Acquired appetitive responding to intravenous nicotine reflects a Pavlovian conditioned association. (original) (raw)

The Conditional Stimulus Effects of Nicotine Vary As a Function of Training Dose

Behavioural pharmacology, 2007

Previous studies have shown that the interoceptive nicotine conditional stimulus (CS) functions similarly to exteroceptive CSs such as lights or environments. For instance, the appetitive conditioned response (CR) evoked when nicotine is repeatedly paired with sucrose presentations (the unconditioned stimulus; US) is sensitive to changes in training dose (CS salience) and the contiguity between the CS effects and sucrose. The current study was conducted to extend this research by examining the possible role of US intensity in CR acquisition and maintenance. Rats were trained using one of four sucrose concentrations: 0, 4, 16, or 32% (w/v). On nicotine sessions (0.4 mg base/kg), rats received 36 deliveries (4 s each) of their assigned concentration intermittently throughout the session; sucrose was withheld on saline sessions. In all groups, an appetitive goal-tracking CR was acquired at a similar rate. However, the asymptotic CR level varied with sucrose concentration. The magnitude of the CR was increased in rats trained with higher sucrose US concentrations. These findings are consistent with previous Pavlovian conditioning research, and extend the conditions under which the nicotine state functions as an interoceptive conditional stimulus.

Nicotine as a signal for the presence or absence of sucrose reward: a Pavlovian drug appetitive conditioning preparation in rats

Psychopharmacology, 2004

Rationale: In Pavlovian conditioning research, nicotine is typically conceptualized as the unconditioned stimulus (US) that becomes associated with an exteroceptive conditioned stimulus (CS). This research has not explored the possibility that nicotine can also function as a CS. Objectives: The present research examined whether nicotine served as a CS for the presence (CS+) or absence (CS) of sucrose and started defining its specificity. Methods and results Rats trained in the CS+ condition had nicotine (0.4 mg/kg, base) paired intermittently with brief access to sucrose. Intermixed were saline sessions without sucrose. Nicotine acquired the ability to evoke goal tracking. This conditioned response (CR) decreased across extinction sessions. The CR was sensitive to nicotine dose (ED 50 =0.113 mg/kg) and administration to testing interval; 0-min and 100-min delays produced no CR. The CS properties were specific to nicotine in that amphetamine and bupropion substitution was incomplete. Rats in the CS condition received similar discrimination training except that sucrose was paired with saline. Nicotine also served as a CS; the saline state CS+ acquired control of goal tracking. Mecamylamine, but not hexamethonium, blocked nicotine's ability to serve as a CS+ and CS, indicating a role for central nicotinic acetylcholine receptors. Conclusions: Nicotine served as a signal for the presence or absence of sucrose. The extinction, CS, and substitution results eliminated a psychomotor stimulant account. The conceptualization of nicotine as a CS suggests novel empirical research in which a drug acquires additional inhibitory and/or excitatory value based on other outcomes present during its effects.

Interoceptive conditioning with the nicotine stimulus

Behavioural Pharmacology, 2013

Interoceptive conditioning involving the nicotine stimulus likely contributes to chronic tobacco use. To better understand the nature of this interoceptive conditioning, we compared generalization during repeated extinction with generalization in a 'transfer of extinction' test using a wide range of test doses. Rats were first trained in the discriminated goal-tracking task in which nicotine (0.2 or 0.4 mg/kg), but not saline, was paired with repeated intermittent access to sucrose. Across sessions, nicotine acquired control of approach behavior directed at the location of previous sucrose deliveries. Extinction followed with eight 20-min sessions without sucrose access; extinction doses of nicotine ranged from 0.05 to 0.6 mg/kg. In rats trained with 0.4 mg/kg, the 0.1, 0.2, and 0.6 mg/kg doses evoked comparable responding across extinction sessions; substitution was only partial at 0.05 and 0.075 mg/kg (i.e. above saline controls, but less than the training dose). With the 0.2 mg/kg training dose, complete generalization was seen only at the 0.1 and 0.4 mg/kg doses. After extinction, rats were given a transfer test with their training dose. Rats trained with 0.4 mg/kg showed full transfer of extinction learning with 0.1, 0.2, and 0.6 mg/kg (i.e. responding comparable with extinction with the training dose). Partial transfer was observed at 0.075 mg/kg. With the 0.2 mg/kg nicotine dose, only 0.4 mg/kg fully generalized; 0.075, 0.1, and 0.6 mg/kg showed partial transfer. Extinction with 0.05 mg/kg dose did not show transfer to either training dose. These findings indicated that conclusions regarding stimulus similarity across nicotine doses can vary with testing protocol.

