days. FAST mice consumed greater amounts of ethanol solution. In a two-bottle procedure, mice were allowed access to tubes containing water or various concentrations of ethanol (2–8% v/v) over 6 days. FAST mice generally showed greater preference for ethanol solutions than SLOW mice. In a conditioned taste aversion procedure, mice received access to saccharin solution followed by injection of 2.5 g/kg ethanol (IP). SLOW mice developed aversion to the saccharin flavor more readily than FAST mice. In a series of place conditioning experiments, tactile stimuli were paired with various doses of ethanol (0.8–2.0 g/kg). During conditioning, FAST mice showed locomotor stimulation after 1.0, 1.2 and 2.0 g/kg ethanol while SLOW mice did not. During testing, mice conditioned with 1.2 g/kg and 2.0 g/kg ethanol showed conditioned place preference, but there were no line differences in magnitude of preference. These results indicate that genetic selection for sensitivity to ethanol-stimulated activity has resulted in genetic differences in ethanol drinking and ethanol-induced conditioned taste aversion but not ethanol-induced conditioned place preference. Overall, these data provide mixed support for the psychomotor stimulant theory of addiction.     

Ethanol-conditioned place preference is reduced in dopamine D2 receptor-deficient mice

Pharmacological blockade studies have supported a role of the dopamine system in ethanol reward for many years, but receptor subtype specificity has been difficult to establish. Recently, genetically engineered mice lacking functional dopamine D2 receptors have been shown to drink less ethanol in a two-bottle choice task. To determine whether reduced ethanol intake reflects a reduction in ethanol reward, D2 receptor-deficient [knockout (KO)] mice were compared to heterozygous (HET) and wild-type (WT; C57BL/6xDBA/2 F2 hybrid) mice in a place conditioning task. Under conditions that produced reliable place preference in both WT and HET mice, KO mice showed no evidence of place conditioning, suggesting that D2 receptor gene inactivation reduced ethanol reward or the ability to learn about ethanol reward. Consistent with previous findings, this mutation also produced a gene dose-related reduction in basal activity levels. Moreover, KO and HET mice showed enhancement of ethanol-stimulated activity relative to WT mice. However, differences in basal and ethanol-stimulated activity did not explain the differences in place conditioning. Overall, this study strongly supports the conclusion that dopamine D2 receptors normally influence ethanol reward in mice.     

Locomotion and conditioned place preference produced by acute intravenous amphetamine: role of dopamine receptors and individual differences in amphetamine self-administration

 Although previous studies have shown that dopamine (DA) antagonists block amphetamine reward, these studies have utilized animal models that involve repeated exposures to amphetamine. The present investigation examined the effect of DA antagonists on single-trial conditioned place preference (CPP) produced by acute intravenous (IV) amphetamine in rats. In the first experiment, rats were prepared with a jugular catheter and then received an acute IV injection of amphetamine (0.1–3 mg/kg) paired with one compartment of a CPP apparatus. Relative to sham controls (no IV catheter), amphetamine produced a dose-dependent increase in locomotor activity and CPP. Two further experiments demonstrated that both effects of amphetamine were completely blocked by pretreating rats with the D₁ DA antagonist SCH-23390 (0.025 and 0.25 mg/kg) or the D₂ DA antagonist eticlopride (0.2 and 2 mg/kg) on the conditioning trial. In a final experiment, single-trial amphetamine CPP did not predict subsequent self-administration of IV amphetamine (10–50 μg/infusion) using either a fixed ratio (FR) 1 or progressive ratio (PR) schedule of reinforcement. Thus, while sharing a similar DA receptor mechanism, the present results indicate that single-trial CPP and self-administration are dissociable effects of IV amphetamine. Received: 22 April 1998 / Final version: 8 October 1998     

Comparative effects of ethanol on motor activity and operant behavior.

