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  • Alexander SPH, Mathie A, Peters JA (2009). Guide to receptors and channels (GRAC), 4th edn. Br J Pharmacol 158 (Suppl. 1): S1S254.
  • Arnt J, Scheel-Krüger J (1979). GABA in the ventral tegmental area: differential regional effects on locomotion, aggression and food intake after microinjection of GABA agonists and antagonists. Life Sci 25: 13511360.
  • Beck CH (1995). Acute treatment with antidepressant drugs selectively increases the expression of c-fos in the rat brain. J Psychiatry Neurosci 20: 2532.
  • Berton O, Covington HE 3rd, Ebner K, Tsankova NM, Carle TL, Ulery P et al. (2007). Induction of DeltaFosB in the periaqueductal gray by stress promotes active coping responses. Neuron 55: 289300.
  • Berton O, Guigoni C, Li Q, Bioulac BH, Aubert I, Gross CE et al. (2009). Striatal overexpression of DeltaJunD resets L-DOPA-induced dyskinesia in a primate model of Parkinson disease. Biol Psychiatry 66: 554561.
  • Bolanos CA, Perrotti LI, Edwards S, Eisch AJ, Barrot M, Olson VG et al. (2003). Phospholipase Cγ in distinct regions of the ventral tegmental area differentially modulates mood-related behaviors. J Neurosci 23: 75697576.
  • Brinschwitz K, Dittgen A, Madai VI, Lommel R, Geisler S, Veh RW (2010). Glutamatergic axons from the leteral habenula mainly terminate on GABAergic neurons of the ventral midbrain. Neuroscience 168: 463476.
  • Carlezon WA Jr, Haile CN, Coppersmith R, Hayashi Y, Malinow R, Neve RL et al. (2000). Distinct sites of opiate reward and aversion within the midbrain identified using a herpes simplex virus vector expressing GluR1. J Neurosci 20: RC62.
  • Carter LP, Loel W, France CP (2009). Behavioral analyses of GHB: receptor mechanisms. Pharmacol Ther 121: 100114.
  • Castellani S, Adams PM (1981). Acute and chronic phencyclidine effects on locomotor activity, stereotypy and ataxia in rats. Eur J Pharmacol 73: 143154.
  • Chaouloff F, Durand M, Mormède P (1997). Anxiety- and activity-related effects of diazepam and chlordiazepoxide in the rat light/dark and dark/light tests. Behav Brain Res 85: 2735.
  • Cryan JF, Valentino RJ, Lucki I (2005). Assessing substrates underlying the behavioral effects of antidepressants using the modified rat forced swimming test. Neurosci Biobehav Rev 29: 547569.
  • Deurveilher S, Lo H, Murphy JA, Burns J, Semba K (2006). Differential c-Fos immunoreactivity in arousal-promoting cell groups following systemic administration of caffeine in rats. J Comp Neurol 498: 667689.
  • Ferré S (2008). An update on the mechanisms of the psychostimulant effects of caffeine. J Neurochem 105: 10671079.
  • Ferreira JG, Del-Fava F, Hasue RH, Shammah-Lagnado SJ (2008). Organization of ventral tegmental area projections to the ventral tegmental area-nigral complex in the rat. Neuroscience 153: 196213.
  • Geisler S, Marinelli M, Degarmo B, Becker ML, Freiman AJ, Beales M et al. (2008). Prominent activation of brainstem and pallidal afferents of the ventral tegmental area by cocaine. Neuropsychopharmacology 33: 26882700.
  • Grace AA, Floresco SB, Goto Y, Lodge DJ (2007). Regulation of firing of dopamineegic neurons and control of goal-directed behaviors. Trends Neurosci 30: 220227.
  • Gruner JA, Marcy VR, Yin-Guo L, Bozyczko-Coyne D, Marino MJ, Gasior M (2009). The roles of dopamine transport inhibition and dopamine release facilitation in wake enhancement and rebound hypersomnolence induced by dopaminergic agents. Sleep 32: 14251438.
  • Hiroi N, Graybiel AM (1996). Atypical and typical neuroleptic treatments induce distinct programs of transcription factor expression in the striatum. J Comp Neurol 374: 7083.
  • Hope BT, Nye HE, Kelz MB, Self DW, Iadarola MJ, Nakabeppu Y et al. (1994a). Induction of a long-lasting AP-1 complex composed of altered Fos-like proteins in brain by chronic cocaine and other chronic treatments. Neuron 13: 12351244.
  • Hope BT, Kelz MB, Duman RS, Nestler EJ (1994b). Chronic electroconvulsive seizure (ECS) treatment results in expression of a longlasting AP-1 complex in brain with altered composition and characteristics. J Neurosci 14: 43184328.
  • Ikemoto S (2007). Dopamine reward circuitry: two projection systems from the ventral midbrain to the nucleus accumbens-olfactory tubercle complex. Brain Res Rev 56: 2778.
