Ackerman JM, White FJ (1990) A10 somatodendritic dopamine autoreceptor sensitivity following withdrawal from repeated cocaine treatment. Neurosci Lett 117:181–187 ArticleCASPubMed Google Scholar
Anderson SM, Bari AA, Pierce RC (2003) Administration of the D1-like dopamine receptor antagonist SCH-23390 into the medial nucleus accumbens shell attenuates cocaine priming-induced reinstatement of drug-seeking behavior in rats. Psychopharmacology DOI 10.1007/s00213-002-1298-5
Bailey CP, O’Callaghan MJ, Croft AP, Manley SJ, Little HJ (2001) Alterations in mesolimbic dopamine function during the abstinence period following chronic ethanol consumption. Neuropharmacology 41:989–999 ArticleCASPubMed Google Scholar
Brodie MS, Pesold C, Appel SB (1999) Ethanol directly excites dopaminergic ventral tegmental area reward neurons. Alcohol Clin Exp Res 23:1848–1852 ArticleCASPubMed Google Scholar
Bunney BS, Walters JR, Roth RH, Aghajanian GK (1973) Dopaminergic neurons: effect of antipsychotic drugs and amphetamine on single cell activity. J Pharmacol Exp Ther 185:560–571 CASPubMed Google Scholar
Bunney BS, Sesack SR, Silva NL (1987) Midbrain dopaminergic systems: neurophysiology and electrophysiological pharmacology. In: Meltzer HY (ed) Psychopharmacology: the third generation of progress. Raven Press, New York, pp 113–126
Bunney EB, Appel SB, Brodie MS (2001) Electrophysiological effects of cocaethylene, cocaine, and ethanol on dopaminergic neurons of the ventral tegmental area. J Pharmacol Exp Ther 297:696–703 CASPubMed Google Scholar
Canavier CC (1999) Sodium dynamics underlying burst firing and putative mechanisms for the regulation of the firing pattern in midbrain dopamine neurons: a computational approach. J Comput Neurosci 6:49–69 ArticleCASPubMed Google Scholar
Chergui K, Suaud-Chagny MF, Gonon F (1994) Nonlinear relationship between impulse flow, dopamine release and dopamine elimination in the rat brain in vivo. Neuroscience 62:641–645 ArticleCASPubMed Google Scholar
Clark D, Chiodo LA (1988) Electrophysiological and pharmacological characterization of identified nigrostriatal and mesoaccumbens dopamine neurons in the rat. Synapse 2:474–485 ArticleCASPubMed Google Scholar
Comings DE, Muhleman D, Ahn C, Gysin R, Flanagan SD (1994) The dopamine D2 receptor gene: a genetic risk factor in substance abuse. Drug Alcohol Depend 34:175–180 ArticleCASPubMed Google Scholar
Compton PA, Anglin MD, Khalsa-Denison ME, Paredes A (1996) The D2 dopamine receptor gene, addiction, and personality: clinical correlates in cocaine abusers. Biol Psychiatry 39:302–304 ArticleCASPubMed Google Scholar
Cooper DC (2002) The significance of action potential bursting in the brain reward circuit. Neurochemistry 41:333–340 ArticleCAS Google Scholar
Cornish JL, Kalivas PW (2000) Glutamate transmission in the nucleus accumbens mediates relapse in cocaine addiction. J Neurosci 20:RC89 CASPubMed Google Scholar
De Vries TJ, Schoffelmeer AN, Binnekade R, Vanderschuren LJ (1999) Dopaminergic mechanisms mediating the incentive to seek cocaine and heroin following long-term withdrawal of IV drug self-administration. Psychopharmacology 143:254–260 Article Google Scholar
De Vries TJ, Schoffelmeer AN, Binnekade R, Raaso H, Vanderschuren LJ (2002) Relapse to cocaine- and heroin-seeking behavior mediated by dopamine D2 receptors is time-dependent and associated with behavioral sensitization. Neuropsychopharmacology 26:18–26 Article Google Scholar
Diana M, Pistis M, Carboni S, Gessa GL, Rossetti ZL (1993) Profound decrement of mesolimbic dopaminergic neuronal activity during ethanol withdrawal syndrome in rats: electrophysiological and biochemical evidence. Proc Natl Acad Sci USA 90:7966–7969 ArticleCASPubMed CentralPubMed Google Scholar
Diana M, Pistis M, Muntoni AL, Gessa GL (1995) Profound decrease of mesolimbic dopaminergic neuronal activity in morphine withdrawn rats. J Pharmacol Exp Ther 272:781–785 CASPubMed Google Scholar