Ethanol effects on two types of motor activity and on lever responding for food delivered on a fixed-ratio 20 (FR 20) reinforcement schedule were compared using C57BL/6 (C57) mice. Low doses of ethanol (1-2 g/kg) transiently elevated horizontal activity and high doses (2.5 and 3.0 g/kg) reduced this behavior throughout testing with a slight recovery toward the end of a 16-min test period. In contrast, similar ethanol doses produced a monotonic reduction in both vertical activity and lever responding for food under the FR 20 schedule. The ethanol-induced reduction in FR 20 lever responding was less prolonged than the reduction in vertical activity but was more prolonged than the reduction in horizontal activity. Because vertical activity and lever responding for food delivered on the FR 20 schedule were never elevated, were reduced at ethanol doses that either stimulated or depressed horizontal activity, and were unaffected by low ethanol doses that did not affect horizontal activity, it is unlikely that either are sensitive to the stimulatory effects of ethanol. Accountable mechanisms for the different effects of ethanol on the three behaviors are unknown; however, the present study eliminates ethanol dose, postinjection time, testing time, and food deprivation condition as possible reasons for the differences.     

Intravenous nicotine self-administration and cue-induced reinstatement in mice: effects of nicotine dose, rate of drug infusion and prior instrumental training

Intravenous nicotine self-administration is the most direct measure of nicotine reinforcement in laboratory animals, but this procedure has proven difficult to establish in mice. We found that stable responding for nicotine in C57BL6/J mice was facilitated by prior instrumental training for food reward, initial exposure of mice to a lower unit dose of nicotine (0.03 mg kg⁻¹ per infusion) before access to higher doses, a slower rate of drug delivery (3-s versus 1-s infusion), consistency in schedule of daily testing, and low extraneous noise during testing. Under these conditions, we found that mice lever-pressed for nicotine (0.03-0.4 mg kg⁻¹ per infusion; 60-min test sessions) under a fixed-ratio 5 time-out 20-s (FR5TO20) reinforcement schedule and consumed the drug according to an inverted ‘U’-shaped dose-response curve. Mice switched their responding onto a previously non-reinforced lever to continue earning nicotine infusions when the active/inactive lever assignment was reversed. The nicotinic acetylcholine receptor (nAChR) antagonist mecamylamine decreased responding for nicotine, but not food rewards, verifying that nAChRs regulate nicotine self-administration in mice. The cue-light paired with nicotine delivery did not support responding when delivered independently of nicotine infusions, further verifying that mice responded selectivity for the drug. Nicotine-seeking responses extinguished when nicotine infusions and the cue-light were withheld, and exposure to the cue-light reinstated responding. Finally, mice without prior instrumental food training acquired stable responding for nicotine under the FR5TO20 schedule, but required a greater number of sessions. These data demonstrate that nicotine is an effective reinforcer in mice and establish conditions under which the drug is reliably self-administered by mice.     

Intravenous cocaine self-administration: individual differences in male and female C57BL/6J mice

This study examined individual differences in male and female C57BL/6J (C57) mice responding for intravenous cocaine reinforcement. The experiment used 4 groups of mice, distinguished by sex and cocaine unit dose (0.3 or 1 mg/kg/infusion). Mice trained to lever respond for IV cocaine were given the drug initially on an FR2 schedule and then on a Progressive Ratio 2(PR2) schedule. Hierarchical linear modeling (HLM) techniques were used to examine data generated across four FR2 and four PR2 sessions, as well as within session data when cocaine was delivered on the PR2 schedule. HLM techniques, although uncommon in the animal literature, characterize individual differences in human studies and are likely to be useful in more complex preclinical studies. Analysis established distinct patterns of self-administration both across and within sessions. Responses for cocaine delivered on the FR2 schedule was dose-dependent, but did not differ according to sex. Response output was greater when either dose of cocaine was delivered on the PR2 than the FR2 schedule. Although response output for the more rewarding 1 mg/kg unit dose was similar for the two sexes, males responded more and had greater cocaine intake than females when the less reinforcing 0.3 mg/kg dose was delivered at the more behaviorally challenging PR2 schedule. HLM analysis of response patterns and cocaine intake within the PR2 sessions corroborated this sex difference and also indicated that trajectories differed for individual mice after accounting for the sex and dose factors. The reduced response output by females for cocaine in the present experiment is consistent with previous reports that sex differences in the rewarding effects of either alcohol or food reinforcement were revealed for C57 mice only when delivered on more behaviorally demanding schedules (e.g. PR2 or FR100).     

