Registro:

Referencias:

• Adrover, M.F., Shin, J.H., Alvarez, V.A., Glutamate and dopamine transmission from midbrain dopamine neurons share similar release properties but are differentially affected by cocaine (2014) The Journal of Neurosci, 34, pp. 3183-3192
• Alcantara, A.A., Chen, V., Herring, B.E., Mendenhall, J.M., Berlanga, M.L., Localization of dopamine D2 receptors on cholinergic interneurons of the dorsal striatum and nucleus accumbens of the rat (2003) Brain Res, 986, pp. 22-29
• Belin, D., Mar, A.C., Dalley, J.W., Robbins, T.W., Everitt, B.J., High impulsivity predicts the switch to compulsive cocaine-taking (2008) Science, 320, pp. 1352-1355
• Bello, E.P., Mateo, Y., Gelman, D.M., Noain, D., Shin, J.H., Low, M.J., Cocaine supersensitivity and enhanced motivation for reward in mice lacking dopamine D2 autoreceptors (2011) Nat Neurosci, 14, pp. 1033-1038
• Bertorelli, R., Consolo, S., D1 and D2 dopaminergic regulation of acetylcholine release from striata of freely moving rats (1990) J Neurochem, 54, pp. 2145-2148
• Besson, M., Pelloux, Y., Dilleen, R., Theobald, D.E., Lyon, A., Belin-Rauscent, A., Cocaine modulation of frontostriatal expression of Zif268, D2, and 5-HT2c receptors in high and low impulsive rats (2013) Neuropsychopharmacology, 38, pp. 1963-1973
• Bock, R., Shin, J.H., Kaplan, A.R., Dobi, A., Markey, E., Kramer, P.F., Strengthening the accumbal indirect pathway promotes resilience to compulsive cocaine use (2013) Nat Neurosci, 16, pp. 632-638
• Buckholtz, J.W., Treadway, M.T., Cowan, R.L., Woodward, N.D., Li, R., Ansari, M.S., Dopaminergic network differences in human impulsivity (2010) Science, 329, p. 532
• Cachope, R., Mateo, Y., Mathur, B.N., Irving, J., Wang, H.L., Morales, M., Selective activation of cholinergic interneurons enhances accumbal phasic dopamine release: Setting the tone for reward processing (2012) Cell Rep, 2, pp. 33-41
• Caine, S.B., Negus, S.S., Mello, N.K., Patel, S., Bristow, L., Kulagowski, J., Role of dopamine D2-like receptors in cocaine selfadministration: Studies with D2 receptor mutant mice and novel D2 receptor antagonists (2002) J Neurosci, 22, pp. 2977-2988
• Caine, S.B., Thomsen, M., Barrett, A.C., Collins, G.T., Grundt, P., Newman, A.H., Cocaine self-administration in dopamine D(3) receptor knockout mice (2012) Exp Clin Psychopharmacol, 20, pp. 352-363
• Caine, S.B., Thomsen, M., Gabriel, K.I., Berkowitz, J.S., Gold, L.H., Koob, G.F., Lack of self-administration of cocaine in dopamine D1 receptor knock-out mice (2007) J Neurosci, 27, pp. 13140-13150
• Childress, A.R., Hole, A.V., Ehrman, R.N., Robbins, S.J., McLellan, A.T., O'Brien, C.P., Cue reactivity and cue reactivity interventions in drug dependence (1993) NIDA Res Monogr, 137, pp. 73-95
• Dalley, J.W., Fryer, T.D., Brichard, L., Robinson, E.S., Theobald, D.E., Laane, K., Nucleus accumbens D2/3 receptors predict trait impulsivity and cocaine reinforcement (2007) Science, 315, pp. 1267-1270
• Deroche-Gamonet, V., Belin, D., Piazza, P.V., Evidence for addiction-like behavior in the rat (2004) Science, 305, pp. 1014-1017
• Deroche-Gamonet, V., Piat, F., Le Moal, M., Piazza, P.V., Influence of cue-conditioning on acquisition, maintenance and relapse of cocaine intravenous self-administration (2002) Eur J Neurosci, 15, pp. 1363-1370
• Ehrman, R.N., Robbins, S.J., Childress, A.R., O'Brien, C.P., Conditioned responses to cocaine-related stimuli in cocaine abuse patients (1992) Psychopharmacology, 107, pp. 523-529
• Ford, C.P., The role of D2-autoreceptors in regulating dopamine neuron activity and transmission (2014) Neuroscience, 28 C, pp. 13-22
• Franklin, K.B.J., Paxinos, G., (2007) The Mouse Brain in Stereotaxic Coordinates, 3rd Ed., , Amsterdam: Elsevier
• Good, C.H., Hoffman, A.F., Hoffer, B.J., Chefer, V.I., Shippenberg, T.S., Backman, C.M., Impaired nigrostriatal function precedes behavioral deficits in a genetic mitochondrial model of Parkinson's disease (2011) FASEB J, 25, pp. 1333-1344