  • Ikemoto S, Qin M, Liu ZH (2006). Primary reinforcing effects of nicotine are triggered from multiple regions both inside and outside the ventral tegmental area. J Neurosci 26: 723730.
  • Iversen SD, Iversen LL (2007). Dopamine: 50 years in perspective. Trends Neurosci 30: 188193.
  • Jhou TC, Geisler S, Marinelli M, Degarmo BA, Zahm DS (2009a). The mesopontine rostromedial tegmental nucleus: a structure targeted by the lateral habenula that projects to the ventral tegmental area of Tsai and substantia nigra compacta. J Comp Neurol 513: 566596.
  • Jhou TC, Fields HL, Baxter MG, Saper CB, Holland PC (2009b). The rostromedial tegmental nucleus (RMTg), a GABAergic afferent to midbrain dopamine neurons, encodes aversive stimuli and inhibits motor responses. Neuron 61: 786800.
  • Kalivas PW, Duffy P (1988). Effects of daily cocaine and morphine treatment on somatodendritic and terminal field dopamine release. J Neurochem 50: 14981504.
  • Kaufling J, Veinante P, Pawlowski SA, Freund-Mercier MJ, Barrot M (2009). Afferents to the GABAergic tail of the ventral tegmental area in the rat. J Comp Neurol 513: 597621.
  • Kaufling J, Veinante P, Pawlowski SA, Freund-Mercier MJ, Barrot M (2010). Gamma-aminobutyric acid cells with cocaine-induced DeltaFosB in the ventral tegmental area innervate mesolimbic neurons. Biol Psychiatry 67: 8892.
  • Le Moal M, Simon H (1991). Mesocorticolimbic dopaminergic network: functional and regulatory roles. Physiol Rev 71: 155234.
  • Lepore M, Vorel SR, Lowinson J, Gardner EL (1995). Conditioned place preference induced by delat-9-tetrahydrocannabinol: comparison with cocaine, morphine, and food reward. Life Sci 56: 20732080.
  • Luis-Delgado OE, Barrot M, Rodeau JL, Ulery PG, Freund-Mercier MJ, Lasbennes F (2006). The transcription factor DeltaFosB is recruited by inflammatory pain. J Neurochem 98: 14231431.
  • McClung CA, Ulery PG, Perrotti LI, Zachariou V, Berton O, Nestler EJ (2004). DeltaFosB: a molecular switch for long-term adaptation in the brain. Mol Brain Res 132: 146154.
  • McDaid J, Graham MP, Napier TC (2006). Methamphetamine-induced sensitization differentially alters pCREB and Δ-FosB throughout the limbic circuit of the mammalian brain. Mol Pharmacol 70: 20642074.
  • McGahan L, Hakim AM, Nakabeppu Y, Robertson GS (1998). Ischemia-induced CA1 neuronal death is preceded by elevated FosB and Jun expression and reduced NGFI-A and JunB levels. Mol Brain Res 56: 146161.
  • Maitre M (1997). The γ-hydroxybutyrate signalling system in brain: organization and functional implications. Prog Neurobiol 51: 337361.
  • Millan MJ, Dekeyne A, Papp M, Drieu La Rochelle C, MacSweeny C, Peglion JL et al. (2001). S33005, a novel ligand at both serotonin and norepinephrine transporters: II. Behavioral profile in comparison with venlafaxine, reboxetine, citalopram, and clomipramine. J Pharmacol Exp Ther 298: 581591.
  • Nehlig A, Daval JL, Debry G (1992). Caffeine and the central nervous system: mechanisms of action, biochemical, metabolic and psychostimulant effects. Brain Res Rev 17: 139170.
  • Nestler EJ, Carlezon WA Jr (2006). The mesolimbic dopamine reward circuit in depression. Biol Psychiatry 59: 11511159.
  • Nestler EJ, Barrot M, Self DW (2001). DeltaFosB: a sustained molecular switch for addiction. Proc Natl Acad Sci USA 98: 1104211046.
  • de Olmos S, Bender C, de Olmos JS, Lorenzo A (2009). Neurodegeneration and prolonged immediate early gene expression throughout cortical areas of the rat brain following acute administration of dizocilpine. Neuroscience 164: 13471359.
  • Olson VG, Nestler EJ (2007). Topographical organization of GABAergic neurons within the ventral tegmental area of the rat. Synapse 61: 8795.
  • Olson VG, Zabetian CP, Bolanos CA, Edwards S, Barrot M, Eisch AJ et al. (2005). Regulation of drug reward by CREB: evidence for two functionnaly distinct subregions of the ventral tegmental area. J Neurosci 25: 55535562.
  • Paxinos G, Watson C (1998). The Rat Brain in Stereotaxic Coordinates, 4th edn. Academic Press: San Diego, CA.
  • Paxinos G, Watson C (2007). The Rat Brain in Stereotaxic Coordinates, 6th edn. Academic Press: San Diego, CA, fig 89–92.
