Neurociencia del consumo y dependencia de sustancias psicoactivas
Neurociencia del consumo y dependencia de sustancias psicoactivas Neurociencia del consumo y dependencia de sustancias psicoactivas
2. MECANISMOS CEREBRALES: NEUROBIOLOGÍA Y NEUROANATOMÍACole RL y colab. (1995) Neuronal adaptation to amphetamine and dopamine:molecular mechanisms of prodynorphin gene regulation in rat striatum. Neuron,14:813–823.Eisch AJ y colab. (2000) Opiates inhibit neurogenesis in the adult rat hippocampus.Proceedings of the National Academy of Science of the United States ofAmerica, 97:7579–7584.Gatley SJ, Volkow ND (1998) Addiction and imaging of the living human brain.Drug and Alcohol Dependence, 51:97–108.Hope BT y colab. (1994) Induction of a long-lasting AP-1 complex composedof altered Fos-like proteins in brain by chronic cocaine and other chronic treatments.Neuron, 13:1235–1244.Hyman SE, Malenka RC (2001) Addiction and the brain: the neurobiology ofcompulsion and its persistence. Nature Reviews: Neuroscience, 2:695–703.Kandel ER, Schwartz JH, eds (1985) Principles of neural science, 2a edición,Nueva York, NY, Elsevier.Kandel ER, Schwartz JH, Jessell TM, eds (1995) Essentials of neural science andbehavior. Norwalk, CT, Appleton y Lange.Keltz MB, Nestler EJ (2000) ∆FosB: a molecular switch underlying long-termneural plasticity. Current Opinion in Neurology, 13:715–720.Kolb B, Whishaw IQ (1996) Fundamentals of human neuropsychology, 4a edición.San Francisco, CA, WH Freeman.Kovacs GL, Sarnyai Z, Szabo G (1998) Oxytocin and addiction: a review.Psychoneuroendocrinology, 23:945–962.Lane-Ladd SB y colab. (1997) CREB in the locus coeruleus: biochemical, physiologicaland behavioral evidence for a role in opiate dependence. Journal ofNeuroscience, 17:7890–7901.Law PY, Wong YH, Loh HH (2000) Molecular mechanisms and regulation ofopioid receptor signaling. Annual Review of Pharmacology and Toxicology,40:389–430.Marks MJ y colab. (1992) Nicotine binding and nicotinic receptor subunit RNAafter chronic nicotine treatment. Journal of Neuroscience, 12:2765–2784.Matthes HW y colab. (1996) Loss of morphine-induced analgesia, reward effectand withdrawal symptoms in mice lacking the µ-opioid receptor gene. Nature,383:819–823.McLay RN, Pan W, Kastin AJ (2001) Effects of peptides on animal and humanbehavior: a review of studies published in the first twenty years of the journalPeptides. Peptides, 22:2181–2255.Moratalla R y colab. (1996) D1-class dopamine receptors influence cocaine-inducedpersistent expression of Fos-related proteins in striatum. Neuroreport, 8:1–5.Nestler EJ (2001) Molecular basis of long-term plasticity underlying addiction.Nature Reviews: Neuroscience, 2:119–128.Nestler EJ, Aghajanian GK (1997) Molecular and cellular basis of addiction.Science, 278:58–63.41
NEUROCIENCIA DEL CONSUMO Y DEPENDENCIA DE SUSTANCIAS PSICOACTIVASInstituto Nacional de Abuso de Drogas de Estados Unidos (1996) Reporte Especial:Investigación de Imagenología del Cerebro. NIDA Notes, Noviembre/Diciembre.http://165.112.78.61/NIDA_Notes/NN96Index.html#Number5.Pak Y y colab. (1996) Agonist-induced functional desensitization of the mu-opioidreceptor is mediated by loss of membrane receptors rather than uncouplingfrom G protein. Molecular Pharmacology, 50:1214–1222.Pinel JPJ (1990) Biopsychology. Boston, MA Allyn & Bacon.Robbins TW, Everitt BJ (1996) Neurobehavioural mechanisms of reward andmotivation. Current Opinion in Neurobiology, 6:228–236.Robinson TE, Kolb B (1999) Alterations in the morphology of dendrites anddendritic spines in the nucleus accumbens and prefrontal cortex followingrepeated treatment with amphetamine or cocaine. European Journal ofNeuroscience, 11:1598–1604.Rosenzweig MR, Leiman AL, Breedlove SM (1999) Biological psychology, 2a edición.Sunderland, MA, Sinauer Associates.Sarnyai Z, Shaham Y, Heinrichs SC (2001) The role of corticotropin-releasingfactor in drug addiction. Pharmacological Reviews, 53:209–293.Sharma SK, Klee WA, Nirenberg N (1975) Dual regulation of adenylate