Orally delivered cocaine as a reinforcer for rhesus monkeys

Sex and menstrual cycle effects on chronic oral cocaine self-administration in rhesus monkeys: Effects of a nondrug alternative reward

BACKGROUND

In previous studies, female monkeys self-administered more oral phencyclidine (PCP) than males, and PCP intake differed by phase of menstrual cycle.

OBJECTIVES

The purpose of this study was to examine sex and hormonal influences on oral cocaine self-administration in male and female rhesus monkeys in the follicular vs. luteal phases of the menstrual cycle, with concurrent access to an alternative nondrug reward, saccharin (SACC) vs. water.

MATERIALS AND METHODS

Concurrent access to cocaine (0.2, 0.4, and 0.8 mg/ml) and SACC or water was available from two drinking spouts under concurrent fixed-ratio (FR) 2, 4, and 8 schedules during daily 3-h sessions.

RESULTS

Cocaine deliveries were similar in males and females in the females' luteal phase, but cocaine deliveries were higher in females during the follicular phase than the luteal phase and compared to males. When SACC was available, cocaine deliveries were reduced in females in the follicular phase of the cycle, and cocaine intake (mg/kg) was reduced in males and in females' follicular and luteal phases.

CONCLUSIONS

Access to concurrent SACC (vs. water) reduced cocaine intake (mg/kg) in males and in females during both menstrual phases, and the magnitude of the reduction in cocaine intake was greatest during the females' follicular phase. Thus, a nondrug alternative reward, SACC, is a viable alternative treatment for reducing cocaine's rewarding effects on male and female monkeys, and reductions in cocaine seeking were optimal in the females' luteal phase.

Chronic cocaine causes long-term alterations in circadian period and photic entrainment in the mouse

The disruptive effects of cocaine on physiological, behavioral and genetic processes are well established. However, few studies have focused on the actions of cocaine on the adult circadian timekeeping system, and none have explored the circadian implications of long-term (weeks to months) cocaine exposure. The present study was undertaken to explore the actions of such long-term cocaine administration on core circadian parameters in mice, including rhythm period, length of the nocturnal activity period and photic entrainment. For cocaine dosing over extended periods, cocaine was provided in drinking water using continuous and scheduled regimens. The impact of chronic cocaine on circadian regulation was evidenced by disruptions of the period of circadian entrainment and intrinsic free-running circadian period. Specifically, mice under a skeleton photoperiod (1-min pulse of dim light delivered daily) receiving continuous ad libitum cocaine entrained rapidly to the light pulse at activity onset. Conversely, water controls entrained more slowly at activity offset through a process of phase-delays, which resulted in their activity rhythms being entrained 147° out of phase with the cocaine group. This pattern persisted after cocaine withdrawal. Next, mice exposed to scheduled daily cocaine presentations exhibited free-running periods under constant darkness that were significantly longer than water controls and which also persisted after cocaine withdrawal. These cocaine-induced perturbations of clock timing could produce chronic psychological and physiological stress, contributing to increased cocaine use and dependence.

Oral drug self-administration: an overview of laboratory animal studies

Many abused drugs can be established as orally delivered reinforcers for rhesus monkeys and other animals. Benzodiazepines, barbiturates, opioids, psychomotor stimulants, dissociative anesthetics, and ethanol can come to serve as reinforcers when taken by mouth. The principal problems in establishing drugs as reinforcers by the oral route of administration are (1) aversive taste, (2) delay in onset of central nervous system effects, and (3) consumption of low volumes of drug solution. Strategies have been devised to successfully overcome these problems, and orally delivered drugs can be established as effective reinforcers. Reinforcing actions are demonstrated by consumption of greater volumes of drug solution than volumes of the water vehicle, and supporting evidence for reinforcing effects consists of the maintenance of behavior under intermittent schedules of reinforcement and the generation of orderly dose-response functions. This article presents an overview of studies of behavior reinforced by oral drug reinforcement. Factors that control oral drug intake include dose, schedule of reinforcement, food restriction, and alternative reinforcers. Many drugs, administered by the experimenter, can alter oral drug reinforcement. Relative reinforcing effects can be assessed by choice procedures and by persistence of behavior across increases in schedule size. In general, reinforcing effects increase directly with dose. Rhesus monkeys prefer combinations of reinforcing drugs to the component drugs. The taste of drug solutions may act as a conditioned reinforcer and a discriminative stimulus. Consequences of drug intake include tolerance and physiological dependence. Findings with orally self-administered drugs are similar to many findings with other positive reinforcers, including intravenously self-administered drugs.

