Cocaine in utero enhances the behavioral response to cocaine in adult rats.

The effects of cocaine exposure in utero on cocaine-induced behaviors and dopamine (DA) transmission in the nigrostriatal and mesolimbic pathways were measured in adult rats. Pregnant rats received either saline or cocaine (1 or 3 mg/kg, IV) daily throughout gestation. When offspring were 3 months of age, locomotor and stereotypic behaviors were rated after an injection of either saline or cocaine (10 mg/kg, IP). Cocaine in utero increased the response to cocaine in adult offspring and increased basal locomotion in female offspring. Cocaine in utero increased amphetamine-stimulated release in female offspring but decreased release in males. On the other hand, male rats that had received cocaine in utero exhibited greater basal tritium release. One injection of cocaine increased amphetamine-stimulated [3H]DA release from striatal slices of male rats but not female rats. Neither cocaine in utero nor in vivo affected D2 DA receptor binding in striatum nor nucleus accumbens. Thus, cocaine in utero behaviorally sensitized animals to subsequent cocaine exposure and increased [3H]DA release from nigrostriatal endings, but the relationship of these two variables depended upon gender.     

Decreased accumbens dopamine release after cocaine challenge in behaviorally sensitized female rats

The effects of the competitive NMDA receptor antagonist CPP on the initiation of behavioral sensitization to acute cocaine and basal and acute cocaine-induced dopamine (DA) release in the nucleus accumbens (NAC) were assessed in female Sprague-Dawley rats. Cocaine pretreated rats (30 mg/kg IP, once daily for 7 days) challenged with cocaine (10 mg/kg) on day 8 displayed increased motor activity relative to controls challenged with cocaine on day 8. This effect was blocked in rats receiving CPP (2 mg/kg) 15 min prior to all cocaine pretreatments. Basal DA levels in the NAC of both cocaine-pretreated and CPP plus cocaine-pretreated rats were higher on day 8 compared to controls. Acute cocaine challenge on day 8 resulted in increased extracellular DA concentrations in the NAC in control rats, no increase in rats pretreated with CPP plus cocaine, and a decrease in rats pretreated with cocaine only. These data demonstrate that development of behavioral sensitization to cocaine in female Sprague-Dawley rats can be completely blocked by a peripherally administered competitive NMDA receptor antagonist and that an increase in DA release in the NAC after a cocaine challenge is not an absolute requirement for expression of motor sensitization to cocaine in female rats.     

Orphanin FQ/nociceptin attenuates motor stimulation and changes in nucleus accumbens extracellular dopamine induced by cocaine in rats

RATIONALE: Orphanin FQ (OFQ; also known as nociceptin), the endogenous ligand of the opioid receptor-like receptor, injected intracerebroventricularly (i.c.v.) decreases basal motor activity and basal extracellular levels of dopamine (DA) in the nucleus accumbens (Nuc Acc) in rats. OBJECTIVE: The present study was designed to determine if OFQ similarly attenuates cocaine-induced motor stimulation and to determine if this effect is dependent on attenuation of the increase in extracellular DA. METHODS: After a 1-h adaptation period, rats were injected with either artificial cerebrospinal fluid or OFQ (3-30 nmol, i.c.v.) 5 min prior to cocaine (10 mg/kg, i.p.) or apomorphine (3 mg/kg, i.p.) administration and the total distance traveled was measured for a further 1 h. In a separate experiment, changes in extracellular DA were monitored by microdialysis following cocaine and OFQ treatment in anesthetized rats. RESULTS: OFQ dose-dependently attenuated both basal and cocaine-induced motor stimulation. OFQ (30 nmol, i.c.v.) also attenuated both the basal and the cocaine-induced increase in extracellular DA in the Nuc Acc. OFQ, at the highest dose, also decreased the motor stimulation induced by apomorphine. CONCLUSIONS: Our results suggest that the modulatory effect of OFQ on locomotor activity is not solely due to its inhibitory action on extracellular DA in the Nuc Acc.     

Effects of cocaine in rats exposed to heroin.