Acquisition of oral phencyclidine (PCP) self-administration in rhesus monkeys: effects of dose and an alternative non-drug reinforcer

 The effects of drug dose and a non-drug alternative reinforcer on acquisition of oral PCP self-administration in rhesus monkeys were examined. Acquisition was studied using three groups of monkeys (seven subjects per group). One group received a low PCP dose (0.0375 mg/delivery) and the other two received a high PCP dose (0.15 mg/delivery). One of the high dose groups had concurrent access to a saccharin solution (0.03% w/v) and water during the intersession (17.5-h) period. Food non-restricted monkeys were initially given access to water under a fixed-ratio (FR) 1 schedule during daily 3-h sessions. Water was then replaced with PCP during the session. The monkeys were then reduced to 85% of their free-feeding body weights and fed before the session, and the FR value was increased from 1 to 2, 4 and 8. Subsequently, food was given post-session and water and PCP were available under concurrent FR 8 schedules. At this final step of the procedure, acquisition of PCP self-administration was considered to occur if PCP intake consistently exceeded water intake. When all three groups were given concurrent access to PCP and water, PCP intake was greater than water intake only in the group of monkeys receiving the high PCP dose. PCP intake increased when water replaced saccharin during intersession in the high PCP dose group. Within-group data revealed that 85.7% of monkeys acquired PCP reinforcement in the group given access to the high PCP dose while only 42.8% acquired in the other two groups. These data suggest that drug dose and presence of alternative non-drug reinforcers affect acquisition of drug self administration in non-human primates. Received: 14 May 1997 / Final version: 15 December 1997     

Suppression by the cannabinoid CB1 receptor antagonist, rimonabant, of the reinforcing and motivational properties of a chocolate-flavoured beverage in rats

Pharmacological blockade of the cannabinoid CB1 receptor has been repeatedly reported to suppress intake of food, including highly palatable foods, in laboratory animals. This study was designed to investigate whether treatment with the cannabinoid CB1 receptor antagonist, rimonabant, would reduce the reinforcing and motivational properties of a chocolate-flavoured beverage [containing 5% (w/v) chocolate powder] in nonfood-deprived and nonwater-deprived Wistar rats trained to self-administer this beverage under an operant conditioning procedure. This study was also aimed at assessing to what degree self-administration behaviour could be manipulated environmentally. After a period of training and maintenance of the self-administration behaviour, separate groups of rats were exposed to different experimental conditions [session length varying from 20 to 120 min; fixed ratio (FR) schedule of reinforcement varying from FR10 to FR40; reinforcer presentation varying from 2.5 to 10 s; concentration of the chocolate powder varying from 5% (w/v) to 0%]; other rat groups were used to test the effect of acute and repeated treatment with rimonabant (1-5.6 mg/kg, intraperitoneally) on two schedules of reinforcement (FR10 and progressive ratio) and extinction responding. All rats rapidly acquired and steadily maintained high levels of self-administration of the chocolate-flavoured beverage. Changes in experimental conditions modified the rats' self-administration behaviour; these changes seemed to be the result of the rats' attempt to adjust their behaviour so as to consume as much of the chocolate-flavoured beverage as possible when it was presented at its most palatable 5% concentration. Treatment with rimonabant dose-dependently suppressed self-administration of the chocolate-flavoured beverage. When rimonabant was administered repeatedly, only a modest degree of tolerance developed to its reducing effect. Finally, treatment with rimonabant resulted in a dose-dependent reduction of the motivational properties of the chocolate-flavoured beverage, measured by the progressive ratio schedule of reinforcement and extinction-responding procedure. These results suggest that self-administration of a chocolate-flavoured beverage can be rapidly and reliably established in rats and that this behaviour is environmentally manipulable. These results also suggest that the cannabinoid CB1 receptor is a crucial component of the neural substrate mediating the reinforcing and motivational properties of a highly palatable food such as a chocolate-flavoured beverage.     

