Morphine-conditioned single-trial place preference: role of nucleus accumbens shell dopamine receptors in acquisition, but not expression

Rationale A large body of evidence indicates an involvement of the mesolimbic dopamine (DA) pathway innervating the ventral striatum in the motivational effects of drug abuse.Objective The goal of the study is to clarify the role of DA D₁ and D₂ receptors of the rat nucleus accumbens (NAc) shell and core in the motivational effects of morphine as studied by conditioned place preference (CPP).Methods The effect of the intracerebral infusion of DA antagonists specific for DA D₁ (SCH 39166) and D₂ receptors (l-sulpiride) was studied in a single-trial place conditioning paradigm with fixed assignment of the drug to the unpreferred compartment.Results Morphine induced significant CPP at all the doses tested (0.5, 1.0, and 2.0 mg/kg, subcutaneously). A dose of 1.0 mg/kg was selected for further studies. Intra-NAc shell infusion of SCH 39166 and l-sulpiride at doses of 25 and 50 ng/1 μl per side impaired the acquisition of CPP by morphine. No effect was observed at 12.5 ng/1 μl per side. Intra-NAc core infusion of SCH 39166 (12.5, 25, and 50 ng/1 μl per side) did not affect the acquisition of morphine-induced CPP, while l-sulpiride (12.5, 25, and 50 ng/1 μl per side) impaired CPP acquisition only at the dose of 50 ng/1 μl per side. No effect on morphine-induced CPP was observed when the DA antagonists were infused into the NAc shell or core 10 min before the test session.Conclusion These results indicate that DA D₁ and D₂ receptors in the NAc shell are involved in the acquisition of morphine-induced CPP.     

Linking nucleus accumbens dopamine and blood oxygenation

RATIONALE: Animal research suggests that anticipation of reward can elicit dopamine release in the nucleus accumbens (NAcc). Human functional magnetic resonance imaging (FMRI) research further suggests that reward anticipation can increase local blood oxygen level dependent (BOLD) signal in the NAcc. However, the physiological relationship between dopamine release and BOLD signal increases in the NAcc has not yet been established. OBJECTIVES: This review considers pharmacological MRI (phMRI) evidence for a directional relationship between NAcc dopamine release and BOLD signal, as well as implications for human psychopathological symptoms. RESULTS: Accumulating phMRI evidence supports a simple model in which NAcc dopamine release activates postsynaptic D1 receptors, which changes postsynaptic membrane potential, eventually increasing local BOLD signal. This continuing influence can change on a second-to-second basis. CONCLUSIONS: Dopamine release in the NAcc appears to increase local BOLD signal via agonism of postsynaptic D1 receptors. Such a physiological mechanism implies that FMRI may be used to track symptoms related to NAcc dopaminergic dysregulation in psychiatric disorders including schizophrenia and attention deficit/hyperactivity disorder.     

Diazepam alters cocaine self-administration, but not cocaine-stimulated locomotion or nucleus accumbens dopamine

Cocaine is known to enhance nucleus accumbens dopamine (NAcc DA), to serve as a positive reinforcer and to produce negative effects, such as anxiety. The influence of diazepam on cocaine intake, cocaine-stimulated behavioral activity and NAcc DA was investigated using self-administration and experimenter-administered intravenous (i.v.) cocaine. In Experiment 1, rats were pretreated with diazepam (0.25 mg/kg) or saline (0.1 ml) 30 min prior to 20 daily 1-hour cocaine (0.75 mg/kg/injection) self-administration sessions. Cocaine intake increased for all animals across sessions, but was highest in diazepam-pretreated animals. Diazepam rats also self-administered their first cocaine injection of each session faster than controls. Experiment 2 utilized in vivo microdialysis to assess NAcc DA levels before and after experimenter-administered i.v. cocaine injections (0.75 mg/kg/injectionx2; 10-min interval) in diazepam- and saline-pretreated rats. Group differences were not revealed across basal and cocaine-stimulated NAcc DA assessments, indicating that diazepam did not decrease NAcc DA during cocaine self-administration. Findings that diazepam enhances cocaine self-administration and decreases cocaine response latency support the notion that cocaine-induced anxiety limits voluntary cocaine intake. It is further suggested that individual variations in cocaine-induced aversive effects may determine whether cocaine use is avoided or repeated.     