We investigated whether chronic exposure to heroin alters responses to cocaine in ways that might explain the use of cocaine by opioid addicts. To this end, the effects of cocaine (5 and 20 mg/kg) were assessed on locomotor activity of rats chronically exposed to heroin (0.0, 3.5, 7.0, and 14.0 mg/kg/day, over 14 days, via osmotic mini-pumps), or withdrawn from heroin (1 day, acute withdrawal, and 14 days, protracted withdrawal). Chronic heroin exposure, in itself, dose dependently increased locomotion and acute cocaine administration further elevated locomotor activity in a dose-dependent and additive manner. During acute withdrawal, there was a dose-dependent decrease in locomotion that was reversed by cocaine in a dose-dependent manner. During protracted withdrawal, spontaneous locomotion normalized, but rats previously exposed to heroin displayed cross-sensitization to cocaine as indicated by small, but significant, enhanced locomotor response to 5 mg/kg of cocaine, and enhanced intravenous self-administration of low doses of cocaine (0.13 mg/kg/infusion). In a separate study, we measured extracellular dopamine (DA) in the nucleus accumbens (Acb) using in vivo microdialysis before and after acute withdrawal from heroin. During chronic exposure to heroin, basal extracellular DA was elevated dose dependently, whereas in acute withdrawal, levels were not different from those in vehicle-treated rats. In response to cocaine, however, DA activity in the Acb was significantly lower in rats withdrawn from the highest dose of heroin.     

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.     

A cocaine analog, 2beta-propanoyl-3beta-(4-tolyl)-tropane (PTT), reduces tyrosine hydroxylase in the mesolimbic dopamine pathway

Tyrosine hydroxylase (TH) is the rate-limiting enzyme in catecholamine biosynthesis. Previously published results have established that chronic cocaine administration (30-45 mg/kg per day, 10-14 days) resulted in an upregulation of TH gene expression in dopaminergic pathways of rats. The present studies tested the effects of a tropane analog, PTT (2beta-propanoyl-3beta-(4-tolyl)-tropane), on TH expression. This drug has similar actions to cocaine, but possesses markedly different pharmacokinetics (20 times more potent at binding the dopamine transporter, markedly increased metabolic stability, and 10-20 times more potent in behavioral measures). Moreover, PTT demonstrates an increased selectivity for the dopamine (DA) and norepinephrine (NE) transporters compared with cocaine. In direct contrast to the previously reported effects of cocaine, 10 days of PTT administration (3.0 mg/kg per day, i.p.) produced a uniform downregulation of TH protein and activity gene expression. TH activity and immunoreactive protein where decreased by 54 and 69%, respectively in the nucleus accumbens. Within the ventral tegmental area, TH activity and protein were decreased by 33 and 19%, respectively. The underlying mechanisms for these fundamental differences are unclear, but likely reflect varying and selective affinities and lengths of occupancy at biogenic amine transporters.     

Differential Effects of Cocaine on Dopamine Neuron Firing in Awake and Anesthetized Rats

Cocaine (benzoylmethylecgonine), a natural alkaloid, is a powerful psychostimulant and a highly addictive drug. Unfortunately, the relationships between its behavioral and electrophysiological effects are not clear. We investigated the effects of cocaine on the firing of midbrain dopaminergic (DA) neurons, both in anesthetized and awake rats, using pre-implanted multielectrode arrays and a recently developed telemetric recording system. In anesthetized animals, cocaine (10 mg/kg, intraperitoneally) produced a general decrease of the firing rate and bursting of DA neurons, sometimes preceded by a transient increase in both parameters, as previously reported by others. In awake rats, however, injection of cocaine led to a very different pattern of changes in firing. A decrease in firing rate and bursting was observed in only 14% of DA neurons. Most of the other DA neurons underwent increases in firing rate and bursting: these changes were correlated with locomotor activity in 52% of the neurons, but were uncorrelated in 29% of them. Drug concentration measurements indicated that the observed differences between the two conditions did not have a pharmacokinetic origin. Taken together, our results demonstrate that cocaine injection differentially affects the electrical activity of DA neurons in awake and anesthetized states. The observed increases in neuronal activity may in part reflect the cocaine-induced synaptic potentiation found ex vivo in these neurons. Our observations also show that electrophysiological recordings in awake animals can uncover drug effects, which are masked by general anesthesia.     