  • Pedersen LH, Blackburn-Munro G (2006). Pharmacological characterisation of place escape/avoidance behaviour in the rat chronic constriction injury model of neuropathic pain. Psychopharmacology 185: 208217.
  • Perrotti LI, Hadeishi Y, Ulery PG, Barrot M, Monteggia L, Duman RS et al. (2004). Induction of DeltaFosB in reward-related brain structures after chronic stress. J Neurosci 24: 1059410602.
  • Perrotti LI, Bolanos CA, Choi KH, Russo SJ, Edwards S, Ulery PG et al. (2005). DeltaFosB accumulates in a GABAergic cell population in the posterior tail of the ventral tegmental area after psychostimulant treatment. Eur J Neurosci 21: 28172824.
  • Perrotti LI, Weaver RR, Robison B, Renthal W, Maze I, Yazdani S et al. (2008). Distinct patterns of DeltaFosB induction in brain by drugs of abuse. Synapse 62: 358369.
  • Pich EM, Pagliusi SR, Tessari M, Talabot-Ayer D, Hooft van Huijsduijnen R, Chiamulera C (1997). Common neural substrates for the addictive properties of nicotine and cocaine. Science 275: 8386.
  • Rodd ZA, Bell RL, Kuc KA, Zhang Y, Murphy JM, McBride WJ (2005a). Intracranial self-administration of cocaine within the posterior ventral tegmental area of Wistar rats: evidence for involvement of serotonin-3 receptors and dopamine neurons. J Pharmacol Exp Ther 31: 134145.
  • Rodd ZA, Bell RL, Zhang Y, Murphy JM, Goldstein A, Zaffaroni A et al. (2005b). Regional heterogeneity for the intracranial self-administration of ethanol and acetaldehyde within the ventral tegmental area of alcohol-preferring (P) rats: involvement of dopamine and serotonin. Neuropsychopharmacology 30: 330338.
  • Rodd-Henricks ZA, McKinzie DL, Crile RS, Murphy JM, McBride WJ (2000). Regional heterogeneity for the intracranial self-administration of ethanol within the ventral tegmental area of female Wistar rats. Psychopharmacology 149: 217224.
  • Rodd-Henricks ZA, Melendez RI, Zaffaroni A, Goldstein A, McBride WJ, Li TK (2002). The reinforcing effects of acetaldehyde in the posterior ventral tegmental area of alcohol-preferring rats. Pharmacol Biochem Behav 72: 5564.
  • Scammell TE, Estabrooke IV, McCarthy MT, Chemelli RM, Yanagisawa M, Miller MS et al. (2000). Hypothalamic arousal regions are activated during modafinil-induced wakefulness. J Neurosci 20: 86208628.
  • Schultz W (2007). Behavioral dopamine signals. Trends Neurosci 30: 203210.
  • Stephenson CP, Hunt GE, Topple AN, McGregor IS (1999). The distribution of 3,4-methylenedioxymethamphetamine ‘Ecstasy’-induced c-fos expression in rat brain. Neuroscience 92: 10111023.
  • Tose R, Kushikata T, Yoshida H, Kudo M, Furukawa K, Ueno S et al. (2009). Orexin A decreases ketamine-induced anesthesia time in the rat: relevance to brain noradrenergic neuronal activity. Anesth Analg 108: 491495.
  • Vickers SP, Clifton PG, Dourish CT (1996). Behavioural evidence that d-fenfluramine-induced anorexia in the rat is not mediated by the 5-HT1A receptor subtype. Psychopharmacology 125: 168175.
  • Vilpoux C, Warmault V, Pierrefiche O, Daoust M, Naassila M (2009). Ethanol-sensitive brain regions in rat and mouse: a cartographic review, using immediate early gene expression. Alcohol Clin Exp Res 33: 945969.
  • Wallace DL, Vialou V, Rios L, Carle-Florence TL, Chakravarty S, Kumar A et al. (2008). The influence of DeltaFosB in the nucleus accumbens on natural reward-related behavior. J Neurosci 28: 1027210277.
  • Werme M, Messer C, Olson L, Gilden L, Thoren P, Nestler EJ et al. (2002). DeltaFosB regulates wheel running. J Neurosci 22: 81338138.
  • Yalcin I, Tessier LH, Petit-Demoulière N, Doridot S, Hein L, Freund-Mercier MJ et al. (2009). Beta2-adrenoceptors are essential for desipramine, venlafaxine or reboxetine action in neuropathic pain. Neurobiol Dis 33: 386394.
  • Zangen A, Ikemoto S, Zadina JE, Wise RA (2002). Rewarding and psychomotor stimulant effects of endomorphin-1: anteroposterior differences within the ventral tegmental area and lack of effect in nucleus accumbens. J Neurosci 22: 72257233.
  • Zangen A, Solinas M, Ikemoto S, Goldberg SR, Wise RA (2006). Two brain sites for cannabinoid reward. J Neurosci 26: 49014907.