Publications (154) View all
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Article: Sex differences in the effects of social and physical environment on novelty-induced exploratory behavior and cocaine-stimulated locomotor activity in adolescent rats
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ABSTRACT: Many factors influence the rewarding effects of drugs such as cocaine. The present study was done to determine whether social and environmental factors alter behavior in adolescent male and female rats. On postnatal day (PND) 23, rats were housed in one of several same-sex conditions. Both social (number of rats per cage) and environmental (availability of toys) factors were manipulated. Socially isolated rats were housed alone (1 rat/cage) in an environment that either was impoverished (with no toys; II) or enriched (with toys; IE). Standard housing for these studies was social and impoverished, which was 2 rats/cage with no toys (SI2). Other rats were housed 2/cage with toys (SE2), or 3/cage with (SE3) or without (SI3) toys. On PND 37, novelty-induced locomotor activity was measured for 30 min. On PND 44–46, locomotor activity in response to an injection of 5 mg/kg cocaine was measured for 60 min each day. For male rats, only social conditions altered novelty-induced activity. Males housed in groups of three had the most activity, compared to pair-housed and isolated rats. For females, social and environmental enrichment interacted to alter novelty-induced activity. In contrast to males, isolated females had increased activity, compared to group-housed females. Further, isolated females in impoverished environments had more activity than isolated females in enriched environments and group-housed females in impoverished environments. The effect of environmental enrichment on cocaine-stimulated locomotor activity was altered depending upon the number of rats living in a cage for males. For females, only social conditions altered cocaine-stimulated behavior, with activity increasing with the number of rats in the cage, regardless of environmental enrichment. These data show that social and environmental enrichment differentially alter novelty-induced and cocaine-stimulated locomotor activity in adolescent male and female rats.Behavioral Brain Research. 05/2012; -
Article: Role of serotonin in the regulation of the dynorphinergic system by a kappa-opioid agonist and cocaine treatment in rat CNS.
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ABSTRACT: It has been shown that chronic cocaine increases prodynorphin mRNA in the caudate putamen and decreases it in the hypothalamus. In addition, treatment with a kappa-opioid receptor agonist produced the opposite effect on prodynorphin gene expression in these brain regions and also evoked a decrease in the hippocampus. It is already known that kappa-opioid receptor agonists decrease the development of sensitization to some of the behavioral effects of cocaine. The serotonin system has also been shown to regulate dynorphin gene expression and a continuous infusion of fluoxetine induced prodynorphin gene expression in the same pattern as the kappa-opioid agonist (+)(5a,7a,8b)-N-methyl-N-[7-(1-pyrrolidinyl)-1 oxaspiro[4.5]dec-8-yl]-benzeneacetamide (U-69593) in the brain regions investigated. It is interesting to note that treatment with a continuous infusion of cocaine produced different effects on this parameter. To determine whether serotonin plays a role in the regulation of prodynorphin mRNA by kappa-opioid agonists or cocaine, rats were treated with the serotonin depleter parachloroamphetamine (PCA). Beginning 24 h later, rats were treated with the selective kappa-opioid agonist U-69593 for 5 days or continuously with cocaine for 7 days and prodynorphin mRNA was measured. Prodynorphin mRNA was decreased significantly in the hypothalamus, caudate putamen, and hippocampus of rats treated with a single injection of PCA. Subsequent to PCA administration the effects of U-69593 or cocaine on prodynorphin mRNA were differentially affected across brain regions. Prodynorphin gene expression was still increased by U-69593 treatment in the hypothalamus and decreased in the caudate putamen. Cocaine treatment still produced a decrease in this parameter in the hypothalamus and an increase in the caudate putamen. In contrast, in the hippocampus, the decrease in prodynorphin mRNA produced by U-69593 was no longer evident after PCA and cocaine, which previously had no effect, now increased it in the serotonin-depleted group. These findings suggest that serotonin is necessary to maintain normal levels of dynorphin mRNA in all of the investigated brain areas and that the regulation of prodynorphin mRNA expression by chronic treatment with a kappa-opioid receptor agonist or cocaine requires serotonin in the hippocampus, but not in the hypothalamus or caudate putamen.Neuroscience 02/2007; 144(1):157-64. · 3.38 Impact Factor -
Article: Cocaine-like discriminative stimulus effects and [3H]dopamine uptake inhibition produced by selected partial opioid agonists.