Role of dopamine D3 receptors in controlling the expression of cocaine sensitization in rats

It is established that dopamine (DA) is an important brain mediator of the behavioral (i.e. sensitizing) effects of cocaine in rodents. Among DA receptors, recent findings point to engagement of DA D3 receptors in cocaine addictive actions. In the present study, we attempted to determine the role of DA D3 receptors in the expression phase of sensitization to cocaine in rats, using the selective ligands 7-OH-PIPAT (an agonist) and nafadotride (an antagonist) of these receptors. Repeated administration (1-5 days) of cocaine (10 mg/kg, ip) to male Wistar rats significantly enhanced the locomotor activation induced by its challenge dose given after 5-day withdrawal (on day 10). 7-OH-PIPAT (1 mg/kg, but not 0.01-0.1 mg/kg, sc) administered together with a challenge dose of cocaine significantly decreased the response to cocaine in rats treated repeatedly with cocaine. On the other hand, the expression of cocaine sensitization was increased when that drug was combined with nafadotride (0.4 mg/kg, ip) on day 10. The results indicate a role of DA D3 receptors in controlling the expression of cocaine sensitization in rats, and may suggest an importance of DA D3 receptor agonists in the therapy of cocaine abuse.     

Protracted Abstinence From Extended Cocaine Self-Administration Is Associated With Hypodopaminergic Activity in the VTA but Not in the SNc

The chronic relapsing nature of cocaine addiction suggests that chronic cocaine exposure produces persistent neuroadaptations that may be temporally and regionally dynamic in brain areas such as the dopaminergic (DA) system. We have previously shown altered metabolism of DA-target structures, the ventral and dorsal striatum, between early and late abstinence. However, specific changes within the midbrain DA system were not investigated. Here, we investigated potential time- and region-specific changes of activity in the ventral tegmental area (VTA) and the substantia nigra pars compacta (SNc) in rats that had extended or limited access to cocaine and later underwent a period of abstinence. We found that DA activity is decreased only in the VTA in rats with extended access to cocaine, with no changes in SNc DA activity. These changes in VTA DA activity may participate in the negative emotional state and the incubation of drug seeking that occur during abstinence from cocaine.     

Effects of chronic buprenorphine treatment on levels of nucleus accumbens glutamate and on the expression of cocaine-induced behavioral sensitization in rats

Rationale

Chronic treatment with the mu-opioid receptor agonist, buprenorphine, reduces cocaine-induced behaviors in rats with a history of cocaine self-administration. The mechanisms underlying these actions of buprenorphine remain unclear.

Objectives

The objective of this study is to investigate the effects of chronic buprenorphine treatment on cocaine-induced activity and levels of glutamate and dopamine (DA) in the nucleus accumbens (NAc) in rats that were preexposed to cocaine or drug-naïve.

Materials and methods

In experiment 1, basal levels of NAc glutamate were assessed using in vivo microdialysis in cocaine-naïve rats that were treated chronically with buprenorphine (3.0 mg/kg per day) via osmotic minipumps or that underwent sham surgery. In experiment 2, rats were preexposed to seven daily injections of cocaine or saline. After a 12–16-day drug-free period, extracellular levels of NAc glutamate and DA and locomotor activity were assessed simultaneously, before and after an acute injection of cocaine (15 mg/kg, intraperitoneal), in rats under sham and chronic buprenorphine (3.0 mg/kg per day) treatment.

Results

Chronic buprenorphine treatment increased basal levels of glutamate in drug-naïve and cocaine-preexposed rats, blocked the expression of locomotor sensitization to cocaine, and potentiated the NAc DA response to acute cocaine in cocaine-preexposed rats.

Conclusions

These findings suggest that buprenorphine may block the expression of cocaine sensitization and other cocaine-related behaviors by increasing basal levels of glutamate in the NAc, which would serve to decrease the effectiveness of cocaine or cocaine-associated cues.     