Nicotine serves as a feature-positive modulator of Pavlovian appetitive conditioning in rats

2004

the hypothesis that nicotine can occasion appetitive Pavlovian relations via its action at central nervous system cholinergic receptors. stimulus (CS) (e.g. saccharin solution) to water-deprived rats. When the flavor is presented in a drug state (e,g. morphine; Martin et nl., 1990), i t is followed by an aversive outcome (i.e. lithium chloride injection). In the 0955-8810

Nicotine does not produce state-dependent effects on learning in a Pavlovian appetitive goal tracking task with rats

Behavioural Brain Research, 2007

Past research has shown that when rats received 0.4 mg base/kg nicotine paired reliably with intermittent sucrose delivery that anticipatory sucrose-seeking behavior (i.e., goal tracking) was differentially displayed in the nicotine state relative to intermixed saline sessions in which no sucrose was delivered. The present research extended this observation to a lower dose of nicotine (i.e., 0.2 mg base/kg) and tested a state-dependent learning account of differential conditioned responding. According to this account, the increase in goal tracking on nicotine sessions reflects a chambersucrose association that is only recalled when in the nicotine state. We used a 2 × 2 factorial design in which rats received sucrose deliveries in one drug state (nicotine or saline) and were then tested in the same state (Nic→Nic or Sal→Sal) or a different state (Nic→Sal or Sal→Nic) after acquiring the conditioned response. A state-dependency account predicts disruption in conditioned goal tracking for rats that receive a shift in drug state on the test day. This disruption did not occur suggesting that differential control of conditioned responding by nicotine is more likely due to a direct excitatory association between the interoceptive cueing effects of nicotine and the appetitive qualities of sucrose.

Characterization of nicotine's ability to serve as a negative feature in a Pavlovian appetitive conditioning task in rats

Psychopharmacology, 2006

Rationale Pavlovian feature negative discriminations have been widely used to understand inhibitory conditioning processes using exteroceptive stimuli. Comparatively little is known about inhibitory conditioning processes using a drug state as a negative feature. A negative feature signals that presentation of a conditional stimulus (CS) will not be paired with an unconditioned stimulus. Objectives: The present research examined whether nicotine served as a negative feature and started characterizing its properties. Methods and results: In acquisition, rats received intermixed saline and nicotine (0.4 mg/kg, base) sessions. On saline sessions, a 15-s light CS was paired with 4-s access to sucrose; the CS was presented on nicotine sessions, but sucrose was withheld. The discrimination was acquired with more goal tracking during the CS on saline sessions. Nicotine's inhibition of this conditioned response (CR) was sensitive to nicotine dose (ED 50 =0.225) and injection to testing interval (CR returned at 200 min). Mecamylamine pretreatment, but not hexamethonium, produced a loss of inhibitory control by nicotine suggesting a role for central nicotinic acetylcholine receptors. Amphetamine, bupropion, arecoline, and chlordiazepoxide, but not caffeine, substituted for the nicotine feature. However, in locomotor tests, amphetamine and bupropion increased activity; arecoline and chlordiazepoxide decreased activity. For this reason, the motor effects of these ligands could not be dissociated from substitution via shared stimulus properties. Conclusions: This feature negative task provides a preclinical model for studying how drug states inhibit responding, although identifying the process(es) mediating CR inhibition will require further research.

Nicotine administration enhances conditioned inhibition in rats

European Journal of Pharmacology, 2006

The effect of nicotine on conditioned inhibition was examined using a serial feature negative discrimination task. Nicotine (0.35mg/kg) or vehicle was administered before each of 16 training sessions. On some trials in each session, a tone was presented and followed by food reward. On other trials, the tone was preceded by a visual stimulus and not reinforced. Nicotine-treated rats exhibited greater discrimination between the two trial types as evidenced by less frequent responding during non-reinforced trials, and learned the discrimination in fewer sessions than vehicle-treated rats. In contrast, there were no group differences in responding during the reinforced trials.

Behavioral and neuropharmacological characterization of nicotine as a conditional stimulus

European journal of pharmacology, 2007

Although past research has shown that the interoceptive effects of nicotine serve as a conditional stimulus using sucrose as the unconditioned stimulus, very little is known about the importance of dose. Accordingly, rats were assigned to 0.1, 0.2, or 0.4 mg nicotine base/kg as the training dose. Sucrose (4-s access) was delivered 36 times on nicotine sessions; sucrose was withheld on intermixed saline sessions. The discrimination was acquired for all groups, as measured by more photobeam breaks in the dipper receptacle before the first sucrose delivery on nicotine sessions, compared with a similar interval on saline sessions. Thirty nicotine sessions without sucrose deliveries (extinction) decreased conditioned responding with the 0.4 mg/kg dose maintaining higher responding than the lower doses. After reestablishing discrimination performance, rats were tested with their training dose at various injection-to-placement intervals. Conditioned responding diminished with longer intervals; 0.4 mg/kg nicotine-evoked conditioned responding at longer intervals. Subsequent generalization testing with nicotine or saline at the 5-min training interval found that conditioned responding was evoked by lower test doses in the 0.1 mg/kg group than in the other groups. Combined, this research demonstrates that the nicotine conditional stimulus shows some variation with training dose.