Lack of Self-Administration of Cocaine in Dopamine D₁ Receptor Knock-Out Mice

Cocaine self-administration in mice previously trained with food reinforcement: acquisition and effect of cocaine dose. Abscissas, Session number (top row) or cocaine dose in milligrams per kilogram per injection (bottom row); points above zero depict data from saline self-administration. Ordinates, Nose pokes (top row) and cocaine injections self-administered (bottom row) in 3 h sessions under the FR 1 schedule. Cocaine dose was 1.0 mg/kg per injection during acquisition (top row). Filled symbols show data for wild-type (+/+) mice, and open symbols show data for mutant (−/−) mice. Squares show data for reinforced nose pokes (active hole), and diamonds show data for nonreinforced nose pokes (inactive hole). In top left, group size decreases with increasing session number as acquisition tests ceased for each mouse as soon as they met criteria for self-administration. After acquisition tests, 2 of the 20 wild-type mice did not complete dose–effect determinations because of catheter failure or illness (bottom left). After acquisition tests, half of the mutant mice were tested with various cocaine doses in consecutive sessions (bottom right), and the other half were tested with food and cocaine reinforcement alternately (see Fig. 4). All symbols depict group means and SEM. Asterisks indicate significantly different from saline self-administration by pairwise comparison (*p < 0.05, **p < 0.01) following significant main effect of cocaine dose by ANOVA.

Nose-poke behavior reinforced with liquid food: acquisition and effect of food concentration. Abscissas, Session number (top row) or liquid food concentration (bottom row). Ordinates, Nose pokes in 2 h sessions under the FR 1 schedule. Liquid food concentration was 100% during acquisition (top row). Filled symbols show data for wild-type (+/+) mice, and open symbols show data for mutant (−/−) mice. Squares show data for reinforced nose pokes (active hole), and diamonds show data for nonreinforced nose pokes (inactive hole). Circles and triangles show data for a second determination of the concentration–effect curve for reinforced and nonreinforced nose pokes, respectively. All symbols depict group means and SEM. Significant main effects included genotype, session number, hole selection, food concentration, and multiple main interactions (for details, see Results).

Alternating daily test sessions with either cocaine or food as the reinforcer in groups of D₁ receptor mutant (−/−) mice. Abscissas, Session number (top row) or reinforcers available (bottom row). Ordinates, Reinforced nose-poke responses per session under the FR 1 schedule (top row) or percentage of mutant mice that met criteria for acquisition of responding (bottom row). Food concentration was 100% in all panels and is depicted in dark gray bars, and cocaine was 0.32, 1.0, or 3.2 mg/kg per injection and is depicted in lighter gray bars. Numbers at top of each bar indicate number of mice that met criteria/group size. Asterisks indicate statistical significance (*p < 0.05, **p < 0.01; all data analyzed by χ² test for reinforcer type, i.e., food or cocaine).

Operant behavior in representative individual mice. Abscissas, Time within a session (top and middle) or cocaine dose in milligrams per kilogram per injection (bottom). Ordinates, Cumulative number of liquid food deliveries (top) or cocaine injections (middle) within a session, or total cocaine injections earned in a 3 h session under the FR 1 schedule (bottom). Each slanted tick mark indicates a reinforced nose-poke response (top and middle). Bold cumulative records and filled squares show data from a wild-type mouse, and thin cumulative records and open squares show data from a mutant mouse. Top and middle show data from single sessions, and bottom shows data averaged from two determinations for each dose of cocaine for each mouse. Mouse #30 was representative of the group of wild-type mice, whereas mouse #40 was representative of those two mutant mice that initially met criteria for cocaine self-administration but did not self-administer any dose of cocaine at rates profoundly higher than saline. Nonreinforced (inactive) nose pokes were extremely low throughout the tests (e.g., 3 inactive nose pokes for mouse #30 and 1 inactive nose poke for mouse #40 during the tests shown in the middle).

Self-administration of the D₁-selective agonist SKF 82958 and the D₂-selective agonist quinelorane in wild-type (+/+) or D₁ receptor mutant (−/−) mice. Abscissas, Training history (left column) or unit dose in micrograms per kilogram per injection of SKF 82958 (top right) or in milligrams per kilogram per injection of quinelorane (bottom right); points above zero depict data from saline self-administration. Ordinates, Percentage of mice that met criteria for self-administration of direct dopamine agonists (left top, 10 μg/kg per injection of SKF 82958; bottom left, 0.32 mg/kg per injection of quinelorane) or number of injections per 3 h session under the FR 1 schedule (right column). Numbers at top of each bar in left column indicate number of mice that met criteria/group size. All symbols in right column depict group means and SEM. Asterisks in left column indicate statistical significance (*p < 0.05, **p < 0.01) analyzed by Mann–Whitney U test for genotype. Asterisks in right column indicate significantly different from saline self-administration by pairwise comparison (*p < 0.05, **p < 0.01) following significant main effect of unit dose by ANOVA. Some D₁ receptor mutant (−/−) mice were also given access to several doses of each dopamine agonist but none of them met criteria for self-administration (data not shown).

Self-administration of the opioid agonist remifentanil in wild-type (+/+) or D₁ receptor mutant (−/−) mice. Abscissas, Dose of remifentanil self-administered (0.01 mg/kg per injection or zero, i.e., saline). Ordinates, Injections per 3 h session under the FR 1 schedule. All bars indicate group means and SEM. Asterisks indicate significant main effect of dose by ANOVA (**p < 0.01).