The effects of excitotoxic lesions of the nucleus accumbens core or shell regions on intravenous heroin self-administration in rats

RATIONALE: It has been suggested that the nucleus accumbens (NAcc) may be involved in heroin reward, and the core and shell regions respond differently following administration of a number of drugs of abuse. OBJECTIVE: The possible role of the NAcc core and shell subregions in the acquisition of heroin self-administration behaviour was investigated. METHODS: Rats were given selective excitotoxic lesions of either the nucleus accumbens core or shell before the acquisition of responding for i.v. heroin (0.04 mg/infusion) under a continuous reinforcement schedule in daily 3 h sessions. After sham-lesioned rats reached a stable baseline, a between-sessions heroin dose-response function was established. RESULTS: Rats with lesions of the NAcc shell did not differ significantly from sham controls in either the acquisition of heroin self-administration or in their heroin dose-response function. The NAcc core lesion group showed reduced levels of responding during the acquisition of heroin self-administration and a reduction in responding during the heroin dose-response function, although this behaviour was sensitive to changes in the dose of heroin. CONCLUSIONS: The NAcc shell does not appear to be critical for heroin self-administration, whereas the NAcc core, although apparently not essential in mediating the rewarding effect of i.v. heroin, may mediate processes that are of special importance during the acquisition of instrumental behaviour.     

Behavioral sensitization to quinpirole is not associated with increased nucleus accumbens dopamine overflow

This study assessed the relationship between extracellular nucleus accumbens (NAc) dopamine (DA) concentrations and sensitized locomotor activation following repeated administration of the DA D2-like receptor agonist quinpirole. Locomotor activity measures and nucleus accumbens microdialysis samples were collected concurrently in response to the first (acute) and tenth (repeated) quinpirole injection (0.5 mg/kg s.c., every other day). Results indicate that acute quinpirole produced locomotor activation and that repeated quinpirole resulted in locomotor sensitization. Acute quinpirole significantly decreased the detection of extracellular concentrations of DA and the DA metabolites dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) in the NAc. Following repeated quinpirole, basal NAc DA levels were decreased, whereas basal DOPAC levels were increased. Nevertheless, quinpirole challenge elicited a significant decrease in DA, DOPAC and HVA following repeated treatment. In addition, although acute quinpirole did not affect NAc levels of the serotonin metabolite 5-hydroxyindolacetic acid (5-HIAA), quinpirole challenge produced a significant increase in 5-HIAA levels following repeated treatment. Taken together, these data indicate that functional DA autoreceptor subsensitivity is not a necessary condition for the expression of behavioral sensitization to quinpirole. Instead, it appears that behavioral sensitization to quinpirole occurs predominantly as a consequence of neuroadaptations that are post-synaptic to DA release.     

Effects of muscimol, amphetamine, and DAMGO injected into the nucleus accumbens shell on food-reinforced lever pressing by undeprived rats

Previous studies have shown that large increases in food intake in nondeprived animals can be induced by injections of both the GABA_A agonist muscimol and the μ-opioid agonist DAMGO into the nucleus accumbens shell (AcbSh), while injections of the catecholamine agonist amphetamine have little effect. In the current study we examined whether injections of these drugs are able to increase food-reinforced lever pressing in nondeprived rats. Twelve subjects were trained to lever press on a continuous reinforcement schedule while food deprived and were then tested after being placed back on ad libitum feeding. Under these conditions, responding was markedly increased by injections of either muscimol or DAMGO, although the onset of the effects of the latter drug was delayed by 30-40 min. In contrast, amphetamine injections failed to increase reinforced lever pressing, although they did enhance responding on a non-reinforced lever, presumably reflecting alterations in behavioral activation. These results demonstrate that stimulation of GABA_A and μ-opioid receptors within the AcbSh is able to promote not only food intake, but also food-directed operant behavior. In contrast, stimulation of AcbSh dopamine receptors may enhance behavioral arousal, but does not appear to specifically potentiate behaviors directed toward food procurement.     

