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Cocaine Self-administration (cocaine + self-administration)
Selected AbstractsFoster mother care but not prenatal morphine exposure enhances cocaine self-administration in young adult male and female ratsDEVELOPMENTAL PSYCHOBIOLOGY, Issue 5 2007I. Vathy Abstract The present study was designed to investigate cocaine self-administration in adult male and female rats exposed prenatally to morphine. Pregnant dams were injected two times a day with either saline, analgesic doses of morphine or no drug at all (controls) on gestation Days 11,18. One day after birth, litters were cross-fostered such that control dams were paired with one another and their litters were crossed; saline- and morphine-treated dams were paired and half of each saline litter was crossed with half of each morphine litter. Thus, each mother (control, saline, and morphine) raised half of her own and half of the adopted litter. At the age of 60 days, males and females were trained first to lever press for sucrose pellets and then for cocaine. Once the lever-pressing behavior was learned and baseline level of this activity was established, animals received a cocaine (.5 mg/kg per infusion) reward for each correct response on the active lever during the next 9-day session. The data demonstrate that adult control, saline- and morphine-exposed male rats self-administer cocaine at a similar rate independent of their prenatal treatment. Adult female rats self-administer cocaine at a higher rate than male rats. Further, saline- and morphine-exposed females in diestrus self-administer more than females in proestrus phase of the estrous cycle, while control females show no such differences. In addition, fostering induces increase in cocaine self-administration in all groups of male rats regardless of prenatal drug exposure. In females, the only fostering-induced increase is in prenatally saline-exposed female rats raised by morphine-treated foster mother. Thus, our results suggest that the prenatal drug exposure does not induce changes in lever-pressing behavior for cocaine reward in adult male and female rats, but it sensitizes the animals to postnatal stimuli such as gonadal hormones and/or rearing conditions that result in increased drug self-administration. © 2007 Wiley Periodicals, Inc. Dev Psychobiol 49: 463-473, 2007. [source] REVIEW: Self-administration of cocaine, cannabis and heroin in the human laboratory: benefits and pitfallsADDICTION BIOLOGY, Issue 1 2009Margaret Haney ABSTRACT The objective of this review is to describe self-administration procedures for modeling addiction to cocaine, cannabis and heroin in the human laboratory, the benefits and pitfalls of the approach, and the methodological issues unique to each drug. In addition, the predictive validity of the model for testing treatment medications will be addressed. The results show that all three drugs of abuse are reliably and robustly self-administered by non-treatment-seeking research volunteers. In terms of pharmacotherapies, cocaine use is extraordinarily difficult to disrupt either in the laboratory or in the clinic. A range of medications has been shown to significantly decrease cocaine's subjective effects and craving without decreasing either cocaine self-administration or cocaine abuse by patients. These negative data combined with recent positive findings with modafinil suggest that self-administration procedures are an important intermediary step between pre-clinical and clinical studies. In terms of cannabis, a recent study suggests that medications that improve sleep and mood during cannabis withdrawal decrease the resumption of marijuana self-administration in abstinent volunteers. Clinical data on patients seeking treatment for their marijuana use are needed to validate these laboratory findings. Finally, in contrast to cannabis or cocaine dependence, there are three efficacious Food and Drug Administration-approved medications to treat opioid dependence, all of which decrease both heroin self-administration and subjective effects in the human laboratory. In summary, self-administration procedures provide meaningful behavioral data in a small number of individuals. These studies contribute to our understanding of the variables maintaining cocaine, marijuana and heroin intake, and are important in guiding the development of more effective drug treatment programs. [source] MDMA self-administration in rats: acquisition, progressive ratio responding and serotonin transporter bindingEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 11 2007Susan Schenk Abstract 3,4-Methylenedioxymethamphetamine (MDMA) self-administration has been shown in animals with extensive drug histories, but only a small number of studies have examined high rates of responding maintained by MDMA in previously drug-naïve animals. In the present study, influence of dose (0.25 or 1.0 mg/kg/infusion) on the acquisition of MDMA self-administration was measured during daily 6-h sessions. Dose,effect data were obtained for MDMA (0.25,1.0 mg/kg/infusion) self-administration under a progressive ratio (PR) schedule of reinforcement. The effect of experimenter- or self-administered MDMA on [3H] paroxetine binding in several brain regions was measured. Acquisition of MDMA self-administration was highly variable and not different for 0.25 or 1.0 mg/kg/infusion progressed with approximately 60% of the rats acquiring reliable self-administration during the 15-day test period. The percentage