Diana M, Melis M, Muntoni AL, Gessa GL (1998) Mesolimbic dopaminergic decline after cannabinoid withdrawal. Proc Natl Acad Sci USA 95:10269–10273 ArticleCASPubMed CentralPubMed Google Scholar
Einhorn LC, Johansen PA, White FJ (1988) Electrophysiological effects of cocaine in the mesoaccumbens dopamine system: studies in the ventral tegmental area. J Neurosci 8:100–112 CASPubMed Google Scholar
Everitt BJ, Wolf ME (2002) Psychomotor stimulant addiction: a neural systems perspective. J Neurosci 22:3312–3320 CASPubMed Google Scholar
Fuchs RA, Tran-Nguyen LT, Specio SE, Groff RS, Neisewander JL (1998) Predictive validity of the extinction/reinstatement model of drug craving. Psychopharmacology 135:151–160 ArticleCASPubMed Google Scholar
Gao WY, Lee TH, King GR, Ellinwood EH (1998) Alterations in baseline activity and quinpirole sensitivity in putative dopamine neurons in the substantia nigra and ventral tegmental area after withdrawal from cocaine pretreatment. Neuropsychopharmacology 18:222–232 ArticleCASPubMed Google Scholar
Gessa GL, Melis M, Muntoni AL, Diana M (1998) Cannabinoids activate mesolimbic dopamine neurons by an action on cannabinoid CB1 receptors. Eur J Pharmacol 341:39–44 ArticleCASPubMed Google Scholar
Gonon FG (1988) Nonlinear relationship between impulse flow and dopamine released by rat midbrain dopaminergic neurons as studied by in vivo electrochemistry. Neuroscience 24:19–28 ArticleCASPubMed Google Scholar
Grace AA (2000) The tonic/phasic model of dopamine system regulation and its implications for understanding alcohol and psychostimulant craving. Addiction 95[Suppl 2]:S119–S128
Grace AA, Bunney BS (1983) Intracellular and extracellular electrophysiology of nigral dopaminergic neurons. 1. Identification and characterization. Neuroscience 10:301–315 ArticleCASPubMed Google Scholar
Grace AA, Bunney BS (1984a) The control of firing pattern in nigral dopamine neurons: burst firing. J Neurosci 4:2877–2890 CASPubMed Google Scholar
Grace AA, Bunney BS (1984b) The control of firing pattern in nigral dopamine neurons: single-spike firing. J Neurosci 4:2866–2876 CASPubMed Google Scholar
Grillner P, Mercuri NB (2002) Intrinsic membrane properties and synaptic inputs regulating the firing activity of the dopamine neurons. Behav Brain Res 130:149–169 ArticleCASPubMed Google Scholar
Gysling K, Wang RY (1983) Morphine-induced activation of A10 dopamine neurons in the rat. Brain Res 277:119–127 ArticleCASPubMed Google Scholar
Henry DJ, Greene MA, White FJ (1989) Electrophysiological effects of cocaine in the mesoaccumbens dopamine system: repeated administration. J Pharmacol Exp Ther 251:833–839 CASPubMed Google Scholar
Henry DJ, Hu XT, White FJ (1998) Adaptations in the mesoaccumbens dopamine system resulting from repeated administration of dopamine D1 and D2 receptor-selective agonists: relevance to cocaine sensitization. Psychopharmacology 140:233–242 ArticleCASPubMed Google Scholar
Hitri A, Little KY, Ellinwood EH Jr (1996) Effect of cocaine on dopamine transporter receptors depends on routes of chronic cocaine administration. Neuropsychopharmacology 14:205–210 ArticleCASPubMed Google Scholar
Horger BA, Giles MK, Schenk S (1992) Preexposure to amphetamine and nicotine predisposes rats to self-administer a low dose of cocaine. Psychopharmacology 107:271–276 ArticleCASPubMed Google Scholar
Jones S, Kornblum JL, Kauer JA (2000) Amphetamine blocks long-term synaptic depression in the ventral tegmental area. J Neurosci 20:5575–5580 CASPubMed Google Scholar
Kalivas PW, Duffy P (1993) Time course of extracellular dopamine and behavioral sensitization to cocaine. II. Dopamine perikarya. J Neurosci 13:276–284 CASPubMed Google Scholar
Kitai ST, Shepard PD, Callaway JC, Scroggs R (1999) Afferent modulation of dopamine neuron firing patterns. Curr Opin Neurobiol 9:690–697 ArticleCASPubMed Google Scholar