• Madisen, L., Zwingman, T.A., Sunkin, S.M., Oh, S.W., Zariwala, H.A., Gu, H., A robust and high-throughput Cre reporting and characterization system for the whole mouse brain (2010) Nat Neurosci, 13, pp. 133-140
• Nader, M.A., Morgan, D., Gage, H.D., Nader, S.H., Calhoun, T.L., Buchheimer, N., PET imaging of dopamine D2 receptors during chronic cocaine self-administration in monkeys (2006) Nat Neurosci, 9, pp. 1050-1056
• Rice, M.E., Patel, J.C., Cragg, S.J., Dopamine release in the basal ganglia (2011) Neuroscience, 198, pp. 112-137
• Richardson, N.R., Roberts, D.C., Progressive ratio schedules in drug self-administration studies in rats: A method to evaluate reinforcing efficacy (1996) J Neurosci Methods, 66, pp. 1-11
• Ruiz-Durantez, E., Hall, S.K., Steffen, C., Self, D.W., Enhanced acquisition of cocaine self-administration by increasing percentages of C57BL/6J genes in mice with a nonpreferring outbred background (2006) Psychopharmacology, 186, pp. 553-560
• Schramm-Sapyta, N.L., Olsen, C.M., Winder, D.G., Cocaine selfadministration reduces excitatory responses in the mouse nucleus accumbens shell (2006) Neuropsychopharmacology, 31, pp. 1444-1451
• Thomsen, M., Caine, S.B., Chronic intravenous drug selfadministration in rats and mice (2005) Curr Protoc Neurosci, , Chapter 9: Unit 9.20
• Thomsen, M., Hall, F.S., Uhl, G.R., Caine, S.B., Dramatically decreased cocaine self-administration in dopamine but not serotonin transporter knock-out mice (2009) J Neurosci, 29, pp. 1087-1092
• Thomsen, M., Han, D.D., Gu, H.H., Caine, S.B., Lack of cocaine self-administration in mice expressing a cocaine-insensitive dopamine transporter (2009) J Pharmacol Exp Ther, 331, pp. 204-211
• Thomsen, M., Woldbye, D.P., Wörtwein, G., Fink-Jensen, A., Wess, J., Caine, S.B., Reduced cocaine self-administration in muscarinic M5 acetylcholine receptor-deficient mice (2005) J Neurosci, 25, pp. 8141-8149
• Threlfell, S., Lalic, T., Platt, N.J., Jennings, K.A., Deisseroth, K., Cragg, S.J., Striatal dopamine release is triggered by synchronized activity in cholinergic interneurons (2012) Neuron, 75, pp. 58-64
• Volkow, N.D., Fowler, J.S., Wang, G.J., Baler, R., Telang, F., Imaging dopamine's role in drug abuse and addiction (2009) Neuropharmacology, 56, pp. 3-8
• Volkow, N.D., Wang, G.J., Fowler, J.S., Imaging studies of cocaine in the human brain and studies of the cocaine addict (1997) Ann NY Acad Sci, 820, pp. 41-54. , discussion 54-45
• Volkow, N.D., Wang, G.J., Telang, F., Fowler, J.S., Logan, J., Childress, A.R., Cocaine cues and dopamine in dorsal striatum: Mechanism of craving in cocaine addiction (2006) J Neurosci, 26, pp. 6583-6588
• Wong, D.F., Kuwabara, H., Schretlen, D.J., Bonson, K.R., Zhou, Y., Nandi, A., Increased occupancy of dopamine receptors in human striatum during cue-elicited cocaine craving (2006) Neuropsychopharmacology, 31, pp. 2716-2727
• Zald, D.H., Cowan, R.L., Riccardi, P., Baldwin, R.M., Ansari, M.S., Li, R., Midbrain dopamine receptor availability is inversely associated with novelty-seeking traits in humans (2008) J Neurosci, 28, pp. 14372-14378
• Zhang, W., Yamada, M., Gomeza, J., Basile, A.S., Wess, J., Multiple muscarinic acetylcholine receptor subtypes modulate striatal dopamine release, as studied with M1-M5 muscarinic receptor knock-out mice (2002) J Neurosci, 22, pp. 6347-6352
• Zhang, Y., Svenningsson, P., Picetti, R., Schlussman, S.D., Nairn, A.C., Ho, A., Cocaine self-administration in mice is inversely related to phosphorylation at Thr34 (protein kinase A site) and Ser130 (kinase CK1 site) of DARPP-32 (2006) J Neurosci, 26, pp. 2645-2651
• Zhou, F.M., Liang, Y., Dani, J.A., Endogenous nicotinic cholinergic activity regulates dopamine release in the striatum (2001) Nat Neurosci, 4, pp. 1224-1229

Citas:

---------- APA ----------

---------- CHICAGO ----------

---------- MLA ----------

---------- VANCOUVER ----------