Cocaine alters mu but not delta or kappa opioid receptor‐stimulated in situ [<sup>35</sup>S]GTPγS binding in rat brain

Schroeder, Joseph A.; Niculescu, Michelle; Unterwald, Ellen M.

doi:10.1002/syn.10148

Cited by 40 publications

(41 citation statements)

References 55 publications

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“…35 S]GTP␥S binding in the same region. These results are similar to homologous desensitization observed after chronic opioid and cannabinoid treatment (Sim et al, 1996;Breivogel et al, 1999) but in contrast to reports of chronic cocaine treatment, where increases have been shown in both monoamine and nonmonoamine receptor signal transduction (Unterwald et al, 1996;Kushner and Unterwald, 2001;Schroeder et al, 2003). It is unlikely that these differences are due to pharmacological differences in the specificity of cocaine and WF-23, since both drugs block all three monoamine transporters, but may involve pharmacokinetic differences between the two transport inhibitors.…”

Section: Discussionsupporting

confidence: 86%

“…It is unlikely that these differences are due to pharmacological differences in the specificity of cocaine and WF-23, since both drugs block all three monoamine transporters, but may involve pharmacokinetic differences between the two transport inhibitors. The cocaine binge treatment used (Unterwald et al, 1996;Kushner and Unterwald, 2001;Schroeder et al, 2003) by many investigators produces temporary high increases in monoamine levels, whereas the long-acting WF-23 tropane analog may produce sustained increases in DA, 5-HT, and NE. Sustained elevations of these monoamines, in contrast to periodic high concentrations, may result in different responses by the receptors.…”

Section: Discussionmentioning

confidence: 99%

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Time-Dependent Changes in Receptor/G-Protein Coupling in Rat Brain following Chronic Monoamine Transporter Blockade

O'Connor

Porrino²,

Davies³

et al. 2005

J Pharmacol Exp Ther

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The potent tropane analog, WF-23 [2␤-propanoyl-3␤-(2-naphthyl) tropane], blocks dopamine, serotonin, and norepinephrine transporters with high affinity in vitro and blocks transporters for at least 2 days following a single in vivo administration. Previous studies demonstrated desensitization of monoamine receptor-coupled G-proteins in brain following chronic treatment of rats with WF-23. The current study sought to determine the time course of this desensitization and the behavioral effects of receptor desensitization. Rats were treated with 1 mg/kg WF-23 and injected i.

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Section: Discussionsupporting

confidence: 86%

Section: Discussionmentioning

confidence: 99%

Time-Dependent Changes in Receptor/G-Protein Coupling in Rat Brain following Chronic Monoamine Transporter Blockade

O'Connor

Porrino²,

Davies³

et al. 2005

J Pharmacol Exp Ther

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“…In addition to its direct effects on monoamine neurotransmitters, cocaine impacts other neurotransmitter systems including the endogenous opioid system. Cocaine alters levels of endogenous opioid peptides (Hurd and Herkenham, 1993;Olive et al, 2001;Roth-Deri et al, 2003) and has profound effects on the expression and function of opioid receptors (Hammer, 1989;Unterwald et al, 1994;Izenwasser et al, 1996;Schroeder et al, 2003). Together, dopamine and opioid peptides modulate rewarding behaviors and locomotor activity (Fink and Smith, 1980;Roberts and Koob, 1982).…”

Section: Published In Final Edited Form Asmentioning

confidence: 99%

Cocaine reward and hyperactivity in the rat: Sites of mu opioid receptor modulation