Genetic differences in the rewarding and activating effects of morphine and ethanol

The influence of genotype on the rewarding and locomotor activating effects of morphine and ethanol was examined in the place conditioning paradigm. Two inbred mouse strains (C57BL/6J and DBA/2J) were exposed to a differential conditioning procedure in which each mouse received four pairings of a distinctive floor stimulus with IP injection of morphine (0, 2.5, 5 or 10 mg/kg) or ethanol (0, 1, 2, 3 or 4 g/kg). A different floor stimulus was paired with saline. Conditioning trials lasted 30 min and each experiment concluded with a floor preference test in the absence of drug. In accord with previous studies, morphine evoked a dose-dependent increase in activity during conditioning that was greater in C57BL/6J mice than in DBA/2J mice. In contrast, ethanol produced a dose-dependent increase in activity that was greater in DBA/2J than in C57BL/6J mice. Both strains showed conditioned place preference with morphine, but only the DBA/2J strain showed conditioned place preference with ethanol. No conditioned place aversion was seen. With both drugs, stronger place preference conditioning was obtained in DBA/2J mice, supporting the general conclusion that sensitivity to drug reward is influenced by genotype. The fact that the same genotype is more sensitive to the rewarding effects of two different drugs supports theories postulating commonality in the biological mechanisms of drug reward. Although the outcome of the ethanol study supports predictions of the psychomotor stimulant theory of addiction concerning the relationship between drug-induced activation and reward, the outcome of the morphine study does not. The direction of the strain difference in conditioned place preference is opposite to what might be predicted on the basis of strain differences previously reported in drug consumption and preference studies, suggesting that genetic differences in drug consumption may not accurately reflect postabsorptive motivational effects of drug.     

Age differences in the spontaneous acquisition of nicotine self-administration in male Wistar and Long–Evans rats

Rationale Epidemiological evidence suggests that adolescents may exhibit a unique susceptibility to the motivational effects of nicotine compared to adults. In contrast to the hypothesis of an enhanced vulnerability to nicotine during adolescence, we have observed that nicotine is less reinforcing in adolescent compared to adult rats using a progressive ratio reinforcement schedule in an operant self-administration procedure, although prior operant conditioning experience may have masked differences in initial sensitivity to nicotine. Objectives This study examined the spontaneous acquisition of nicotine self-administration in adolescent (postnatal day (PD) 31) and adult (PD87) male Wistar and Long–Evans rats. Materials and methods Rats self-administered nicotine (0.015 or 0.03 mg/kg/infusion, i.v.) during 2-h operant conditioning sessions under fixed-ratio-1 (FR1) and FR3 reinforcement schedules for six sessions each. A subset of rats (adolescents: PD42, adults: PD98) underwent extinction of responding and nicotine priming-induced reinstatement (0.15 mg/kg, s.c.). In a separate group of rats, saccharin self-administration (0.1 ml of 0.2% w/v) was tested to determine the specificity of our findings with nicotine. Results A greater proportion of adult compared to adolescent rats acquired self-administration of 0.015 mg/kg/infusion nicotine, but both age groups readily acquired self-administration of 0.03 mg/kg/infusion nicotine and saccharin. Age differences in extinction of responding for nicotine or saccharin depended upon strain, but priming-induced reinstatement was similar across age and strain. Conclusions The current findings are consistent with those obtained under a more demanding progressive ratio reinforcement schedule and suggest that adolescents, compared to adults, may not be as sensitive to the reinforcing effects of nicotine.     

