Estrogen regulates responses of dopamine neurons in the ventral tegmental area to cocaine (original) (raw)

• Bazzett TJ, Becker H (1994) Sex differences in the rapid and acute effects of estrogen on striatal D2 dopamine receptor binding. Brain Res 637:163–172
  Article PubMed CAS Google Scholar
• Becker JB (1990) Estrogen rapidly potentiates amphetamine-induced striatal dopamine release and rotational behavior during microdialysis. Neurosci Lett 118:169–171
  Article PubMed CAS Google Scholar
• Becker JB (1999) Gender differences in dopaminergic function in striatum and nucleus accumbens. Pharmacol Biochem Behav 64:803–812
  Article PubMed CAS Google Scholar
• Becker JB, Ramirez VD (1981) Experimental studies on the development of sex differences in the release of dopamine from striatal tissue fragments in vitro. Neuroendocrinology 32:168–173
  Article PubMed CAS Google Scholar
• Becker JB, Rudick CN (1999) Rapid effects of estrogen or progesterone on the amphetamine-induced increase in striatal dopamine are enhanced by estrogen priming: a microdialysis study. Pharmacol Biochem Behav 64:53–57
  Article PubMed CAS Google Scholar
• Becker JB, Hu M (2008) Sex differences in drug abuse. Front Neuroendocrinol 29:36–47
  Article PubMed CAS Google Scholar
• Bosse R, Rivest R, Di Paolo T (1997) Ovariectomy and estradiol treatment affect the dopamine transporter and its gene expression in the rat brain. Brain Res Mol Brain Res 46:343–346
  Article PubMed CAS Google Scholar
• Carroll ME, Lynch WJ, Roth ME, Morgan AD, Cosgrove KP (2004) Sex and estrogen influence drug abuse. Tips 25:273–279
  PubMed CAS Google Scholar
• Castner SA, Xiao L, Becker JB (1993) Sex differences in striatal dopamine: in vivo microdialysis and behavioral studies. Brain Res 610:127–134
  Article PubMed CAS Google Scholar
• Childress AR, Mozley PD, McElgin W, Fitzgerald J, Reivich M, O’Brien CP (1999) Limbic activation during cue-induced cocaine craving. Am J Psychiatry 156:11–18
  PubMed CAS Google Scholar
• Chiodo LA (1988) Dopamine-containing neurons in the mammalian central nervous system: electrophysiology and pharmacology. Neurosci and Biobehav Rev 12:49–91
  Article CAS Google Scholar
• Chiodo LA, Bunney BS (1985) Possible mechanisms by which repeated clozapine administration differentially affects the activity of two subpopulations of midbrain dopamine neurons. J Neurosci 5:2539–2544
  PubMed CAS Google Scholar
• Dazzi L, Seu E, Cherchi G, Barbieri PP, Matzeu A, Biggio G (2007) Estrous cycle-dependent changes in basal and ethanol-induced activity of cortical dopaminergic neurons in the rat. Neuropsychopharmacol 32:892–901
  Article CAS Google Scholar
• Di Paolo T (1994) Modulation of brain dopamine transmission by sex steroids. Rev Neurosci 5:27–41
  PubMed Google Scholar
• Dluzen DE, Ramirez VD (1987) Intermittent infusion of progesterone potentiates whereas continuous infusion reduces amphetamine-stimulated dopamine release from ovariectomized estrogen-primed rat striatal fragments superfused in vitro. Brain Res. 406:1–9
  Article PubMed CAS Google Scholar
• Gao M, Liu CL, Yang S, Jin GZ, Bunney BS, Shi WX (2007) Functional coupling between the prefrontal cortex and dopamine neurons in the ventral tegmental area. J Neurosci 27:5414–5421
  Article PubMed CAS Google Scholar
• Goldman-Rakic PS (1987) Circuitry of the frontal association cortex and its relevance to dementia. Arch Gerontol Geriatr 6:299–309
  Article PubMed CAS Google Scholar
• Grace AA, Bunney BS (1983a) Intracellular and extracellular electrophysiology of nigral dopaminergic neurons—2. Action potential generating mechanisms and morphological correlates. Neurosci 10:317–331