of rats that acquired MDMA self-administration was lower than the percentage of rats that acquired cocaine (0.5 mg/kg/infusion) self-administration, and cocaine self-administration was acquired with a shorter latency. Responding maintained by MDMA was dose dependent, and breakpoints under a PR schedule increased with dose. Radioligand binding and autoradiography demonstrated lower densities of serotonin transporter sites (SERT) in MDMA self-administering rats as compared with controls across brain regions. The reduction in SERT densities was comparable in magnitude to rats treated with experimenter-administered doses of MDMA. These data support the idea that MDMA is a drug with high abuse liability, and long-term self-administration may lead to long-lasting deficits in serotonin neurotransmission. [source] Context-dependent prefrontal cortex regulation of cocaine self-administration and reinstatement behaviors in ratsEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 11 2006Nina C. Di Pietro Abstract Evidence of stimulus attribute-specificity within the prefrontal cortex (PFC) suggests that different prefrontal subregions may contribute to cocaine addiction in functionally distinct ways. Thus, the present study examined the effects of lidocaine-induced inactivation of two distinct PFC subregions, the prelimbic (PL) or dorsal agranular insular (AId) cortices, on drug-seeking and drug-taking behaviors under cocaine maintenance and reinstatement testing conditions in rats trained to self-administer 1 mg/kg cocaine under a second-order schedule of drug delivery. Throughout maintenance and reinstatement phases, rats were exposed to conditioned light cues and contextual odor or sound cues. Results showed that PL inactivation during maintenance test sessions significantly reduced drug-seeking and drug-taking behaviors, and disrupted patterns of responding in rats exposed to light,sound, but not light,odor, cues. Moreover, lidocaine-induced inactivation of the PL significantly attenuated drug-seeking behavior during cue-induced and cocaine prime-induced reinstatement in rats exposed to light,sound cues only. In contrast, AId inactivation significantly attenuated cue-induced reinstatement of drug-seeking behavior in rats exposed to light,odor cues only. Drug-seeking and drug-taking behaviors in these rats were not disrupted during maintenance and cocaine prime-induced reinstatement testing regardless of the type of contextual cues used. Together, these data suggest that PL and AId subregions play separate yet overlapping roles in regulating cocaine addiction in rats in ways that are dependent on the presence or absence of cocaine and on the types of contextual cues present in the cocaine self-administration environment. [source] Activity-dependent subcellular localization of NAC1EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 2 2005Laxman Korutla Abstract The expression of the transcriptional regulator NAC1 is increased in the nucleus accumbens of rats withdrawn from cocaine self-administration, and in vivo studies indicate that the up-regulation is a compensatory mechanism opposing the acute effects of cocaine. Both mammalian two-hybrid assay and punctate localization largely in the nucleus suggest NAC1 is a transcriptional regulator. However, in this report it is shown that in differentiated PC12 and Neuro2A cells, as well as in primary cortical neurons, NAC1 is diffusely expressed not only in the cell nucleus but also in cytoplasm. Blockade of spontaneous electrical activity by tetrodotoxin prevented the diffuse expression of NAC1, and depolarization with high potassium concentrations induced diffuse cellular localization in non-differentiating cells. The use of protein kinase C (PKC) inhibitors and activator, as well as the systematic mutation of potential PKC phosphorylation sites in NAC1, demonstrated that phosphorylation of residue S245 by PKC is a necessary event inducing diffuse NAC1 expression outside of the nucleus. These observations indicate a potential non-transcriptional role for NAC1 in the brain. [source] Behavioural sensitization and enhanced dopamine response in the nucleus accumbens after intravenous cocaine self-administration in miceEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 3 2003Agustin Zapata Abstract The behavioural effects of cocaine are enhanced in animals with a prior history of repeated cocaine administration. This phenomenon, referred to as sensitization, is also associated with an increase in cocaine-evoked extracellular dopamine levels in the nucleus accumbens. Behavioural and neurochemical sensitization has been demonstrated in rats with a prior history of cocaine self-administration and in those that had received experimenter-administered cocaine. Although it is clear that the repeated non-contingent administration also results in behavioural sensitization in the mouse, the issue of whether behavioural and neurochemical sensitization also occur in this species following intravenous cocaine self-administration has not been assessed. The present study used the technique of in vivo microdialysis in conjunction with operant self-administration to characterize cocaine-evoked locomotor activity and dopamine levels in the nucleus accumbens in mice with a prior history of intravenous cocaine self-administration or those that had received yoked infusions of cocaine. Mice that had received contingent or non-contingent infusions of cocaine exhibited an enhanced behavioural response to cocaine and increased