The effect of gamma-vinyl-GABA on the consumption of concurrently available oral cocaine and ethanol in the rat

It has frequently been reported that a high percentage of individuals, identified as either alcohol- or cocaine-dependent, concurrently abuse both drugs. The experiments reported here represent a continuing effort to develop an animal model to predict the effects of a potential pharmacotherapeutic agent on concurrently available oral ethanol and cocaine. These experiments utilized drinkometer circuitry to assess the effects of gamma-vinyl-GABA (GVG), a gamma-aminobutyric acid (GABA) transaminase inhibitor, on the consumption and temporal pattern of responses for orally self-administered ethanol and cocaine. The results of these experiments showed that GVG, at doses of 100, 200 and 300 mg/kg, reduced both ethanol and cocaine consumption in a dose-related manner. When compared to vehicle, GVG at all doses significantly reduced ethanol consumption while consumption of cocaine was significantly reduced only at 300 mg/kg. This is consistent with data showing that GVG reduces consumption of these drugs when administered alone and data showing that GVG is more potent in reducing ethanol-induced compared to cocaine-induced extracellular dopamine in the nucleus accumbens. Analysis of the temporal pattern of drinking across the session suggests that GVG's effects are due to a disruption of the reinforcing properties of ethanol and cocaine rather than a more general reduction in motor behavior. These data suggest that GVG has potential for clinical use in populations that abuse either alcohol or cocaine alone or in combination.

Food and cocaine self-administration by baboons: effects of alternatives

The effects of the availability of an alternative reinforcer on responding maintained by food pellets or drug solutions were examined in 8 adult male baboons (Papio hamadrayas anubis). During daily 23-hr experimental sessions, baboons had access to both food pellets and fluid under a two-choice procedure, in which the response requirement, under a fixed-ratio schedule, differed for the two commodities. There were no restrictions on access to water, which was continuously available from a spout at the rear of each cage. In Experiment 1, the fixed-ratio requirement, or cost, for fluid delivery remained constant while the fixed-ratio requirement for pellets was changed every 2 or 3 days when (a) no fluid, (b) a dilute dextrose vehicle, (c) 0.008 mg/kg per delivery cocaine, (d) 0.016 mg/kg per delivery cocaine, or (e) 0.032 mg/kg per delivery cocaine was available concurrently. In Experiment 1, progressively increasing the response requirement for pellets decreased pellet intake, but for 4 baboons pellet intake at maximum pellet cost was lower when cocaine, compared to the vehicle, was available. Increasing the response requirement for pellets had variable effects on vehicle intake. However, increasing the response requirement for pellets increased intake of at least one dose of cocaine to a greater extent than vehicle in all 8 baboons. Thus, cocaine could be considered a more effective economic substitute than vehicle for pellets. Experiment 2 systematically varied the order in which the response requirements for a pellet delivery were presented and added a control condition in which cocaine doses, yoked to the amount self-administered, were given three times during the session by the experimenter. Again, pellet intake at maximal pellet cost was lower when cocaine, compared to the vehicle, was available. In contrast, experimenter-given cocaine doses did not alter responding maintained by pellets. Thus, the effects of self-administered cocaine on responding maintained by food pellets differed from the effects of experimenter-given cocaine on responding maintained by food pellets.

Acute physiological and behavioral effects of oral cocaine in humans: a dose-response analysis

The present study was designed to assess the acute physiological and behavioral effects of a wide range of doses of oral cocaine HCL (placebo, 50, 100, 200, and 300 mg). Nine volunteers (eight males and one female) with recent histories of cocaine use resided on a general inpatient psychiatry unit while they participated. Drug doses were administered in a double-blind fashion under medical supervision, but for safety purposes, they were administered in ascending order. The physiological, subject-rated, and performance effects of oral cocaine HCL were assessed before drug administration and periodically afterwards for 5 h. Oral cocaine HCL increased heart rate and blood pressure as a graded function of dose, but the magnitude of these effects were not clinically significant. Oral cocaine HCL produced positive subject-rated drug effects (e.g. increased ratings of good effects, like drug, and willing to take again), but did not affect performance. Consistent with the pharmacokinetics of oral cocaine HCL, drug effects were generally discernible from placebo 0.5-1 h after administration, peaked approximately 1 h after administration, and progressively abated during the remainder of the experimental session. The results of this experiment demonstrate that across a six-fold range of doses oral cocaine HCL is well tolerated by individuals with recent histories of cocaine use and can be safely administered under controlled laboratory and medical conditions.