Differential neurochemical and behavioral adaptation to cocaine after response contingent and noncontingent exposure in the rat

Rationale In naive rats, passive administration of drugs of abuse preferentially increases extracellular dopamine (DA) in the nucleus accumbens (NAc) shell as compared to the core. Repeated exposure to the same drugs results in behavioral and biochemical sensitization characterized by stereotyped activity and reduction of the shell/core DA response ratio. Objectives The aim of this work is to study the neurochemical and behavioral effects of response-contingent vs response-noncontingent drug administration in rats, who were bilaterally implanted with chronic intracerebral guide cannulae and trained to self-administer cocaine by nose poking in daily 1-h sessions for 3 weeks (5 days/week). Nose poking in the active hole by master rats resulted in intravenous injection of cocaine (0.25 mg/kg) in master rats and in rats yoked to them. Dialysate DA was monitored before, during, and for 30 min after cocaine availability on alternate days by inserting the probe into the NAc shell and core. Stereotyped and non-stereotyped behavior was recorded during the sessions. Results In master rats, dialysate DA increased preferentially in the NAc shell during cocaine self-administration throughout the 3 weeks of cocaine exposure. In yoked rats, DA increased preferentially in the shell but to a lesser extent than in master rats. With continued exposure to cocaine, the shell/core ratio of DA changes decreased progressively and, on the third week, was reversed so that DA increased more in the core than in the shell. Yoked rats showed a progressive and faster increase in stereotyped behaviors than master rats. Conclusions Response-noncontingent cocaine administration is particularly prone, compared to response-contingent administration, to induce behavioral and biochemical sensitization.     

Estrogen regulates responses of dopamine neurons in the ventral tegmental area to cocaine

RATIONALE: Sex differences in cocaine abuse have been well documented. However, the underlying mechanism remains unclear. OBJECTIVES: To explore the potential role of ovarian hormones in the regulation of dopamine (DA) neuron firing activity in ventral tegmental area (VTA) induced by acute cocaine in intact female or ovariectomized (OVX) rats. RESULTS: The basal firing activity of VTA DA neurons was changed in a manner phase-locked to the estrous cycle: being highest in estrus and lowest in proestrus. Acute cocaine produced greater inhibition (P < 0.05) on the firing of VTA DA neurons during proestrus than during estrus. The inhibitory effect was completely blocked by OVX and restored by replacement of 17-beta-estradiol or, to a less extent, by replacement of progesterone. In addition, we also detected female hormone-associated changes in slow oscillation in VTA DA neurons. The results indicate that ovarian hormones, particularly estrogen, not only synergize with the inhibitory effect of cocaine on VTA DA neuron activity but also play an essential role in maintaining the sensitivity of DA neurons to cocaine-mediated inhibition on firing. Moreover, pretreatment of estrogen receptor (ER) antagonist raloxifene or a selective ERalpha antagonist Y134 largely attenuated the cocaine-inhibited DA neuron firing. We also found that cocaine-induced locomotor activity was estrous cycle dependent; 17-beta-estradiol but not progesterone replacement restored the cocaine-induced locomotor activity in OVX rats. CONCLUSION: The present results demonstrated that ovarian hormones, particularly estrogen, produce profound effect on VTA DA neuron activity, which, in turn, may contribute to the sex differences in response to psychostimulants.     

Pharmacological reactivity to cocaine in adult rats undernourished at perinatal age: behavioral and neurochemical correlates

The influence of neuronal alterations induced by early undernutrition on the stimulant effect of cocaine was assessed in adult rats submitted to a protein deprivation schedule at perinatal age. To evaluate the sensitization phenomenon induced by repeated cocaine administration, different groups of control (C) and deprived (D) rats received a daily injection of cocaine (5, 10 or 15 mg/kg, i.p.) for 16 days. Behavioral parameters were assessed every two days in an open-field. Dose-response curves obtained with different doses of cocaine used revealed a shift to the left in the locomotor activity curves of D rats compared to controls. Thus, D animals showed a clear behavioral sensitization to the lower dose of cocaine, whereas this phenomenon was only observed in C rats for the higher dose used. To correlate this differential development of sensitization with neurochemical parameters, we assessed extracellular dopamine (DA) levels in nucleus accumbens (core and shell) and in the dorsal caudate-putamen, using a microdialysis technique. A challenge with cocaine in cocaine pre-exposed animals produced a different increase in DA output only in nucleus accumbens "core" of D animals. Comparable DA levels were observed in nucleus accumbens shell and in dorsal caudate-putamen of both groups. These results demonstrate that D rats had a lower threshold developing a progressive behavioral sensitization following repeated cocaine administration, as well as higher responsiveness of the nucleus accumbens (core) expressed by increased DA release.     