Koeltzow TE, Xu M, Cooper DC, Hu XT, Tonegawa S, Wolf ME, White FJ (1998) Alterations in dopamine release but not dopamine autoreceptor function in dopamine D3 receptor mutant mice. J Neurosci 18:2231–2238 CASPubMed Google Scholar
Koob GF, Le Moal M (2001) Drug addiction, dysregulation of reward, and allostasis. Neuropsychopharmacology 24:97–129 ArticleCASPubMed Google Scholar
Kuhar MJ, Pilotte NS (1996) Neurochemical changes in cocaine withdrawal. Trends Pharmacol Sci 17:260–264 ArticleCASPubMed Google Scholar
Lu W, Wolf ME (1997) Expression of dopamine transporter and vesicular monoamine transporter 2 mRNAs in rat midbrain after repeated amphetamine administration. Mol Brain Res 49:137–148 ArticleCASPubMed Google Scholar
Maggos CE, Spangler R, Zhou Y, Schlussman SD, Ho A, Kreek MJ (1997) Quantitation of dopamine transporter mRNA in the rat brain: mapping, effects of “binge” cocaine administration and withdrawal. Synapse 26:55–61 ArticleCASPubMed Google Scholar
Marinelli M, White FJ (2000) Enhanced vulnerability to cocaine self-administration is associated with elevated impulse activity of midbrain dopamine neurons. J Neurosci 20:8876–8885 CASPubMed Google Scholar
Marinelli M, Cooper DC, White FJ (2001) Electrophysiological correlates of enhanced vulnerability to cocaine self-administration. Phenotypic differences in drug effects related to behavioral traits versus states. NIDA Res Monogr Rev 181:46–48 Google Scholar
Matthews RT, German DC (1984) Electrophysiological evidence for excitation of rat ventral tegmental area dopamine neurons by morphine. Neuroscience 11:617–625 ArticleCASPubMed Google Scholar
McFarland K, Kalivas PW (2001) The circuitry mediating cocaine-induced reinstatement of drug-seeking behavior. J Neurosci 21:8655–8663 CASPubMed Google Scholar
Mercuri NB, Calabresi P, Bernardi G (1992) The electrophysiological actions of dopamine and dopaminergic drugs on neurons of the substantia nigra pars compacta and ventral tegmental area. Life Sci 51:711–718 ArticleCASPubMed Google Scholar
Mereu G, Fadda F, Gessa GL (1984) Ethanol stimulates the firing rate of nigral dopaminergic neurons in unanesthetized rats. Brain Res 292:63–69 ArticleCASPubMed Google Scholar
Noble EP (2000) Addiction and its reward process through polymorphisms of the D2 dopamine receptor gene: a review. Eur Psychiatry 15:79–89 ArticleCASPubMed Google Scholar
O’Hara BF, Smith SS, Bird G, Persico AM, Suarez BK, Cutting GR, Uhl GR (1993) Dopamine D2 receptor RFLPs, haplotypes and their association with substance use in black and Caucasian research volunteers. Hum Hered 43:209–218 ArticlePubMed Google Scholar
Overton PG, Clark D (1997) Burst firing in midbrain dopaminergic neurons. Brain Res Rev 25:312–334 ArticleCASPubMed Google Scholar
Overton PG, Richards CD, Berry MS, Clark D (1999) Long-term potentiation at excitatory amino acid synapses on midbrain dopamine neurons. Neuroreport 10:221–226 ArticleCASPubMed Google Scholar
Paxinos G, Watson C (1986) The rat brain in stereotaxic coordinates. Academic Press, New York
Piazza PV, Deminiere JM, Le Moal M, Simon H (1989) Factors that predict individual vulnerability to amphetamine self-administration. Science 245:1511–1513 ArticleCASPubMed Google Scholar
Piazza PV, Deminiere JM, Le Moal M, Simon H (1990) Stress- and pharmacologically induced behavioral sensitization increases vulnerability to acquisition of amphetamine self-administration. Brain Res 514:22–26 ArticleCASPubMed Google Scholar
Pierce RC, Kalivas PW (1997) A circuitry model of the expression of behavioral sensitization to amphetamine-like psychostimulants. Brain Res Rev 25:192–216 ArticleCASPubMed Google Scholar
Pierce RC, Duffy P, Kalivas PW (1995) Sensitization to cocaine and dopamine autoreceptor subsensitivity in the nucleus accumbens. Synapse 20:33–36 ArticleCASPubMed Google Scholar
Pierre PJ, Vezina P (1997) Predisposition to self-administer amphetamine: the contribution of response to novelty and prior exposure to the drug. Psychopharmacology 129:277–284 ArticleCASPubMed Google Scholar