cocaine-evoked dopamine levels in the nucleus accumbens. There was no difference between groups in the magnitude of this effect. Prior exposure to cocaine did not modify baseline dopamine levels in the nucleus accumbens. These data demonstrate that mice with previous cocaine self-administration experience show an enhanced behavioural and dopamine response to cocaine in the nucleus accumbens. Furthermore, control over cocaine infusion does not significantly alter the magnitude of the sensitized behavioural and presynaptic dopamine responses observed in response to a challenge dose of cocaine. [source] Low dose cocaine self-administration transiently increases but high dose cocaine persistently decreases brain reward function in ratsEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 1 2003Paul J. Kenny Abstract This study investigated the effects of self-administered cocaine on brain reward function, measured by intracranial self-stimulation (ICSS) reward thresholds in rats. Self-administration of 10 and 20 cocaine injections (0.25 mg per injection, equivalent to 4.94 ± 0.23 and 9.88 ± 0.46 mg/kg, self-administered over 40 ± 6.9 and 99 ± 11.9 min, respectively) lowered reward thresholds 15 min later, indicating a facilitation of rewarding ICSS, but had no effect at 2, 24 or 48 h after administration. Thus, self-administration of low cocaine doses did not cause persistent changes in brain reward function. Forty cocaine injections (19.64 ± 0.94 mg/kg; self-administered over 185 ± 10.9 min) also transiently lowered reward thresholds 15 min later, while significant threshold current elevations were observed at 2 and 24 h after administration, indicating persistent withdrawal-like reward deficits. Finally, 80 cocaine injections (39.53 ± 1.84 mg/kg, self-administered over 376 ± 19.9 min) significantly elevated thresholds 2 and 48 h after self-administration, but not at 24 h. Threshold currents also tended to be elevated 15 min after self-administration. Overall, these data suggest that as the amount of self-administered cocaine increases the motivation to consume further cocaine may be shifted, from obtaining the rewarding actions of cocaine to avoidance and alleviation of a cocaine-induced negative affective state. [source] Striatal regulation of ,FosB, FosB, and cFos during cocaine self-administration and withdrawalJOURNAL OF NEUROCHEMISTRY, Issue 1 2010Erin B. Larson J. Neurochem. (2010) 115, 112,122. Abstract Chronic drug exposure induces alterations in gene expression profiles that are thought to underlie the development of drug addiction. The present study examined regulation of the Fos-family of transcription factors, specifically cFos, FosB, and ,FosB, in striatal subregions during and after chronic intravenous cocaine administration in self-administering and yoked rats. We found that cFos, FosB, and ,FosB exhibit regionally and temporally distinct expression patterns, with greater accumulation of ,FosB protein in the nucleus accumbens (NAc) shell and core after chronic cocaine administration, whereas ,FosB increases in the caudate-putamen (CPu) remained similar with either acute or chronic administration. In contrast, tolerance developed to cocaine-induced mRNA for ,FosB in all three striatal subregions with chronic administration. Tolerance also developed to FosB expression, most notably in the NAc shell and CPu. Interestingly, tolerance to cocaine-induced cFos induction was dependent on volitional control of cocaine intake in ventral but not dorsal striatal regions, whereas regulation of FosB and ,FosB was similar in cocaine self-administering and yoked animals. Thus, ,FosB-mediated neuroadaptations in the CPu may occur earlier than previously thought with the initiation of intravenous cocaine use and, together with greater accumulation of ,FosB in the NAc, could contribute to addiction-related increases in cocaine-seeking behavior. [source] Persistent proteomic alterations in the medial prefrontal cortex with abstinence from cocaine self-administrationPROTEOMICS - CLINICAL APPLICATIONS, Issue 4 2009Melinda E. Lull Abstract Neuroproteomic studies of drug abuse offer the potential for a systems-level understanding of addiction. Understanding cocaine-responsive alterations in brain protein expression that persist even with extended abstinence may provide insight into relapse liability. In the current study, protein changes in the medial prefrontal cortex of cocaine self-administering rats following 1 and 100,days of enforced abstinence were quantified by 2-D DIGE. We have previously reported increased drug-seeking and drug-taking, as well as mRNA and epigenetic changes in this model even after 100,days of enforced abstinence. A number of statistically significant changes in proteins relating to synapse function and neuronal remodeling were evident, including neurofilament medium and Hsp73, which increased at 1,day of abstinence, but returned to normal levels following 100,days of abstinence. Dynamin-1 and synaptosome-associated protein 25,kDa (SNAP-25) were unchanged at 1,day of abstinence, but were significantly decreased after 100,days. These data demonstrate that while some protein changes return to normal levels following enforced cocaine abstinence, a number remain or become altered after long periods, up to 100,days, of cocaine abstinence. Those protein expression changes that do not reset to pre-cocaine exposure levels may contribute to the persistent relapse potential that occurs in response to cocaine abstinence. [source] | ||||||||||