Conditioned reinforcement in rats established with self-administered nicotine and enhanced by noncontingent nicotine

Rationale Nicotine is widely assumed to convey reinforcing properties upon tobacco-related stimuli through associative learning. We have proposed that the reinforcement derived from these conditional stimuli can be inflated by a nonassociative “reinforcement-enhancing” effect of nicotine. Objectives Experiment 1 investigated whether nicotine could establish a stimulus as a conditioned reinforcer. Using the same subjects, Experiment 2 examined whether responding for a nicotine-associated stimulus was enhanced by response-independent administration of nicotine. Materials and methods Self-administered nicotine (Paired group, 0.03 mg kg¹ infusion⁻¹) or saline (conditional stimulus or CS-Only group) was paired with a stimulus light (CS). An Unpaired group, yoked to the Paired group, received equal exposure to nicotine and the CS, but each event was temporally separated. To test for conditioning, the CS was then made contingent upon a novel lever-pressing response. In Experiment 2, a subset of the paired rats (self-administering) continued to lever press while receiving contingent nicotine and the CS. To determine whether nicotine enhanced responding for the CS, two remaining subsets of the Paired group responded for the CS while receiving nicotine (YNIC) or saline (YSAL) yoked to the self-administering rats. All remaining control groups received response-contingent CS presentations, together with yoked nicotine or saline. Results Pairing self-administered nicotine with the CS promoted the acquisition of a novel response for the CS. In Experiment 2, the Paired YNIC group responded at higher rates than control groups receiving YNIC or YSAL. Conclusions Nicotine can establish stimuli as conditioned reinforcers for which noncontingent nicotine can enhance responding.     

Role of nucleus accumbens dopamine D1 and D2 receptors in instrumental and Pavlovian paradigms of conditioned reward

RATIONALE: This study investigated the role of nucleus accumbens dopamine D1 and D2 receptors in two different paradigms of conditioned reward. OBJECTIVE: We addressed the question whether accumbal dopamine is important for the motor or for the motivational components of reward. METHODS: We compared the effects of intra-accumbal infusion of the dopamine D1 receptor antagonist SCH23390 (0.3, 1.0, 3.0 microg) and the D2 receptor antagonist sulpiride (0.3, 1.0, 3.0 microg) on conditioned lever pressing for food, with the effects on the inhibition of the startle response by a conditioned reward signal. RESULTS: Both the D1 and the D2 antagonist dose-dependently attenuated conditioned lever pressing for reward under a fixed-ratio of responding and increased the consumption of freely available lab chow. However, the preference for freely available pellets, and the attenuation of the startle response in the presence of a conditioned stimulus predicting reward were not impaired by blockade of accumbal dopamine receptors. CONCLUSIONS: Our data support the idea that dopamine in the nucleus accumbens is necessary for instrumental response selection in the context of reward rather than for the mere motor performance of behavior or for the evaluation of the hedonic properties of rewarding stimuli.     

Beyond the reward hypothesis: alternative functions of nucleus accumbens dopamine

According to the dopamine (DA) hypothesis of reward, DA systems in the brain, particularly in the nucleus accumbens, are thought to directly mediate the rewarding or primary motivational characteristics of natural stimuli such as food, water and sex, as well as various drugs of abuse. However, there are numerous problems associated with this hypothesis. Interference with accumbens DA transmission does not substantially blunt primary motivation for natural rewards such as food, but it does disrupt the propensity of animals to engage in effortful responding to obtain food. Electrophysiological and voltammetric studies indicate that novel stimuli, conditioned stimuli that predict reward, and instrumental behaviors that deliver natural rewards all act to stimulate DA activity. Accumbens DA acts as a modulator of several functions related to motivated behavior, and can influence normal and pathological cognitive function, activational aspects of motivation, anergia or psychomotor slowing in depression, the impact of conditioned stimuli, plasticity and a variety of sensorimotor functions.     

The effects of nucleus accumbens core and shell lesions on intravenous heroin self-administration and the acquisition of drug-seeking behaviour under a second-order schedule of heroin reinforcement