  Article CAS Google Scholar
• Grace AA, Bunney BS (1983b) Intracellular and extracellular electrophysiology of nigral dopaminergic neurons—1. Identification and characterization. Neurosci 10:301–315
  Article CAS Google Scholar
• Grace AA, Bunney BS (1983c) Intracellular and extracellular electrophysiology of nigral dopaminergic neurons—3. Evidence for electrotonic coupling. Neurosci 10:333–348
  Article CAS Google Scholar
• Grace AA, Bunney BS (1986) Induction of depolarization block in midbrain dopamine neurons by repeated administration of haloperidol: analysis using in vivo intracellular recording. J Pharmacol Exp Ther 238:1092–1100
  PubMed CAS Google Scholar
• Hu M, Becker JB (2003) Effects of sex and estrogen on behavioral sensitization to cocaine in rats. J Neurosci 23:693–699
  PubMed CAS Google Scholar
• Jentsch JD, Redmond DE Jr., Elsworth JD, Taylor JR, Youngren KD, Roth RH (1997) Enduring cognitive deficits and cortical dopamine dysfunction in monkeys after long-term administration of phencyclidine. Science 277:953–955
  Article PubMed CAS Google Scholar
• Lammers CH, D’Souza U, Qin ZH, Lee SH, Yajima S, Mouradian MM (1999) Regulation of striatal dopamine receptors by estrogen. Synapse 34:222–227
  Article PubMed CAS Google Scholar
• Landry M, Levesque D, Di Paolo T (2002) Estrogenic properties of raloxifene, but not tamoxifen, on D2 and D3 dopamine receptors in the rat forebrain. Neuroendocrinology 76:214–222
  Article PubMed CAS Google Scholar
• Leranth C, Roth RH, Elsworth JD, Naftolin F, Horvath TL, Redmond DE Jr. (2000) Estrogen is essential for maintaining nigrostriatal dopamine neurons in primates: implications for Parkinson’s disease and memory. J Neurosci 20:8604–8609
  PubMed CAS Google Scholar
• Lynch WJ, Roth ME, Carroll ME (2002) Biological basis of sex differences in drug abuse: preclinical and clinical studies. Psychopharmacol (Berl) 164:121–137
  Article CAS Google Scholar
• McEwen B (2002) Estrogen actions throughout the brain. Recent Prog Horm Res 57:357–384
  Article PubMed CAS Google Scholar
• McEwen BS, Alves SE (1999) Estrogen actions in the central nervous system. Endocr Rev 20:279–307
  Article PubMed CAS Google Scholar
• Morissette M, Di Paolo T (1993a) Effect of chronic estradiol and progesterone treatments of ovariectomized rats on brain dopamine uptake sites. J Neurochem 60:1876–1883
  Article PubMed CAS Google Scholar
• Morissette M, Di Paolo T (1993b) Sex and estrous cycle variations of rat striatal dopamine uptake sites. Neuroendocrinology 58:16–22
  Article PubMed CAS Google Scholar
• Ning M, Zhou C, Weng J, Zhang S, Chen D, Yang C, Wang H, Ren J, Zhou L, Jin C, Wang MW (2007) Biological activities of a novel selective oestrogen receptor modulator derived from raloxifene (Y134). Br J Pharmacol 150:19–28
  Article PubMed CAS Google Scholar
• Niyomchai T, Russo SJ, Festa ED, Akhavan A, Jenab S, Quinones-Jenab V (2005) Progesterone inhibits behavioral responses and estrogen increases corticosterone levels after acute cocaine administration. Pharmacol Biochem and Behav 80:603–610
  Article CAS Google Scholar
• O’Donnell P (2003) Dopamine gating of forebrain neural ensembles. Eur J Neurosci 17:429–435
  Article PubMed Google Scholar
• Ohtani H, Nomoto M, Douchi T (2001) Chronic estrogen treatment replaces striatal dopaminergic function in ovariectomized rats. Brain Res 900:163–168
  Article PubMed CAS Google Scholar
• Quinones-Jenab V (2006) Why are women from Venus and men from Mars when they abuse cocaine? Brain Res 1126:200–203
  Article PubMed CAS Google Scholar