Induction and maintenance of ethanol self-administration without food deprivation in the rat

Rats were trained to lick at a drinking tube containing 5% ethanol to obtain access to a 0.1-ml dipper containing 20% sucrose. Following 20 of these drinking sessions, a lever press response was shaped and maintained with ethanol presentation in the dipper. This induction procedure resulted in rats responding on a FR 8 schedule of reinforcement to receive 40% (v/v) ethanol. Ethanol intakes over 0.5 g/kg in 30 min were obtained when ethanol concentrations over 10% were available. These intakes frequently resulted in blood ethanol levels over 100 mg ethanol/dl blood. This contingent sucrose induction procedure did not use food deprivation at any time. It is suggested that this procedure can be used to investigate the processes involved with the initiation of ethanol as a reinforcer independent of food restriction procedures.     

Self-administration of heroin, cocaine and their combination under a discrete trial schedule of reinforcement in rats

Several self-administration models have been used to study the interactions between cocaine and heroin, and the schedule of reinforcement used is an important consideration for these studies. Behavior maintained by cocaine, heroin or their combination was studied using a discrete trial schedule that has been described for cocaine self-administration previously. This schedule permits 24 h access to drug without mortality associated with unlimited access to cocaine, and provides unique measures related to the circadian pattern of drug self-administration. Cocaine and heroin combined maintained higher rates of responding compared to either drug alone when a maximum of three infusions were available each hour (DT3), and decreased food intake compared to cocaine alone. There were significantly greater numbers of hours in both the light and dark cycles during which animals self-administered heroin or the combination of cocaine/heroin compared to cocaine alone. When the FR was increased to 4 under the DT3 access conditions, responding maintained by cocaine or heroin extinguished to levels not different than those maintained by saline while food reinforcement remained intact. The combination of cocaine and heroin maintained robust responding under these conditions. This schedule of reinforcement appears to elucidate behavioral interactions between cocaine and heroin that are more complex than rate of drug consumption and may provide a procedure to address some of the issues related to co-abuse of these drugs.     

Influence of 5-HT3 receptor antagonists and the indirect 5-HT agonist,dexfenfluramine, on heroin self-administration in rats

The purpose of the present study was to examine the effects of the 5-HT₃ antagonists ondansetron and MDL72222, and the 5-HT releaser and reuptake inhibitor dexfenfluramine, on intravenous heroin self-administration by Wistar rats. Using separate squads of animals, two separate schedules of heroin reinforcement were used; a relatively low dose (0.03 mg/kg per infusion) made available under a FR5 schedule for 1 h each day, and a moderate heroin dose (0.1 mg/kg per infusion) available under a FR1 schedule for 2 h each day. Following the acquisition of stable levels of responding across days, both naloxone pretreatment (0.25 mg/kg SC) and halving the heroin infusion dose produced increases in operant responding for heroin at each concentration. Neither ondansetron (0.01–1 mg/kg SC) nor MDL72222 (0.1–3 mg/kg SC) pretreatment influenced heroin self-administration. Chronic treatment (5 day) of ondansetron (0.01–0.1 mg/kg) was similarly ineffective. However, dexfenfluramine (0.5–2.5 mg/kg IP) consistently reduced heroin self-administration at doses producing only modest decreases in food responding. These findings are in contrast to place conditioning studies, which show that 5-HT₃ antagonists but not indirect 5-HT agonists block a morphine-induced place preference. Reasons for such discrepancies remain to be determined.     

Effect of Ro 15-4513 on ethanol-induced conditioned place preference.