RATIONALE: Evidence has implicated the nucleus accumbens (NAcc) in drug-seeking and -taking behaviour. However, the importance of the "core" and "shell" subdivisions of the NAcc in heroin-seeking and -taking behaviour remains unclear. OBJECTIVES: To investigate the function of the NAcc core and shell in heroin self-administration and heroin-seeking behaviour. METHODS: Male rats were trained to self-administer heroin (0.12 mg/kg per infusion) under a continuous reinforcement (CRF) schedule. After responding stabilised, rats were given excitotoxic (or sham) lesions of either the NAcc core or shell and after recovery were assessed for their retention of heroin self-administration under CRF. At this point a second-order schedule of reinforcement was introduced, commencing at FR10 (FR1:S) and terminating at FR10 (FR10:S), in which ten lever presses resulted in presentation of the heroin-associated CS+, and completion of ten such units resulted in drug infusion. RESULTS: Within 7 days, all groups re-acquired responding for heroin under CRF at rates similar to their pre-lesion performance. However, rats with lesions of the NAcc core, but not shell, were severely impaired in the acquisition of heroin-seeking behaviour. CONCLUSIONS: These results indicate an important role for the core of the NAcc in the acquisition of heroin-seeking behaviour under the control of drug-associated stimuli.     

Discrete neurochemical coding of distinguishable motivational processes: insights from nucleus accumbens control of feeding

Background and objectives  The idea that nucleus accumbens (Acb) dopamine transmission contributes to the neural mediation of reward, at least in a general sense, has achieved wide acceptance. Nevertheless, debate remains over the precise nature of dopamine’s role in reward and even over the nature of reward itself. In the present article, evidence is reviewed from studies of food intake, feeding microstructure, instrumental responding for food reinforcement, and dopamine efflux associated with feeding, which suggests that reward processing in the Acb is best understood as an interaction among distinct processes coded by discrete neurotransmitter systems. Results  In agreement with several theories of Acb dopamine function, it is proposed here that allocation of motor effort in seeking food or food-associated conditioned stimuli can be dissociated from computations relevant to the hedonic evaluation of food during the consummatory act. The former appears to depend upon Acb dopamine transmission and the latter upon striatal opioid peptide release. Moreover, dopamine transmission may play a role in ‘stamping in’ associations between motor acts and goal attainment and perhaps also neural representations corresponding to rewarding outcomes. Finally, evidence is reviewed that amino acid transmission specifically in the Acb shell acts as a central ‘circuit breaker’ to flexibly enable or terminate the consummatory act, via descending connections to hypothalamic feeding control systems. Conclusions  The heuristic framework outlined above may help explain why dopamine-compromising manipulations that strongly diminish instrumental goal-seeking behaviors leave consummatory activity relatively unaffected.

Distinct contributions of dopamine receptors in the nucleus accumbens core or shell to established cocaine reinforcement under a second-order schedule

Nucleus accumbens dopamine is implicated in the primary and conditioned reinforcing properties of abused drugs. In the present study, specific impairments in responding for intravenous cocaine (0.3 mg/inf/0.1 ml/5 s) under a fixed-ratio 1 (FR-1) or second-order schedule (FI 15 min (FR10:S)) were investigated following infusion of the dopamine antagonist, α-flupenthixol, into either the nucleus accumbens core or shell. Infusion of α-flupenthixol into the core decreased cocaine intake under the FR-1 and second-order schedules. By comparison, blockade of nucleus accumbens shell dopamine receptors increased cocaine intake under the FR-1 schedule. Under the second-order schedule, cocaine intake and the number of responses was decreased. Effects on responding were more apparent after self-administered cocaine, when impairments in the latency to receive cocaine infusions were no longer evident. These results are discussed with reference to a role for nucleus accumbens shell dopamine in instrumental responding, and a role of nucleus accumbens core dopamine in incentive motivation, perhaps under the control of contextual stimuli.     

The rewarding effect of aggression is reduced by nucleus accumbens dopamine receptor antagonism in mice

Rationale Dopamine (DA) receptors within the nucleus accumbens (NAc) are implicated in the rewarding properties of stimuli. Aggressive behavior can be reinforcing but the involvement of NAc DA in the reinforcing effects of aggression has yet to be demonstrated. Objective To microinject DA receptor antagonists into the NAc to dissociate their effects on reinforcement from their effects on aggressive behavior and general movement. Materials and methods Male Swiss Webster mice were implanted with guide cannulae aimed for the NAc and tested for aggressive behavior in a resident–intruder procedure. Aggressive mice were then conditioned on a variable-ratio 5 (VR-5) schedule with presentation of the intruder as the reinforcing event. The D1- and D2-like receptor antagonists SCH-23390 and sulpiride were microinfused (12–50 ng) before the mice responded on the VR-5 schedule and attacked the intruder. Open-field activity was also determined following the highest doses of these drugs. Results SCH-23390 and sulpiride dose-dependently reduced VR responding but did not affect open-field activity. The 50-ng SCH-23390 dose suppressed response rates by 40% and biting behaviors by 10%; other aggressive behaviors were not affected. The 25 and 50 ng sulpiride doses almost completely inhibited VR responding; the 50-ng dose suppressed biting by 50%. Conclusions These results suggest that both D1- and D2-like receptors in the ventral striatum are involved in the rewarding properties of aggression, but that D1-like receptors may be related to the motivation to earn reinforcement as opposed to aggressive behavior.     