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ABSTRACT: Partial opioid agonists can produce their actions at opioid as well as some non-opioid sites. Although the receptor systems underlying these non-opioid effects are not completely clear, recent studies indicate the possible involvement of activity at the dopamine uptake site. One purpose of the present investigation was to examine the ability of selected partial opioid agonists (dezocine, meperidine and [+]-propoxyphene) with non-opioid actions to produce cocaine-like stimulus effects. Because non-opioid effects can be apparent under conditions in which opioid-mediated effects are blocked or at doses that markedly decrease responding, these opioids were also examined in combination with the opioid antagonist naltrexone. A second purpose was to determine the ability of these opioids to inhibit [3H]dopamine uptake in rat caudate putamen. Cocaine and the direct-acting dopamine agonist (-)-quinpirole, but not (+)-propoxyphene, butorphanol, morphine, U50,488 and pentobarbital, substituted completely for the cocaine stimulus. Dezocine substituted for the cocaine stimulus in the majority of the rats tested only when administered in combination with naltrexone. Meperidine also substituted for the cocaine stimulus in the majority of the rats tested, although this pattern of substitution was not consistently altered by naltrexone. Dezocine and meperidine inhibited [3H]dopamine uptake in a manner consistent with that produced by cocaine. The results suggest that dezocine and meperidine can produce cocaine-like stimulus effects and that these effects are likely mediated by activity at the dopamine uptake site.Behavioural Pharmacology 08/2001; 12(4):225-35. · 2.72 Impact Factor -
Article: Kappa opioid agonists alter dopamine markers and cocaine-stimulated locomotor activity.
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ABSTRACT: To better understand the influence of kappa-opioid agonists on the effects of cocaine, rats were treated with daily injections of the selective kappa-opioid agonist U-69593 or bremazocine. In combination with 10 mg/kg cocaine, both compounds, at a dose of 0.32 mg/kg, greatly diminished locomotor activity, and these effects were maintained over a period of 5 days. In addition, the response to a challenge injection of 10 mg/kg cocaine several days after the end of kappa-Opioid agonist treatment with or without cocaine was markedly reduced. When naltrexone was given in combination with U-69593, it blocked the reduction in cocaine-induced locomotor activity after U-69593 treatment alone. However, a single injection of either kappa-opioid agonist alone had no effect on cocaine-induced locomotion several days later (i.e. no long-term effects), suggesting that multiple injections of the kappa-opioid agonist are needed to reduce the locomotor activating effects of cocaine other than acutely. In addition, treatment with the kappa-opioid agonist U-69593 (0.32 mg/kg) over a 5-day period decreased dopamine transporter densities in the caudate putamen, and this was also blocked by co-administration of naltrexone.Behavioural Pharmacology 08/2001; 12(4):237-45. · 2.72 Impact Factor -
Article: Structure-activity relationships at monoamine transporters and muscarinic receptors for N-substituted-3alpha-(3'-chloro-, 4'-chloro-, and 4',4''-dichloro-substituted-diphenyl)methoxytropanes.
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ABSTRACT: The design, synthesis, and evaluation of 3alpha-(diphenylmethoxy)tropane (benztropine) analogues have provided potent and selective probes for the dopamine transporter. Structure-activity relationships (SARs) have been developed that contrast with those described for cocaine, despite significant structural similarity. Furthermore, behavioral evaluation of many of the benztropine analogues in animal models of cocaine abuse has suggested that these two classes of tropane-based dopamine uptake inhibitors have distinct pharmacological profiles. In general, the benztropine analogues do not demonstrate efficacious locomotor stimulation in mice, do not fully substitute for a cocaine discriminative stimulus, and are not appreciably self-administered in rhesus monkeys. These compounds are generally more potent than cocaine as dopamine uptake inhibitors in vitro, although their actions in vivo are not consistent with this action. These observations suggest that differing binding profiles at the serotonin and norepinephrine transporters as well as at muscarinic receptors might have significant impact on the pharmacological actions of these compounds. In addition, by varying the structures of the parent compounds and thereby modifying their physical properties, pharmacokinetics as well as pharmacodynamics will be directly affected. Therefore, in an attempt to systematically evaluate the impact of chemical modification on these actions, a series of N-substituted (H, CH3, allyl, benzyl, propylphenyl, and butylphenyl) analogues of 3'-chloro-, 4'-chloro-, and 4,4''-dichloro-3alpha-(diphenylmethoxy)tropanes were synthesized. These compounds were evaluated for displacement, in rat tissue, of [3H]WIN 35,428 from the dopamine transporter, [3H]citalopram from the serotonin transporter, [3H]nisoxetine from the norepinephrine transporter, and [3H]pirenzepine from muscarinic m1 receptors. SARs were developed and compared to a series of N-substituted-3alpha-(bis-4'-fluorophenyl)methoxytropanes. The present SARs followed previously reported studies with the single exception of the N-butylphenyl substituent, which did not provide the high affinity binding in any of these three sets of analogues, as it did in the 4',4''-difluoro series. X-ray crystallographic analyses of the three parent ligands (1a, 2a, and 3a) were compared to that of 3alpha-(bis-4'-fluorophenyl)methoxytropane which provided supportive evidence toward the proposal that the combination of steric bulk in both the 3-position and the N-substituent, in this class of compounds, is not optimal for binding at the dopamine transporter. These studies provide binding profile data that can now be used to correlate with future behavioral analyses of these compounds and may provide insight into the kind of binding profile that might be targeted as a potential treatment for cocaine abuse.Journal of Medicinal Chemistry 03/2001; 44(4):633-40. · 5.25 Impact Factor
