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Items: 1 to 20 of 149

1.

D2R DNA transfer into the nucleus accumbens attenuates cocaine self-administration in rats.

Thanos PK, Michaelides M, Umegaki H, Volkow ND.

Synapse. 2008 Jul;62(7):481-6. doi: 10.1002/syn.20523.

2.

Chronic cocaine self-administration modulates ERK1/2 and CREB responses to dopamine receptor agonists in striatal slices.

Hoffmann HM, Nadal R, Vignes M, Ortiz J.

Addict Biol. 2012 May;17(3):565-75. doi: 10.1111/j.1369-1600.2011.00353.x. Epub 2011 Aug 4.

PMID:
21812869
3.

Decrease in basal dopamine levels in the nucleus accumbens shell during daily drug-seeking behaviour in rats.

Gerrits MA, Petromilli P, Westenberg HG, Di Chiara G, van Ree JM.

Brain Res. 2002 Jan 11;924(2):141-50.

PMID:
11750899
4.

Tropomyosin-related kinase B in the mesolimbic dopamine system: region-specific effects on cocaine reward.

Graham DL, Krishnan V, Larson EB, Graham A, Edwards S, Bachtell RK, Simmons D, Gent LM, Berton O, Bolanos CA, DiLeone RJ, Parada LF, Nestler EJ, Self DW.

Biol Psychiatry. 2009 Apr 15;65(8):696-701. doi: 10.1016/j.biopsych.2008.09.032. Epub 2008 Nov 6.

5.

Disruption of a dopamine receptor complex amplifies the actions of cocaine.

Perreault ML, Hasbi A, Shen MYF, Fan T, Navarro G, Fletcher PJ, Franco R, Lanciego JL, George SR.

Eur Neuropsychopharmacol. 2016 Sep;26(9):1366-1377. doi: 10.1016/j.euroneuro.2016.07.008. Epub 2016 Jul 30.

PMID:
27480020
6.

Effects of chronic oral methylphenidate on cocaine self-administration and striatal dopamine D2 receptors in rodents.

Thanos PK, Michaelides M, Benveniste H, Wang GJ, Volkow ND.

Pharmacol Biochem Behav. 2007 Oct;87(4):426-33. Epub 2007 Jun 5.

PMID:
17599397
7.

Dopamine receptor expression and distribution dynamically change in the rat nucleus accumbens after withdrawal from cocaine self-administration.

Conrad KL, Ford K, Marinelli M, Wolf ME.

Neuroscience. 2010 Aug 11;169(1):182-94. doi: 10.1016/j.neuroscience.2010.04.056. Epub 2010 May 7.

8.

Active versus passive cocaine administration: differences in the neuroadaptive changes in the brain dopaminergic system.

Stefański R, Ziółkowska B, Kuśmider M, Mierzejewski P, Wyszogrodzka E, Kołomańska P, Dziedzicka-Wasylewska M, Przewłocki R, Kostowski W.

Brain Res. 2007 Jul 9;1157:1-10. Epub 2007 May 6.

PMID:
17544385
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11.

Role of GluR1 expression in nucleus accumbens neurons in cocaine sensitization and cocaine-seeking behavior.

Bachtell RK, Choi KH, Simmons DL, Falcon E, Monteggia LM, Neve RL, Self DW.

Eur J Neurosci. 2008 May;27(9):2229-40. doi: 10.1111/j.1460-9568.2008.06199.x. Epub 2008 Apr 22.

PMID:
18430032
12.

Antisense-induced reduction in nucleus accumbens cyclic AMP response element binding protein attenuates cocaine reinforcement.

Choi KH, Whisler K, Graham DL, Self DW.

Neuroscience. 2006;137(2):373-83. Epub 2005 Dec 15.

PMID:
16359811
13.

Initial d2 dopamine receptor sensitivity predicts cocaine sensitivity and reward in rats.

Merritt KE, Bachtell RK.

PLoS One. 2013 Nov 4;8(11):e78258. doi: 10.1371/journal.pone.0078258. eCollection 2013.

14.

Serotonin2C receptors modulate dopamine transmission in the nucleus accumbens independently of dopamine release: behavioral, neurochemical and molecular studies with cocaine.

Cathala A, Devroye C, Maitre M, Piazza PV, Abrous DN, Revest JM, Spampinato U.

Addict Biol. 2015 May;20(3):445-57. doi: 10.1111/adb.12137. Epub 2014 Mar 24.

PMID:
24661380
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Involvement of cAMP-dependent protein kinase in the nucleus accumbens in cocaine self-administration and relapse of cocaine-seeking behavior.

Self DW, Genova LM, Hope BT, Barnhart WJ, Spencer JJ, Nestler EJ.

J Neurosci. 1998 Mar 1;18(5):1848-59.

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