Pucak ML, Grace AA (1994) Evidence that systemically administered dopamine antagonists activate dopamine neuron firing primarily by blockade of somatodendritic autoreceptors. J Pharmacol Exp Ther 271:1181–1192 CASPubMed Google Scholar
Redgrave P, Prescott TJ, Gurney K (1999) Is the short-latency dopamine response too short to signal reward error? Trends Neurosci 22:146–151 ArticleCASPubMed Google Scholar
Robinson TE, Berridge KC (1993) The neural basis of drug craving: an incentive-sensitization theory of addiction. Brain Res Rev 18:247–291 ArticleCASPubMed Google Scholar
Robinson TE, Berridge KC (2000) The psychology and neurobiology of addiction: an incentive-sensitization view. Addiction 95[Suppl 2]:S91–S117
Robinson TE, Kolb B (1997) Persistent structural modifications in nucleus accumbens and prefrontal cortex neurons produced by previous experience with amphetamine. J Neurosci 17:8491–8497 CASPubMed Google Scholar
Robinson TE, Kolb B (1999) Alterations in the morphology of dendrites and dendritic spines in the nucleus accumbens and prefrontal cortex following repeated treatment with amphetamine or cocaine. Eur J Neurosci 11:1598–1604 ArticleCASPubMed Google Scholar
Robinson TE, Gorny G, Mitton E, Kolb B (2001) Cocaine self-administration alters the morphology of dendrites and dendritic spines in the nucleus accumbens and neocortex. Synapse 39:257–266 ArticleCASPubMed Google Scholar
Saal D, Dong Y, Bonci A, Malenka RC (2003) Drugs of abuse and stress trigger a common synaptic adaptation in dopamine neurons. Neuron 37:577–582 ArticleCASPubMed Google Scholar
Schultz W (1994) Behavior-related activity of primate dopamine neurons. Rev Neurol (Paris) 150:634–639 Google Scholar
Schultz W (1997) Dopamine neurons and their role in reward mechanisms. Curr Opin Neurobiol 7:191–197 ArticleCASPubMed Google Scholar
Self DW, Barnhart WJ, Lehman DA, Nestler EJ (1996) Opposite modulation of cocaine-seeking behavior by D1- and D2-like dopamine receptor agonists. Science 271:1586–1589 ArticleCASPubMed Google Scholar
Seutin V, Johnson SW, North RA (1993) Apamin increases NMDA-induced burst-firing of rat mesencephalic dopamine neurons. Brain Res 630:341–344 ArticleCASPubMed Google Scholar
Shalev U, Highfield D, Yap J, Shaham Y (2000) Stress and relapse to drug seeking in rats: studies on the generality of the effect. Psychopharmacology 150:337–346 ArticleCASPubMed Google Scholar
Shalev U, Grimm JW, Shaham Y (2002) Neurobiology of relapse to heroin and cocaine seeking: a review. Pharmacol Rev 54:1–42 ArticleCASPubMed Google Scholar
Sklair-Tavron L, Shi WX, Lane SB, Harris HW, Bunney BS, Nestler EJ (1996) Chronic morphine induces visible changes in the morphology of mesolimbic dopamine neurons. Proc Natl Acad Sci USA 93:11202–11207 ArticleCASPubMed CentralPubMed Google Scholar
Spiga S, Serra G, Puddu MC, Foddai M, Diana M (2003) Morphine withdrawal-induced abnormalities in the VTA: confocal laser scanning microscopy. Eur J Neurosci 17:605–612 ArticlePubMed Google Scholar
Stewart J (2000) Pathways to relapse: the neurobiology of drug- and stress-induced relapse to drug-taking. J Psychiatry Neurosci 25:125–136 CASPubMed CentralPubMed Google Scholar
Suaud-Chagny MF, Chergui K, Chouvet G, Gonon F (1992) Relationship between dopamine release in the rat nucleus accumbens and the discharge activity of dopaminergic neurons during local in vivo application of amino acids in the ventral tegmental area. Neuroscience 49:63–72 ArticleCASPubMed Google Scholar
Thomas MJ, Malenka RC, Bonci A (2000) Modulation of long-term depression by dopamine in the mesolimbic system. J Neurosci 20:5581–5586 CASPubMed Google Scholar
Tran-Nguyen LT, Baker DA, Grote KA, Solano J, Neisewander JL (1999) Serotonin depletion attenuates cocaine-seeking behavior in rats. Psychopharmacology 146:60–66 ArticleCASPubMed Google Scholar
Ungless MA, Whistler JL, Malenka RC, Bonci A (2001) Single cocaine exposure in vivo induces long-term potentiation in dopamine neurons. Nature 411:583–587 ArticleCASPubMed Google Scholar