Ratio size and cocaine concentration effects on oral cocaine-reinforced behavior

Monkeys were given a choice between cocaine solutions and water under concurrent fixed-ratio reinforcement schedules. The operant response was spout contact. Six rhesus monkeys served as subjects. The cocaine concentration was varied from 0.0125 to 0.8 mg/ml, and the fixed-ratio value was varied from 8 to 128. Cocaine maintained higher response rates than did water over a wide range of conditions. Response rate and number of cocaine deliveries per session were inverted U-shaped functions of concentration. These functions were shifted to the right as the fixed ratio was increased. The number of cocaine deliveries was more persistent as fixed-ratio value was increased when the unit dose was larger rather than smaller. Cocaine consumption was analyzed as a function of unit price (fixed-ratio value divided by cocaine concentration), and unit price accounted for between 77% and 92% of the variance in cocaine consumption for individual monkeys. The current data support the claim that a drug's reinforcing effects increase directly with dose and underscore the need to gather parametric data when examining the effects of experimental manipulations on a drug-reinforced baseline.

Establishing orally self-administered cocaine as a reinforcer in rats using home-cage pre-exposure

1. Rats were force-exposed to a cocaine + saccharin solution in their home cage water bottles for five days. They were then given 5 h home-cage access to both cocaine and cocaine-free solutions for 40 days. 2. The subjects consumed large doses of the cocaine solution despite the ad libitum availability of water. 3. The animals were then trained on a task consisting of operant bar pressing rewarded on an intermittent schedule with a liquid cocaine reinforcer. 4. All subjects performed the operant task and consumed doses of cocaine solution which are preferred over water in other paradigms. 5. Levels of responding were significantly reduced in three of four subjects when vehicle was substituted for liquid cocaine as the reward. 6. This demonstrates that orally self-administered cocaine can be used as a reinforcer in rats.

Conditions sufficient for the production of oral cocaine or lidocaine self-administration in preference to water

Groups of rats were given a chronic history of drinking cocaine solutions of different concentrations in daily, 3-h schedule induced polydipsia sessions. Animals failed to develop a preference for cocaine solution to concurrently presented water. Schedule-induction conditions were maintained, and the animals were divided into separate groups, drinking either cocaine or lidocaine placed in a highly acceptable vehicle (glucose-saccharin solution). Animals preferred their respective drug solutions to concurrently presented water, and these preferences remained stable after the glucose-saccharin vehicle was gradually faded to water, leaving only cocaine or lidocaine, respectively, in the solution. Thus a stable preference for drug solution to water could be instituted in rats for either cocaine or lidocaine solution (putative reinforcing and nonreinforcing agents, respectively) given an appropriate associative history, with high intakes maintained by schedule-induction. Conditions sufficient for the initiation of an oral preference and high intake for a putatively reinforcing drug cannot be assumed to occur owing to the drug's reinforcing property in the absence of demonstrating the ineffectiveness of an appropriate negative control substance.

A review of the effects of dopaminergic agents on humans, animals, and drug-seeking behavior, and its implications for medication development. Focus on GBR 12909

Medication development for cocaine abuse has focused on potential mechanisms of action related to the abuse of cocaine. The hypothesis that mesolimbic dopamine (DA) is the key neurochemical mediator of cocaine's addictive and reinforcing effects is well supported by a wide variety of data from animal studies. On the other hand, medications that increase DA or block its action in humans can produce effects that appear incompatible with this hypothesis. This article reviews these incompatibilities between animal and human data with a focus on the DAergic actions of drugs, including DA reuptake inhibitors, direct DA agonists, DA increasers, and DA antagonists. Possible reasons for these discrepancies are discussed, and the potential role of high-affinity DA uptake inhibitors, such as GBR12909, for pharmacotherapies for treating cocaine addiction in humans is likely to come from understanding its mechanisms of action, it is clear that further research on the effects of cocaine in humans and animals will be critical to the medication development effort.