The benzodiazepine receptor inverse agonist Ro 15-4513 reverses a number of ethanol's effects, including its reinforcing properties as measured through self-administration. The present study examined the effect of this putative ethanol antagonist in a place conditioning design that has been shown to be sensitive to ethanol's rewarding properties in mice. Using an unbiased differential conditioning procedure, DBA/2J mice received, on alternate days, pairings of a distinctive floor stimulus (CS+) with either ethanol (2 g/kg), Ro 15-4513 (3 mg/kg), or a combination of ethanol and Ro 15-4513. On alternate days, a different distinctive floor stimulus (CS-) was paired with vehicle. Under these conditions, ethanol produced a conditioned place preference that was unaffected by Ro 15-4513. Ro 15-4513 alone did not produce either a place preference or aversion. Ro 15-4513 did produce reductions in locomotor activity during conditioning, indicating it was behaviorally active. These results indicate that a dose of Ro 15-4513 that alters general activity does not affect ethanol reward.     

Effects of E-2078, a stable dynorphin A(1–8) analog, on sedation and serum prolactin levels in rhesus monkeys

Rationale: In previous comparisons with C57BL/6J mice, DBA/2J mice have been characterized as ”hyporesponsive” to cocaine’s rewarding effect in the conditioned place-preference paradigm. This finding contrasts with other studies showing greater sensitivity of DBA/2J mice to the rewarding effects of ethanol and morphine in the place conditioning task. Objectives: The purpose of the present study was to examine cocaine- induced place conditioning in both strains using apparatus and procedures similar to those used previously to assess ethanol and morphine preference conditioning. Methods: Mice from both strains were exposed to an unbiased place-conditioning procedure using 1, 10, or 30 mg/kg cocaine. Conditioning trial duration was 15, 30, or 60 min. Results: In general, C57BL/6J mice displayed a significant conditioned place preference that was relatively unaffected by cocaine dose or trial duration. In contrast, DBA/2J mice showed no place conditioning at the shortest trial duration, but an increasing level of preference as trial duration increased. At the longest trial duration, both strains showed similar levels of place preference. Conclusions: Genetic differences in sensitivity to cocaine’s rewarding effect depend critically on temporal parameters of the place-conditioning procedure. One possible interpretation of these findings is that short trial durations produce conditioned activity responses that interfere more with expression of conditioned place preference in DBA/2J mice than in C57BL/6J mice. More generally, these findings underscore the need for caution when drawing conclusions about genetic differences in place conditioning, especially when using this paradigm to evaluate the effects of gene knockouts or insertions on drug reward. Received: 31 December 1998 / Final version: 15 April 1999     

DBA/2J mice develop stronger lithium chloride-induced conditioned taste and place aversions than C57BL/6J mice

Genetic differences in lithium-induced conditioned aversion were examined using both place- and taste-conditioning procedures. In the place-conditioning procedure, adult male C57BL/6J (B6) and DBA/2J (D2) mice were exposed to a differential conditioning procedure in which each mouse received four 30-min pairings of a distinctive floor cue immediately after IP injections of either 0.75, 1.5, or 3. 0 mEq/kg LiCl. A different floor cue was paired with saline injections. A separate group of control mice received saline injections paired with both floor types. Subsequent floor preference testing revealed greater conditioned aversion in D2 mice compared to B6 mice in groups receiving 3.0 mEq/kg LiCl. Lower LiCl doses did not produce conditioning in either strain. In a conditioned taste-aversion procedure, fluid-restricted mice received four trials in which access to 0.2 M NaCl solution was followed by IP injection of either 0.75, 1.5, 3.0, or 6.0 mEq/kg LiCl. D2 mice showed stronger conditioned taste aversion than B6 mice at all doses, suggesting that taste conditioning may be a more sensitive index of aversive drug sensitivity than place conditioning. These findings are not well explained by strain differences in general learning ability or by strain differences in stimulus salience or innate preference. Rather, these data appear more consistent with previous studies showing strain differences in lithium pharmacokinetics and in general sensitivity to aversive events.     