Increased vulnerability to cocaine addiction in mice lacking dopamine D3 receptor

Neuroimaging studies using positron emission tomography suggest that reduced dopamine(DA) D2 receptor(D2R) availability in the striatum is associated with increased vulnerability to drug addiction in humans and experimental animals.However,the role of D3R in the neurobiology of addiction remains unclear.Here we report that D3R-knockout(D3-/-) mice display enhanced cocaine(and sucrose) taking observed during the acquisition and maintenance of cocaine self-administration and enhanced motivation for cocaine(and sucrose) seeking observed during progressive-ratio cocaine self-administration and extinction from cocaine self-administration.This increased vulnerability to cocaine was accompanied by decreased DA response to cocaine secondary to increased basal levels of extracellular DA in the nucleus accumbens,suggesting that enhanced cocaine-taking and cocaine-seeking behavior could be a compensatory response to decreased cocaine reward in D3-/-mice.In addition,D3-/-mice also displayed up-regulation of DA transporter in the striatum,suggesting that a neuroadaptative change occurred D3-/-mice to restore elevated basal levels of extracellular DA.These findings,for the first time,suggest that deletion of D3R increases vulnerability to cocaine-taking and cocaine-seeking behavior.Thus,reduced D3R availability in the brain constitutes an important risk factor for the development of cocaine addiction.     

Population pharmacokinetics, brain distribution, and pharmacodynamics of 2nd generation dopamine transporter selective benztropine analogs developed as potential substitute therapeutics for treatment of cocaine abuse

A second generation of N-substituted 3alpha-[bis(4'-fluorophenyl)methoxy]-tropanes (GA 1-69, JHW 005 and JHW 013) binds with high affinity to the dopamine transporter (DAT) and are highly selective toward DAT compared to muscarinic receptor binding (M1). The objective of this study was to characterize brain distribution, pharmacokinetics, and pharmacodynamics [extracellular brain dopamine (DA) levels] of three novel N-substituted benztropine (BZT) analogs in male Sprague-Dawley rats. The BZT analogs displayed a higher distribution (Vd = 8.69-34.3 vs. 0.9 L/kg) along with longer elimination (t l/2: 4.1-5.4 vs. 0.5 h) than previously reported for cocaine. Brain-to-plasma partition coefficients were 1.3-2.5 vs. 2.1 for cocaine. The effect of the BZT analogs on extracellular brain (DA) levels ranged from minimal effects (GA 1-69) to several fold elevation (approximately 850% of basal DA for JHW 013) at the highest dose evaluated. PK/PD analysis of exposure-response data resulted in lower IC50 values for the BZT analogs compared to cocaine indicating their higher potency to inhibit DA reuptake (0.1-0.3 vs. 0.7 mg/L). These BZT analogs possess significantly different PK and PD profiles as compared to cocaine suggesting that further evaluation as cocaine abuse therapeutics is warranted.     

Effect of chronic cocaine treatment on D2 receptors regulating the release of dopamine and acetylcholine in the nucleus accumbens and striatum.

The inhibition of electrically stimulated [3H]DA and [14C]ACh release by a submaximal concentration of quinpirole was measured 1 week after pretreating rats for 9 days with cocaine (15 mg/kg IP, twice per day). Although this pretreatment significantly enhanced behavioral response to a challenge injection of cocaine when compared with rats pretreated with saline only, no significant differences were apparent in the degree of inhibition of electrically evoked [3H]DA or [14C]ACh release by quinpirole in either the nucleus accumbens or striatum. In addition, the potentiation of electrically evoked [3H]DA release and corresponding inhibition of [14C]ACh release by 10 microM cocaine, measured in striatal slices only, was not significantly different between the two treatment groups. These results suggest that the enhanced behavioral response resulting from chronic cocaine treatment (behavioral sensitization) is not caused by a subsensitivity of D2 terminal autoreceptors or by a supersensitivity of postsynaptic D2 receptors on cholinergic neurons.     

Reduced dopamine terminal function and insensitivity to cocaine following cocaine binge self-administration and deprivation.