Oral self-administration of sweetened nicotine solutions by rats

Oral self-administration of sweetened nicotine solutions in rats was studied in two ways. In the first experiment, one group had continuous access to a water bottle containing a sucrose solution and nicotine (10 micrograms/ml), while another group had access to an identical sucrose solution without nicotine. All rats had continuous access to water. While consumption of nicotine increased with increasing concentrations of sucrose, consumption of the sucrose+nicotine solution never exceeded the intake of sucrose alone. In subsequent experiments, the delivery of the solutions was made contingent upon an operant response. The sucrose+nicotine solution was found to maintain responding to higher response/reinforcer ratios than the sucrose only solution. These data demonstrate that rats will self-administer sweetened nicotine solutions and that sucrose+nicotine solutions are more reinforcing than sucrose solutions alone. Free access consumption is not a good predictor of the response maintaining properties of nicotine solutions.

Oral self-administration of etonitazene in rhesus monkeys: use of a fading procedure to establish etonitazene as a reinforcer

The establishment of orally delivered etonitazene (a potent opioid) as a reinforcer, was studied in eight rhesus monkeys. Initially, when given concurrent access to 2.5 micrograms/ml etonitazene and the water vehicle, five of the monkeys rejected the drug, whereas the other three monkeys consumed more drug solution than water. The five monkeys that rejected the drug solution underwent an acquisition phase to establish the drug as a reinforcer. A fading procedure was used to transfer control of responding from a 2% (wt/vol) ethanol solution to a 2.5 micrograms/ml etonitazene solution. Initially, responding was maintained by contingent deliveries of 2% ethanol. Next, across blocks of six or more sessions, increasing amounts of etonitazene were added in steps to the 2% ethanol solution. Subsequently, the 2% ethanol solution was decreased in steps to zero, leaving only the 2.5 micrograms/ml etonitazene present. When the fading procedure was completed, dose of etonitazene was varied by increasing the volume delivered, first under fixed ratio (FR 4) and then under an FR 8 reinforcement schedule. The same dose manipulations were made with the three monkeys who did not undergo the fading procedure because they preferred etonitazene over water when first tested. Etonitazene was established as a reinforcer for six of the eight monkeys because drug deliveries exceeded vehicle deliveries across a range of drug doses.

Relative reinforcing effects of different doses of orally delivered cocaine

The relative reinforcing effects of different doses of oral cocaine were investigated in two adult male rhesus monkeys. In the first experiment, a range of cocaine doses (0.1-0.8 mg/ml) was studied with drug and water concurrently available for 3 h each day under identical and independent fixed-ratio schedules. The side positions of the drug and vehicle were alternated from session to session. Drug deliveries always exceeded vehicle deliveries, i.e., orally delivered cocaine functioned as a reinforcer. The highest rates of responding occurred at either the lowest or next to lowest dose (0.1 or 0.2 mg/ml). In the second experiment, pairs of different cocaine doses were systematically presented under identical and independent fixed-ratio schedules. The higher of two concurrently available doses usually maintained the higher response rate. These findings suggest that the relative reinforcing effects of orally delivered cocaine increase with dose. Absolute response rates obtained with single cocaine doses and water concurrently available do not always reflect the magnitude of the reinforcing effects indicated when pairs of cocaine doses are studied together. The results of this study are in agreement with earlier investigations in which the relative reinforcing effects of pairs of intravenous cocaine doses or oral pentobarbital doses were studied. Taken together these findings indicate that, over a range of doses and across pharmacological classes and routes of administration, relative reinforcing effects of a drug increase directly as a function of increases in dose.

Unit price as a useful metric in analyzing effects of reinforcer magnitude

In this paper, we applied the behavioral-economic concept of unit price to the study of reinforcer magnitude in an attempt to provide a consistent account of the effects of reinforcer magnitude on behavior. Recent research in the experimental analysis of behavior and in behavioral pharmacology suggests that reinforcer magnitude interacts with the schedule of reinforcement to determine response rate and total consumption. The utility of the unit-price concept thus stems from its ability to quantify this interaction as a cost-benefit ratio (i.e., unit price = characteristics of the schedule of reinforcement divided by magnitude of reinforcement). Research employing the unit-price concept has shown that as unit price increases, a positively decelerating function exists for consumption (i.e., a function with an increasingly negative slope, when plotted on log coordinates) and a bitonic function exists for response rate. Based on these findings, the present analysis applied the unit-price concept to those studies of reinforcer magnitude and drug self-administration that examined the effects of reinforcer magnitude on response rate using simple schedules of reinforcement (e.g., fixed-ratio schedule). This resulted in three findings: (a) Reinforcer-magnitude manipulations and schedule manipulations interact in a manner that can be quantified in terms of unit price as benefit and cost factors, respectively; (b) different reinforcer-magnitude manipulations are functionally interchangeable as benefit factors in the unit-price ratio; and (c) these conclusions appear warranted despite the differences in reinforcers (food or drug), species (dogs, monkeys, or rats), and schedules (interval or ratio), and despite the fact that these studies were not designed for a unit-price analysis. In methodological terms, these results provide further evidence that employing the unit-price concept is a parsimonious method for examining the effects of reinforcer magnitude. In theoretical terms, these results suggest that a single process may underlie the effect of combined reinforcer-magnitude and schedule manipulations.