cyclaseaccounts for narcotic dependence and tolerance. Proceedings of the NationalAcademy of Science of the United States of America, 72:3092–3096.Shepherd GM (1994) Neurobiology. Nueva York, NY, Oxford University Press.Sklair-Tavron L y colab. (1996) Chronic morphine induces visible changes in themorphology of mesolimbic dopamine neurons. Proceedings of the NationalAcademy of Science of the United States of America, 93:11202–11207.Unterwald EM y colab. (1993) Chronic repeated cocaine administration altersbasal and opioid-regulated adenylyl cyclase activity. Synapse, 15:33–38.Volkow ND, Rosen B, Farde L (1997) Imaging the living human brain: magneticresonance imaging and positron emission tomography. Proceedings of theNational Academy of Sciences of the United States of America, 94:2787–2788.Whistler J y colab. (1999) Functional dissociation of µ-opioid receptor signalingand endocytosis: implications for the biology of opiate tolerance and addiction.Neuron, 23:737–746.Wise RA (1998) Drug-activation of brain reward pathways. Drug and AlcoholDependence, 51:13–22.Wonnacott S (1990) The paradox of nicotinic acetylcholine receptor upregulationby nicotine. Trends in Neuroscience, 11:216–218.42
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NEUROCIENCIA DEL CONSUMO Y DEPENDENCIA DE SUSTANCIAS PSICOACTIVASInstituto Nacional <strong>de</strong> Abuso <strong>de</strong> Drogas <strong>de</strong> Estados Unidos (1996) Reporte Especial:Investigación <strong>de</strong> Imagenología <strong><strong>de</strong>l</strong> Cerebro. NIDA Notes, Noviembre/Diciembre.http://165.112.78.61/NIDA_Notes/NN96In<strong>de</strong>x.html#Number5.Pak Y y colab. (1996) Agonist-induced functional <strong>de</strong>sensitization of the mu-opioidreceptor is mediated by loss of membrane receptors rather than uncouplingfrom G protein. Molecular Pharmacology, 50:1214–1222.Pinel JPJ (1990) Biopsychology. Boston, MA Allyn & Bacon.Robbins TW, Everitt BJ (1996) Neurobehavioural mechanisms of reward andmotivation. Current Opinion in Neurobiology, 6:228–236.Robinson TE, Kolb B (1999) Alterations in the morphology of <strong>de</strong>ndrites and<strong>de</strong>ndritic spines in the nucleus accumbens and prefrontal cortex followingrepeated treatment with amphetamine or cocaine. European Journal ofNeuroscience, 11:1598–1604.Rosenzweig MR, Leiman AL, Breedlove SM (1999) Biological psychology, 2a edición.Sun<strong>de</strong>rland, MA, Sinauer Associates.Sarnyai Z, Shaham Y, Heinrichs SC (2001) The role of corticotropin-releasingfactor in drug addiction. Pharmacological Reviews, 53:209–293.Sharma SK, Klee WA, Nirenberg N (1975) Dual regulation of a<strong>de</strong>nylate cyclaseaccounts for narcotic <strong>de</strong>pen<strong>de</strong>nce and tolerance. Proceedings of the NationalAca<strong>de</strong>my of Science of the United States of America, 72:3092–3096.Shepherd GM (1994) Neurobiology. Nueva York, NY, Oxford University Press.Sklair-Tavron L y colab. (1996) Chronic morphine induces visible changes in themorphology of mesolimbic dopamine neurons. Proceedings of the NationalAca<strong>de</strong>my of Science of the United States of America, 93:11202–11207.Unterwald EM y colab. (1993) Chronic repeated cocaine administration altersbasal and opioid-regulated a<strong>de</strong>nylyl cyclase activity. Synapse, 15:33–38.Volkow ND, Rosen B, Far<strong>de</strong> L (1997) Imaging the living human brain: magneticresonance imaging and positron emission tomography. Proceedings of theNational Aca<strong>de</strong>my of Sciences of the United States of America, 94:2787–2788.Whistler J y colab. (1999) Functional dissociation of µ-opioid receptor signalingand endocytosis: implications for the biology of opiate tolerance and addiction.Neuron, 23:737–746.Wise RA (1998) Drug-activation of brain reward pathways. Drug and AlcoholDepen<strong>de</strong>nce, 51:13–22.Wonnacott S (1990) The paradox of nicotinic acetylcholine receptor upregulationby nicotine. Trends in Neuroscience, 11:216–218.42