• Quinones-Jenab V, Perrotti LI, Mc Monagle J, Ho A, Kreek MJ (2000) Ovarian hormone replacement affects cocaine-induced behaviors in ovariectomized female rats. Pharmacol Biochem and Behav 67:417–422
  Article CAS Google Scholar
• Ritz MC, Lamb RJ, Goldberg SR, Kuhar MJ (1987) Cocaine receptors on dopamine transporters are related to self-administration of cocaine. Science 237:1219–1223
  Article PubMed CAS Google Scholar
• Roth ME, Cosgrove KP, Carroll ME (2004) Sex differences in the vulnerability to drug abuse: a review of preclinical studies. Neurosci and Biobehav Rev 28:533–546
  Article CAS Google Scholar
• Sell SL, Scalzitti JM, Thomas ML, Cunningham KA (2000) Influence of ovarian hormones and estrous cycle on the behavioral response to cocaine in female rats. J Pharmacol Exp Ther 293:879–886
  PubMed CAS Google Scholar
• Sell SL, Thomas ML, Cunningham KA (2002) Influence of estrous cycle and estradiol on behavioral sensitization to cocaine in female rats. Drug Alcohol Depend 67:281–290
  Article PubMed CAS Google Scholar
• Shi WX (2005) Slow oscillatory firing: a major firing pattern of dopamine neurons in the ventral tegmental area. J Neurophysiol 94:3516–3522
  Article PubMed CAS Google Scholar
• Takuma K, Matsuo A, Himeno Y, Hoshina Y, Ohno Y, Funatsu Y, Arai S, Kamei H, Mizoguchi H, Nagai T, Koike K, Inoue M, Yamada K (2007) 17[beta]-estradiol attenuates hippocampal neuronal loss and cognitive dysfunction induced by chronic restraint stress in ovariectomized rats. Neurosci 146:60–68
  Article CAS Google Scholar
• Thompson TL, Moss RL (1997) Modulation of mesolimbic dopaminergic activity over the rat estrous cycle. Neurosci Lett 229:145–148
  Article PubMed CAS Google Scholar
• Torres-Hernandez AR, Gonzalez-Vegas JA (2005) Effects of 17beta-estradiol on the spontaneous activity of substantia nigra neurons: evidence for a non-genomic mechanism. Brain Res 1049:1–7
  Article PubMed CAS Google Scholar
• Tzschentke TM (2001) Pharmacology and behavioral pharmacology of the mesocortical dopamine system. Prog Neurobiol 63:241–320
  Article PubMed CAS Google Scholar
• Tzschentke TM, Schmidt WJ (2000) Functional relationship among medial prefrontal cortex, nucleus accumbens, and ventral tegmental area in locomotion and reward. Crit Rev Neurobiol 14:131–142
  PubMed CAS Google Scholar
• Walker QD, Cabassa J, Kaplan KA, Li ST, Haroon J, Spohr HA, Kuhn CM (2001) Sex differences in cocaine-stimulated motor behavior: disparate effects of gonadectomy. Neuropsychopharmacol 25:118–130
  Article CAS Google Scholar
• Xiao L, Becker JB (1994) Quantitative microdialysis determination of extracellular striatal dopamine concentration in male and female rats: effects of estrous cycle and gonadectomy. Neurosci Lett 180:155–158
  Article PubMed CAS Google Scholar
• Zhang D, Yang S, Jin G-Z, Bunney BS, Shi W-X (2007) Oscillatiory firing of dopamine neurons: differences between cells in the substantia Nigra and Ventral Tegmental area. Synapse 62:169–175
  Article Google Scholar
• Zhen X, Goswami S, Abdali SA, Frankfurt M, Friedman E (2007) Estrogen-modulated frontal cortical CaMKII activity and behavioral supersensitization induced by prolonged cocaine treatment in female rats. Psychopharmacol (Berl) 191:323–331
  Article CAS Google Scholar
• Zhou W, Cunningham KA, Thomas ML (2002) Estrogen regulation of gene expression in the brain: a possible mechanism altering the response to psychostimulants in female rats. Brain Res Mol Brain Res 100:75–83
  Article PubMed CAS Google Scholar
• Zhu ZT, Fu Y, Hu GY, Jin GZ (2000) Modulation of medical prefrontal cortical D1 receptors on the excitatory firing activity of nucleus accumbens neurons elicited by (−)-Stepholidine. Life Sci 67:1265–1274
  Article PubMed CAS Google Scholar