Water deprivation-induced oral self-administration of cocaine in the Lewis rat: evidence for locomotor effects but not reinforcement

Oral cocaine self-administration was studied in water-deprived Lewis rats. Liquid was available to rats only during daily 90-min sessions, in chambers equipped with spouts that delivered precise volumes of liquid following completion of lever-press responses. Blocks of training and testing sessions were alternately carried out during which increasing cocaine concentrations were presented: 0.0, 0.0125, 0.025, 0.05, 0.1, 0.2, 0.282, and 0.4 mg/ml. Although high cocaine intakes (23.3-33.0 mg/kg) were obtained, neither avoidance nor preference for cocaine developed. Subsequently, fixed-ratio size was increased, and then distinctive stimulus lights were correlated with each liquid. One rat showed a preference for water following these changes, but two rats continued to show no preference. To determine if the amounts of cocaine self-administered had behavioral effects, locomotor activity tests were run immediately following self-administration sessions. Locomotor activity was substantially higher following cocaine self-administration than following water self-administration. These results demonstrate that the cocaine intakes reached under the present conditions did produce locomotor, but not reinforcing, effects.

Orally self-administered cocaine in rhesus monkeys: transition from negative or neutral behavioral effects to positive reinforcing effects

The establishment of orally delivered cocaine as a reinforcer was examined with nine rhesus monkeys. A 2% ethanol solution served as a reinforcer for all nine monkeys, for it maintained substantially higher response rates than did the concurrently available water vehicle. A test was initially conducted to determine whether cocaine would function as a reinforcer when substituted for 2% ethanol. When an intermediate cocaine concentration (0.2 mg/ml) was substituted for the ethanol solution, the drug maintained behavior at rates less than (seven monkeys), equal to (one monkey), or greater than (one monkey) those maintained by water. Thus, for eight of nine monkeys simple substitution of cocaine for ethanol was not sufficient to establish orally delivered cocaine as a reinforcer. In the next phase a stimulus-fading procedure was used. Blocks of training and testing sessions alternated. Across blocks of training sessions, increasing amounts of cocaine (0.0125, 0.025, 0.05, 0.1 mg/ml) were added to the 2% ethanol solution and subsequently the ethanol concentration was gradually decreased until only the 0.1 mg/ml cocaine solution remained; water was always concurrently available. Between each block of training sessions, a block of test sessions was inserted. Test sessions compared relative rates of responding maintained by two concurrently available drug solutions: (1) a solution containing the combination of ethanol and cocaine used in the prior training block and (2) a solution containing the same concentration of ethanol but with no cocaine. Thus, differences in rates of behavior maintained by the two solutions could be attributed to the presence of cocaine and the existence and degree of any such differences could be monitored at each step in the acquisition procedure. The outcome of the training procedure was that cocaine came to function as a reinforcer for six of the eight monkeys tested (the ninth monkey was not put through the fading procedure, having shown higher cocaine than vehicle rates during the initial substitution procedure). During the phase when ethanol was faded from the drug solution, differences between the combination cocaine-ethanol solution and the ethanol-only solution emerged: for the six monkeys that developed cocaine reinforced behavior, the combination solution maintained higher rates of responding than the ethanol solution alone. The opposite results were obtained with the remaining two monkeys. That cocaine had been established as a reinforcer was confirmed by persistent and orderly responding when dose and fixed-ratio size were subsequently varied.