The influence of mecamylamine on ethanol and sucrose self-administration

Neuronal nicotinic acetylcholine receptors (nAChRs) are believed to be critically involved in ethanol-related behaviors as well as in neurochemical responses to ethanol. However, discernment of nAChR contribution to ethanol reinforcement and consumption remains incomplete. The current studies examined the influence of the nAChR antagonist mecamylamine (MEC) on operant ethanol self-administration using a procedure that independently assessed appetitive and consumptive processes, and compared these findings to effects of MEC on sucrose self-administration.Male C57BL/6J (B6) mice were trained to respond for 30-min access to a retractable drinking tube containing either 10% v/v ethanol (10E) or 5% w/v sucrose (5S). Once trained, mice were habituated to saline injection and then treated with a series of MEC doses (0-8 mg/kg; i.p.) in a within-subject design. In a separate cohort, MEC was evaluated for its influence on locomotor activity.MEC dose-dependently reduced 10E and 5S self-administration. The suppression in ethanol intake was attributable to a reduction in bout frequency, whereas the attenuation in sucrose intake was due to a decrease in bout size. Doses of MEC (6-8 mg/kg) that altered drinking patterns were also found to impair locomotor activity.Although MEC non-selectively reduced 10E and 5S intakes in mice, there was some specificity in alterations of the underlying drinking pattern for each reinforcer. Assessment of drinking topography within an operant self-administration procedure may provide useful insights regarding the role of nAChR function in the regulation of ethanol consumption.     

Impulsivity predicts the escalation of cocaine self-administration in rats

Impulsivity, as measured by the delay-discounting task, predicts the acquisition of cocaine self-administration and reinstatement of cocaine seeking in rats. The purpose of this study was to extend these results to the escalation phase of drug self-administration. Female rats were initially screened for high (HiI) or low (LoI) impulsivity for food reinforcement using a delay-discounting procedure. They were then implanted with i.v. catheters and trained to lever press for cocaine infusions (0.8 mg/kg). Once cocaine intake stabilized, rats were allowed to self-administer cocaine (0.4 mg/kg) under a fixed-ratio 1 (FR 1) schedule during three, 2 h short-access sessions. Subsequently, performance was briefly assessed under a progressive ratio (PR) schedule for 3 doses of cocaine (0.2, 0.8, and 3.2 mg/kg). Following PR testing, the cocaine dose was then changed to 0.4 mg/kg. Session length was then extended to 6 h for 21 days (extended access), and 0.4 mg/kg cocaine was available under a FR 1 schedule. After the 21-day extended access phase, responses and infusions under the short access FR and PR dose-response conditions were reassessed. The results indicated that HiI rats escalated cocaine-reinforced responding during the extended access condition, but LoI rats did not. HiI rats also earned significantly more infusions than LoI rats under the post-escalation short access FR condition. However, HiI and LoI rats did not differ under the pre- and post-extended access PR conditions. This study suggests that individual differences in impulsivity predict escalation of cocaine self-administration in female rats, which may have implications in the prediction of binge-like patterns of cocaine intake in women.     

Ethanol reinforced behavior assessed with a concurrent schedule

Oral ethanol (5% v/v) reinforced responding was studied in three rats using a concurrent fixed ratio (FR) schedule with water available at second lever. First, concurrent (FR8 FR8) responding on both levers for water presentation was established. Then a concurrent (FR8 FR8) water-ethanol presentation schedule was introduced and a food ration was placed in the chamber at the beginning of the session. Within 12 sessions, ethanol responding developed and within-session feeding was discontinued. When stable concurrent water-ethanol performance was achieved, average ethanol responding was 11 times greater than water responding, even when ethanol availability switched from one lever to the other. During the one hour session, in some cases, sufficient ethanol was ingested to produce blood ethanol levels between 30 and 50 mg/100 ml. As the ethanol FR requirement was increased for four sessions each to FR10, 12, 14, 16, 18, 20, 40 and 50, rats continued to respond for ethanol, and in some rats, ethanol preference was maintained even when the ethanol FR was 50 while the water FR remained at 8.