Soderman

Unterwald

2008

Neuroscience

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Opioid receptor agonists and antagonists have profound effects on cocaine-induced hyperactivity and conditioned reward. Recently, the role specifically of the mu opioid receptor has been demonstrated based on the finding that intracerebroventricular administration of the selective mu opioid receptor antagonist, CTAP, can attenuate cocaine-induced behaviors. The purpose of the present study was to determine the location of mu opioid receptors that are critical for cocaineinduced reward and hyperactivity. Adult male Sprague Dawley rats received injections of CTAP into the caudate putamen, the rostral or caudal ventral tegmental area (VTA) or the medial shell or core of the nucleus accumbens prior to cocaine to determine the role of mu opioid receptors in cocaineinduced reward and hyperactivity. Cocaine-induced reward was assessed using an unbiased conditioned place preference procedure. Results demonstrate that animals pre-treated with CTAP into the nucleus accumbens core or rostral VTA, but not the caudal VTA, caudate putamen or medial nucleus accumbens shell, during conditioning with cocaine showed an attenuation of the development of cocaine-induced place preference. In contrast, CTAP injected into the nucleus accumbens shell but not the core attenuated the expression of cocaine place preference. Intra-nucleus accumbens core, caudate putamen or caudal VTA CTAP significantly attenuated cocaine-induced hyperactivity. In addition, the number of cFos positive cells was increased in the motor cortex, medial and ventromedial aspects of the nucleus accumbens shell, basolateral amygdala and caudal VTA during the expression of cocaine place preference, and this increase was attenuated in the animals that received intra-accumbens core CTAP during daily cocaine conditioning. These results demonstrate the importance of mu opioid receptors in the nucleus accumbens and VTA in cocaine-induced reward and hyperactivity and suggest that some aspects of the behavioral effects of cocaine are mediated by endogenous activation of mu opioid receptors in these brain regions. KeywordsConditioned Place Preference; cFos; Hyperactivity; Nucleus Accumbens; Ventral Tegmental Area; Reward CORRESPONDING AUTHOR: Avery R. Soderman, Temple University School of Medicine, Department of Pharmacology, 3420 North Broad Street, Philadelphia, PA 19140, 215-707-5445 phone, 215-707-7068 fax, ASoderma@Temple.edu. SECTION EDITOR: Dr. Yoland Smith Publisher's Disclaimer: This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final citable form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. NIH Public Access Author ManuscriptNeuroscience. Author manuscript; available in PMC 2009 July 17. Published in fin...

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“…35 S]GTP␥S binding was measured in many cortical and subcortical forebrain regions (Schroeder et al, 2003). Although the Schroeder et al study did not specifically quantify receptor-regulated […”

Section: Mechanisms For Receptor Regulation Of Gaba Transmissionmentioning

confidence: 99%

Cocaine-Induced Reinstatement Requires Endogenous Stimulation of μ-Opioid Receptors in the Ventral Pallidum

Tang¹,

McFarland²,

Cagle³

et al. 2005

J. Neurosci.

138

142

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The projection from the nucleus accumbens to the ventral pallidum regulates the reinstatement of cocaine seeking in rats extinguished from cocaine self-administration. This projection coexpresses GABA and enkephalin, posing a role for -opioid receptors in the ventral pallidum in mediating the reinstatement of cocaine seeking. Rats were extinguished from cocaine self-administration, and the reinstatement of active lever pressing by cocaine was blocked by intra-ventral pallidum administration of the receptor antagonist Cys-Tyr-DTrp-Arg-Thr-Pen-Thr-NH 2 (CTAP) (0.03-3.0 g). Conversely, stimulating receptors with morphine (1-30 g) in the ventral pallidum reinstated cocaine seeking. The ability of intra-ventral pallidum morphine to reinstate lever pressing was blocked by co-microinjection of the antagonist CTAP and was augmented by systemic cocaine administration. The reinstatement of cocaine seeking was associated with reduced extracellular GABA in the ventral pallidum, and the reduction in GABA was also prevented by blocking receptors with CTAP (10 M). Although immunoblotting revealed that neither the total tissue concentration nor the membrane insertion of receptors in the ventral pallidum was altered by withdrawal from cocaine, the capacity of morphine (0.01-10 M) to reduce ventral pallidum levels of extracellular GABA was augmented in rats extinguished from cocaine self-administration. These data are consistent with the reinstatement of cocaine seeking being modulated in part by coreleased enkephalin and GABA from the accumbens-ventral pallidal projection, a modulation that may involve the inhibition of GABA release by presynaptic receptors.

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Cocaine alters mu but not delta or kappa opioid receptor‐stimulated in situ [³⁵S]GTPγS binding in rat brain

Cited by 40 publications

References 55 publications

Time-Dependent Changes in Receptor/G-Protein Coupling in Rat Brain following Chronic Monoamine Transporter Blockade

Time-Dependent Changes in Receptor/G-Protein Coupling in Rat Brain following Chronic Monoamine Transporter Blockade

Cocaine reward and hyperactivity in the rat: Sites of mu opioid receptor modulation

Cocaine-Induced Reinstatement Requires Endogenous Stimulation of μ-Opioid Receptors in the Ventral Pallidum

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Cocaine alters mu but not delta or kappa opioid receptor‐stimulated in situ [35S]GTPγS binding in rat brain

Cited by 40 publications

References 55 publications

Time-Dependent Changes in Receptor/G-Protein Coupling in Rat Brain following Chronic Monoamine Transporter Blockade

Time-Dependent Changes in Receptor/G-Protein Coupling in Rat Brain following Chronic Monoamine Transporter Blockade

Cocaine reward and hyperactivity in the rat: Sites of mu opioid receptor modulation

Cocaine-Induced Reinstatement Requires Endogenous Stimulation of μ-Opioid Receptors in the Ventral Pallidum

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Cocaine alters mu but not delta or kappa opioid receptor‐stimulated in situ [³⁵S]GTPγS binding in rat brain