Effects of nicotine and mecamylamine-induced withdrawal on extracellular dopamine and acetylcholine in the rat nucleus accumbens

RATIONALE: Prior research suggests that high levels of acetylcholine (ACh) in the nucleus accumbens (NAc) are associated with aversive states such as morphine withdrawal, but this has not been tested for nicotine withdrawal. OBJECTIVES: The goal was to test the hypothesis that acute nicotine decreases extracellular ACh and increases extracellular dopamine (DA) in the NAc, while withdrawal from nicotine causes an opposite neurochemical imbalance with high extracellular ACh and low DA. METHODS: Rats were prepared with a microdialysis probe in the NAc (primarily the shell region). They received one injection of nicotine (0.5 mg/kg, s.c.) or chronic nicotine (9 mg/kg per day via osmotic minipump). RESULTS: Naive animals receiving acute nicotine showed a mild, significant increase in both ACh (122% of baseline) and DA (124%). After chronic nicotine administration for 7 days, the nicotinic antagonist mecamylamine (1.0 mg/kg, s.c.) precipitated withdrawal with the appearance of somatic signs (teeth chattering and shakes/tremors) and a significant increase in extracellular ACh to 125% of baseline, while extracellular DA decreased to 65%. Control groups receiving saline in place of nicotine or mecamylamine did not show these effects. CONCLUSIONS: Earlier work suggests that the observed release of accumbens ACh and DA in response to acute nicotine administration may be a factor in nicotine-induced suppression of appetite. ACh release during withdrawal, coupled with the decrease in extracellular DA may play a role in the aversive aspects of nicotine withdrawal that contribute to dependency.     

Music and methamphetamine: conditioned cue-induced increases in locomotor activity and dopamine release in rats

Associations between drugs of abuse and cues facilitate the acquisition and maintenance of addictive behaviors. Although significant research has been done to elucidate the role that simple discriminative or discrete conditioned stimuli (e.g., a tone or a light) play in addiction, less is known about complex environmental cues. The purpose of the present study was to examine the role of a musical conditioned stimulus by assessing locomotor activity and in vivo microdialysis. Two groups of rats were given non-contingent injections of methamphetamine (1.0 mg/kg) or vehicle and placed in standard conditioning chambers. During these conditioning sessions both groups were exposed to a continuous conditioned stimulus, in the form of a musical selection (“Four” by Miles Davis) played repeatedly for 90 min. After seven consecutive conditioning days subjects were given one day of rest, and subsequently tested for locomotor activity or dopamine release in the absence of drugs while the musical conditioned stimulus was continually present. The brain regions examined included the basolateral amygdala, nucleus accumbens, and prefrontal cortex. The results show that music is an effective contextual conditioned stimulus, significantly increasing locomotor activity after repeated association with methamphetamine. Furthermore, this musical conditioned stimulus significantly increased extracellular dopamine levels in the basolateral amygdala and nucleus accumbens. These findings support other evidence showing the importance of these brain regions in conditioned learning paradigms, and demonstrate that music is an effective conditioned stimulus warranting further investigation.     

Nicotine-conditioned single-trial place preference: selective role of nucleus accumbens shell dopamine D1 receptors in acquisition