Despite large numbers of studies describing neuroadaptations caused by chronic cocaine exposure, there remains considerable uncertainty as to whether alterations in dopamine (DA) neurotransmission are responsible for progression into an addicted state. High-intake, 24-h access cocaine self-administration (SA, 10 days) followed by an extended (7 days), but not 1 day deprivation period produces an increased motivation to SA cocaine as measured by a progressive ratio protocol. Following binge cocaine SA and deprivation, the status of DA terminals in the nucleus accumbens (NAc) was investigated using microdialysis in freely moving rats and voltammetry in brain slices. At 1 and 7 days following binge cocaine SA, baseline extracellular DA concentrations in the NAc core were decreased by 40 and 55% of control levels, in the 1 and 7 day deprivation groups, respectively. Acute cocaine (1.5 mg/kg, i.v.) administration increased extracellular DA (350%) in the NAc core of na?ve animals but failed to significantly increase DA at 1 or 7 days following binge cocaine SA. The shell of the NAc showed a similar lack of effect of cocaine. Analysis of DA terminals in brain slices showed that cocaine was markedly less effective in inhibiting DA uptake at 1 and 7 days of cocaine deprivation (max effect 40% of control). Electrically stimulated DA release was decreased at 1 day and further decreased at 7 days of deprivation (67 and 49% of control, respectively). The rate of DA uptake was increased (150% of control) following binge SA, irrespective of deprivation period. Finally, presynaptic autoreceptors were subsensitive at both time points, as measured by the ability of quinpirole, a D2-like DA receptor agonist, to inhibit DA release. Thus, the NAc was hypodopaminergic and DA terminals were less sensitive to cocaine following binge cocaine SA and deprivation.     

Certain or uncertain cocaine expectations influence accumbens dopamine responses to ;self-administered cocaine and non-rewarded operant behavior

Uncertainty and errors in predicting natural rewards influence associative learning and dopamine activity. The present study was conducted to determine the influence of cue-induced cocaine uncertainty, certainty and prediction error on nucleus accumbens dopamine (NAcc DA) in rats. For Certainty training, distinctive sensory cues were present during cocaine availability and alternate cues were paired with non-reinforced (saline) operant sessions. For Uncertainty training, all cues were equally associated with both cocaine and non-reinforcement. After training, animals self-administered cocaine or saline in the presence of conditioned cues while NAcc DA responses were assessed using in vivo microdialysis. Findings revealed cocaine-stimulated NAcc DA increased significantly less in Certainty - compared to Uncertainty-trained animals, and cocaine-paired cues in the absence of cocaine (Negative Prediction Error) resulted in a significant depression of baseline NAcc DA. These findings provide support for enhanced DA activity during cocaine uncertainty or the development of conditioned cocaine tolerance in subjects certain of a cocaine outcome.     

Dopamine efflux during withdrawal from continuous or intermittent cocaine

Daily, intermittent, subcutaneous cocaine injections produce sensitization, while the continuous administration of cocaine produces tolerance to the behavioral effects of subsequent cocaine injections. The present experiments examined whether these behavioral differences are related to differences in the ability of cocaine to increase extracellular dopamine. Increases in perfusate DA, in response to different concentrations of cocaine, were measured in caudate-putamen slices obtained from rats withdrawn for 7 days from a 14-day treatment of either continuous or daily subcutaneous cocaine injections. Compared to saline controls, cocaine-induced DA efflux was increased in subjects receiving daily injections and markedly decreased in subjects receiving continuous cocaine. Thus, different temporal patterns of cocaine administration produce dramatically different alterations in DA neurotransmission. Such changes in dopamine release may be related to the withdrawal symptoms experienced by human cocaine abusers.     

Altered activity of midbrain dopamine neurons following 7-day withdrawal from chronic cocaine abuse is normalized by D2 receptor stimulation during the early withdrawal phase.

Using in vivo single-unit recording in rats, we compared the effects of continuous cocaine infusion via minipump or single daily injections (both 40 mg/kg/d x 14 days, S.C.) on the activity of putative dopamine (DA) neurons in the substantia nigra pars compacta (SNC) and ventral tegmental area (VTA). On days 1-5 after cocaine withdrawal, animals were further treated with single daily injections of DA agonists. On withdrawal day 7 continuous cocaine caused a reduction in spontaneously active neurons in the SNC and reduced bursting in the VTA. In contrast, intermittent cocaine resulted in an increase in the number of active neurons in the VTA. These changes were all reversed by apomorphine or quinpirole given during the first 5 withdrawal days. The D1 antagonist SCH 39166 did not antagonize the effects of apomorphine in either region. The role of D2 receptors in modulating baseline DA activity during intermediate cocaine withdrawal is discussed.