Vanderschuren LJ, Kalivas PW (2000) Alterations in dopaminergic and glutamatergic transmission in the induction and expression of behavioral sensitization: a critical review of preclinical studies. Psychopharmacology 151:99–120 ArticleCASPubMed Google Scholar
Volkow ND, Fowler JS, Wang GJ, Hitzemann R, Logan J, Schlyer DJ, Dewey SL, Wolf AP (1993) Decreased dopamine D2 receptor availability is associated with reduced frontal metabolism in cocaine abusers. Synapse 14:169–177 ArticleCASPubMed Google Scholar
Volkow ND, Chang L, Wang GJ, Fowler JS, Ding YS, Sedler M, Logan J, Franceschi D, Gatley J, Hitzemann R, Gifford A, Wong C, Pappas N (2001) Low level of brain dopamine D2 receptors in methamphetamine abusers: association with metabolism in the orbitofrontal cortex. Am J Psychiatry 158:2015–2021 ArticleCASPubMed Google Scholar
Vorel SR, Liu X, Hayes RJ, Spector JA, Gardner EL (2001) Relapse to cocaine-seeking after hippocampal theta burst stimulation. Science 292:1175–1178 ArticleCASPubMed Google Scholar
Wang RY (1981) Dopaminergic neurons in the rat ventral tegmental area. III. Effects of D- and L-amphetamine. Brain Res Rev 3:153–165 ArticleCAS Google Scholar
White FJ (1996) Synaptic regulation of mesocorticolimbic dopamine neurons. Annu Rev Neurosci 19:405–436 ArticleCASPubMed Google Scholar
White FJ, Kalivas PW (1998) Neuroadaptations involved in amphetamine and cocaine addiction. Drug Alcohol Depend 51:141–153 ArticleCASPubMed Google Scholar
White FJ, Wang RY (1984a) A10 dopamine neurons: role of autoreceptors in determining firing rate and sensitivity to dopamine agonists. Life Sci 34:1161–1170 ArticleCASPubMed Google Scholar
White FJ, Wang RY (1984b) Electrophysiological evidence for A10 dopamine autoreceptor subsensitivity following chronic D-amphetamine treatment. Brain Res 309:283–292 ArticleCASPubMed Google Scholar
White FJ, Wang RY (1984c) Pharmacological characterization of dopamine autoreceptors in the rat ventral tegmental area: microiontophoretic studies. J Pharmacol Exp Ther 231:275–280 CASPubMed Google Scholar
Williams J, Lacey M (1988) Actions of cocaine on central monoamine neurons: intracellular recordings in vitro. NIDA Res Monogr 90:234–242 CASPubMed Google Scholar
Wilson CJ, Callaway JC (2000) Coupled oscillator model of the dopaminergic neuron of the substantia nigra. J Neurophysiol 83:3084–3100 ArticleCASPubMed Google Scholar
Wilson JM, Nobrega JN, Carroll ME, Niznik HB, Shannak K, Lac ST, Pristupa ZB, Dixon LM, Kish SJ (1994) Heterogeneous subregional binding patterns of 3H-WIN 35,428 and 3H-GBR 12,935 are differentially regulated by chronic cocaine self-administration. J Neurosci 14:2966–2979 CASPubMed Google Scholar
Wolf ME, White FJ, Nassar R, Brooderson RJ, Khansa MR (1993) Differential development of autoreceptor subsensitivity and enhanced dopamine release during amphetamine sensitization. J Pharmacol Exp Ther 264:249–255 CASPubMed Google Scholar
Wolf ME, White FJ, Hu XT (1994) MK-801 prevents alterations in the mesoaccumbens dopamine system associated with behavioral sensitization to amphetamine. J Neurosci 14:1735–1745 CASPubMed Google Scholar
Wolfart J, Roeper J (2002) Selective coupling of T-type calcium channels to SK potassium channels prevents intrinsic bursting in dopaminergic midbrain neurons. J Neurosci 22:3404–3413 CASPubMed Google Scholar
Wolfart J, Neuhoff H, Franz O, Roeper J (2001) Differential expression of the small-conductance, calcium-activated potassium channel SK3 is critical for pacemaker control in dopaminergic midbrain neurons. J Neurosci 21:3443–3456 CASPubMed Google Scholar
Zhang XF, Hu XT, White FJ, Wolf ME (1997) Increased responsiveness of ventral tegmental area dopamine neurons to glutamate after repeated administration of cocaine or amphetamine is transient and selectively involves AMPA receptors. J Pharmacol Exp Ther 281:699–706 CASPubMed Google Scholar