Oral etonitazene and cocaine consumption by AA, ANA and Wistar rats

It has been previously suggested that drug-seeking behavior maintained by alcohol, opioids, and cocaine may have some common genetic determinants. Therefore, the present study examined the intake of etonitazene, a potent opioid agonist, and cocaine by alcohol-preferring AA (Alko, Alcohol), alcohol-avoiding ANA (Alko, Non-alcohol), and Wistar rats in a two-bottle choice test. The animals, housed in single cages, were given a choice between tap water and ascending concentrations of etonitazene (0.5, 1.0, 2.0, and 4.0 micrograms/ml) or cocaine (0.2, 0.4, 0.8, and 1.6 mg/ml) solutions prepared in water. Finally, to assess the sensitivity to bitter taste by these strains, a quinine preference test with ascending quinine concentrations was conducted. The clearest line differences were found with etonitazene: at all concentrations, the AAs consumed significantly more etonitazene than the ANAs and Wistars that showed no differences. The highest etonitazene intake by the AAs, 181 micrograms/kg/day at the concentration of 4.0 micrograms/kg, produced apparent signs of opioid intoxication and withdrawal. The AAs also drank more cocaine solution than the other lines. Since, however, the pattern of cocaine intake as a function of concentration resembled that with quinine, the line differences in cocaine consumption may partly be accounted for by the differential sensitivity to bitter taste by the lines. In contrast, the marked line differences in the intake of the etonitazene solutions, which had only a slightly bitter taste, seem more likely to have been produced by the post-ingestional effects of the opioid.

Oral cocaine self-administration: relation of locomotor activity to pharmacokinetics

Rats were exposed to daily schedule-induced polydipsia sessions in which solutions of cocaine HCl were available. Both cocaine solution concentration (0.08-0.32 mg/ml) and session duration (0.25-3 h) were varied to determine their effects on locomotor activity rate. Additional animals were used to determine the effect of session length on serum cocaine and metabolite levels when drinking 0.32 mg/ml cocaine solution. Changes in locomotor activity rate were related to serum cocaine concentration by a linear concentration-effect model. By estimation from the linear model, the serum cocaine concentration threshold for increasing locomotor activity was about 0.01 microgram/ml. Under these schedule-induction conditions, there was no evidence for the development of acute tolerance to the locomotor-stimulating activity of cocaine.

Oral caffeine consumption by rats: the role of flavor history, concentration, concurrent food, and an adenosine agonist

Some determinants of caffeine consumption by rats were examined using the two-bottle choice test. To describe the role of flavor history, groups of eight rats each received one of three fluids as their only source of fluid beginning at 29 days of age and continuing throughout the experiments. One group ("water") received tapwater, a second group ("caffeine") received 0.5 mg/ml caffeine in tapwater, and a third group ("quinine") received 0.01 mg/ml quinine in tapwater. Two-bottle choice tests began when rats were 40 days old. In the initial tests, caffeine rats drank more caffeinated water than water rats. Quinine rats were midway between these two groups. On a second block of tests, quinine and water rats' caffeine consumption increased so that the three groups were indistinguishable. When 0.5 mg/ml caffeine was available for 24 h, about one third of the total fluid consumption was of caffeinated water for all three groups. The presence of food greatly increased both caffeine and water consumption across a range of caffeine concentrations spanning 0.125-4.0 mg/ml. Increasing caffeine concentration generally increased consumption of plain water and decreased that of caffeinated water (but not total caffeine consumed) for water rats. Caffeine rats generally drank more caffeine than water rats, largely due to a tendency toward increased consumption of the 0.5-mg/ml concentration. Consumption of caffeinated water peaked at 0.5 mg/ml and showed graded decreases at higher and lower concentrations. Caffeine consumption showed dose-related increases with presession administration of l-phenylisopropyl adenosine. The serines of experiments characterize some of the determinants of caffeine consumption in rats.(ABSTRACT TRUNCATED AT 250 WORDS)

Orally delivered cocaine functions as a positive reinforcer in C57BL/6J mice

Cocaine serves as a reinforcer across several routes of administration and species. However, whether orally delivered cocaine serves as a positive reinforcer has not been systematically established. We determined the extent to which contingent access to orally delivered cocaine would maintain lever pressing behavior in C57BL/6J mice who had a prior history of operant ethanol-reinforced behavior. The findings presented in this report demonstrate that orally delivered cocaine can serve as a reinforcer of operant behavior. A drug substitution procedure where cocaine was substituted for gradually decreasing ethanol concentrations was successful in inducing pharmacologically significant intakes of cocaine under a fixed ratio (FR) schedule of drug access. When ethanol was removed, responding for cocaine continued. As FR size was increased, proportionate increases in responding occurred except at the highest FR value. Responding maintained by cocaine significantly exceeded responding maintained by vehicle, with the mice typically consuming 6-10 mg/kg cocaine per 30-min session. The utilization of inbred strains and the procedures followed in the present studies should prove useful in determining the extent of both genetic and environmental influences on various behavioral effects of cocaine and their mechanisms of action.