Schedule-induced cocaine drinking: choice between cocaine and vehicle

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.

In vivo voltammetry and concomitant electrophysiology at a single micro-biosensor to analyse ischaemia, depression and drug dependence

Electrochemical methods such as voltammetry can be used to understand patho-physiological mechanisms of action and, therefore, develop therapeutic approaches. In particular, voltammetry with treated micro-biosensors (carbon fibre micro-electrodes, mCFE) has been used to study models of (1) ischaemia; (2) drug dependence, and in particular craving; (3) depression. In addition, in studies (1) and (3) concomitant in vivo voltammetric and electrophysiological analysis has been performed by means of the same mCFE. Original data concerning ascorbate release in ischaemia, peptidergic activity during craving for drugs of abuse and concomitant voltammetric and electrophysiological changes of the serotonergic system in rats submitted to forced swimming test or to pharmacological treatment with the selective serotonin reuptake inhibitor fluoxetine are shown and discussed.

Voluntary self-administration of both morphine and cocaine by rats

Voluntary self-administration of cocaine and/or morphine was studied in rats. Male rats were offered water bottles or bottles containing either cocaine or morphine, both cocaine and morphine (combination) or cocaine and morphine as a mixture. Alternating the three drug-containing bottles had no effect on drug choice. When offered alone, rats consumed about 12 +/- 8 mg/kg/day of cocaine or 0.3 +/- 0.3 mg/kg/day of morphine. When both drugs were offered in combination, they consumed a higher amount of cocaine (22 +/- 7), but the same amount of morphine (0.4 +/- 0.3). Availability of cocaine/morphine mixture kept morphine consumption constant (0.3 +/- 0.1), but markedly decreased cocaine intake (0.3 +/- 0.2). Addition of saccharin to the drug solutions only slightly increased consumption of both drugs, whereas saccharin added as a competitor or distracter to the drug solution reduced cocaine but not morphine self-administration. Animals showed wide interindividual variations but surprisingly small intraindividual variations in self-administration of cocaine or morphine under all conditions. No correlation between cocaine and morphine intake was apparent in the combination situation. Forcing animals first with cocaine had no effect on subsequent intake of cocaine or morphine presented in combination. However, forcing animals first with morphine subsequently increased morphine and reduced cocaine intake. In conclusion, morphine intake was the same if offered alone, in combination or as a mixture, whereas cocaine intake increased during a combination but decreased in the mixture situation. Cocaine pre-exposure had no effect on subsequent voluntary morphine or cocaine choice, whereas morphine pre-exposure increased subsequent voluntary morphine but decreased cocaine intake. These results suggest the possibility of two reward centers, one for each drug, the morphine center exerting a dominant influence over the cocaine center.

Involvement of cholecystokinin within craving for cocaine: role of cholecystokinin receptor ligands

In the brain, cholecystokinin (CCK) has been described to act as a central neurotransmitter or neuromodulator involved in functions such as food consumption, stress and anxiety. Recently, the CCK system has been involved in drug dependence phenomena and proposed to be correlated to a putative state of 'drug preferring' phenotype within free choice tests. CCK exerts its action in the CNS through at least two different G-protein coupled high affinity receptors, CCK1 and CCK2. Various selective CCK receptor agonists and antagonists have been synthesised. In particular, L-364,718 has been demonstrated to be a potent and selective CCK1 receptor antagonist, whereas L-365,260 is a potent and selective CCK2 receptor antagonist. More recently, GV150013 has been reported to be a highly selective CCK2 receptor antagonist. This paper reviews the putative role of the CCK system within drug dependence phenomena. In particular, it analyses the relationship between central CCK activity and the exhibition of spontaneous preference for drugs of abuse, such as cocaine or alcohol. The potential therapeutic role for CCK receptor antagonists is also discussed.

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.

Stimulus control of addictive behavior: persistence in the presence and absence of a drug

Rats were exposed daily to a food schedule-induced polydipsia condition, in which water and 0.16 mg/ml cocaine solution were available concurrently, with the cocaine solution indicated by a discriminative stimulus (SD) light. The cocaine solution was preferred, and the preference was maintained when the SD was gradually eliminated by fading its intensity. For a second group, if cocaine concentration was the stimulus gradually eliminated, preference for the resulting solution (water) indicated by the SD was stably maintained. For two additional groups, if either the light SD or the cocaine stimulus was removed abruptly rather than gradually, few animals retained preferences. These studies reveal the importance of establishing strong stimulus control for the initiation and persistence of drug abuse behavior.

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: reinforcing efficacy by the place preference method

In three separate place preference conditioning (PPC) experiments, groups of rats were exposed to different modes of receiving cocaine: IP cocaine doses (7.5 mg/kg), PO cocaine self-administered bolus doses (15 mg/kg), and 1-h schedule-induced cocaine-solution drinking sessions (19.1 mg/kg). Oral cocaine self-administration of PO bolus and schedule induction took place in situations that preceded transfer into an apparatus for PPC sessions. Thus, the reinforcing efficacies of the pharmacological consequences of both oral cocaine self-administration methods were evaluated by a procedure separate from the self-administration behavior itself. The IP cocaine dose imposition and the two oral cocaine self-administration arrangements all resulted in dose-exposure conditions sufficient for the production of PPC. The serum and brain cocaine pharmacokinetics sufficient for the production of reinforcing efficacy were measured and related to previous data.