Rationale Experimental evidence indicates that the mesolimbic dopamine (DA) pathway innervating the ventral striatum is critically involved in the motivational effects of drug abuse. However, the role of DA transmission of the two main subdivisions of the nucleus accumbens (NAc), the shell and the core, in the motivational properties of nicotine is unknown. Objectives The aim of this study was to investigate the role of DA D₁ and D₂ receptors of the rat NAc shell and core in the motivational effects of nicotine using a conditioned place preference (CPP) paradigm. Methods The effect of the intracerebral infusion of DA antagonists specific for DA D₁ (SCH 39166) and D₂ receptors (l-sulpiride) was studied in a single-trial place-conditioning paradigm with fixed assignment of the drug to the unpreferred compartment. Results Nicotine induced significant CPP at the dose of 0.4 and 0.6 mg/kg subcutaneously (s.c.). Intra-NAc shell infusion of SCH 39166 (6.25, 12.5, 25 and 50 ng bilaterally, 10 min before nicotine administration), impaired in a dose-dependent manner the acquisition of CPP by nicotine (0.4 mg/kg s.c.). SCH 39166 failed to affect nicotine CPP when infused into the NAc core. l-Sulpiride (25 and 50 ng bilaterally) had no effect on acquisition after intra-Nac shell infusion. SCH 39166 and l-sulpiride were ineffective after infusion in the NAc shell and core 10 min before the test session. Conclusions The results indicate that dopamine D₁ but not D₂ receptors of the NAc shell are specifically involved in the acquisition of nicotine-induced CPP.     

The role of dopamine in alcohol self-administration in humans: Individual differences

Objective: To clarify dopamine's role in alcohol self-administration in a heterogeneous sample of drinkers using acute phenylalanine/tyrosine depletion (APTD). Methods: Sixteen men with variable drinking histories were characterized on their ethanol-induced cardiac response, a marker previously proposed to index dopamine system reactivity and vulnerability to alcohol abuse. During separate sessions participants were administered (i) a nutritionally balanced (BAL) amino acid (AA) mixture, (ii) a mixture lacking the dopamine precursors, phenylalanine and tyrosine, and (iii) APTD followed by the dopamine precursor, l-DOPA. Five hours after AA administration, participants could earn units of alcohol using a progressive ratio breakpoint task. Results: Alcohol self-administration was reduced in the APTD and APTD + l-DOPA conditions relative to the BAL condition. In both cases the changes were predicted by ethanol-induced cardiac change. Conclusions: The motivation to drink is likely regulated by more than one neurobiological mechanism. Individual differences in cardiac responsivity to ethanol might provide a peripheral marker of responsiveness to pharmacological manipulations of dopamine.     

Destruction of 5-hydroxytryptaminergic neurons and the dynamics of dopamine in nucleus accumbens septi and other forebrain regions of the rat

5,7-Dihydroxytryptamine (5,7-DHT) was injected into the lateral cerebral ventricle of rats which had been pretreated with desipramine; this treatment reduced the concentrations of 5-hydroxy-tryptamine (5-HT) but not of norepinephrine or dopamine (DA) in forebrain regions. When 5,7-DHT was injected bilaterally into the nucleus accumbens septi (NAS) of desipramine-pretreated rats, it selectively depleted 5-HT only from the NAS. Exploratory locomotor activity and the locomotor stimulation induced by f-amphetamine and apomorphine were enhanced in both NAS- and 5,7-DHT-injected rats. These locomotor effects in the 5-HT-depleted animals were not associated with changes in the activity of dopaminergic neurons, which were estimated biochemically from either the regional concentrations of dihydroxyphenylacetic acid (DOPAC) or the rate of accumulation of dihydroxyphenylalanine (DOPA) after the administration of a decarboxylase inhibitor. That is, the concentration of DOPAC and the accumulation of DOPA in the NAS, olfactory tubercle and striatum of NAS-5,7-DHT and 5,7-DHT-injected rats were the same as in controls. Furthermore, the ability of apomorphine to decrease, and of haloperidol to increase, DOPAC concentrations and DOPA accumulation were the same in control, NAS-5,7-DHT and 5,7-DHT-injected rats. These results indicate that the enhancement of spontaneous and drug-stimulated locomotor activity following destruction of 5-HT nerve terminals in the brain are not associated with changes in the activity of the major ascending DA-containing neuronal systems.     

Habit-forming actions of nomifensine in nucleus accumbens

Rats learned to lever-press when reinforced with response-contingent microinfusions of the dopamine uptake inhibitor nomifensine (1.7 nmol per injection) into the ventro-medial (shell) region of nucleus accumbens septi (NAS). The drug was not effective when similar injections were given either in random relation to lever-pressing, into the more dorso-lateral (core) region of NAS, or into the frontal cortex. Cocaine was also effective in NAS, but considerably less so. These data suggest that response-contingent dopamine uptake blockade within the NAS is sufficient to establish and maintain instrumental response habits.