참고문헌 (65)

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2. J Clin Psychiatry Aghajanian 43 20 1982 Central noradrenergic neurons: a locus for the functional interplay between alpha-2 adrenoceptors and opiate receptors. 

3. Aghajanian, G.K., Kogan, J.H., Moghaddam, B.. Opiate withdrawal increases glutamate and aspartate efflux in the locus coeruleus: an in vivo microdialysis study. Brain research, vol.636, no.1, 126-130.

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4. Akaoka, H, Aston-Jones, G. Opiate withdrawal-induced hyperactivity of locus coeruleus neurons is substantially mediated by augmented excitatory amino acid input. The Journal of neuroscience : the official journal of the Society for Neuroscience, vol.11, no.12, 3830-3839.

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5. Alreja, M, Aghajanian, GK. Opiates suppress a resting sodium-dependent inward current and activate an outward potassium current in locus coeruleus neurons. The Journal of neuroscience : the official journal of the Society for Neuroscience, vol.13, no.8, 3525-3532.

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7. ASTON‐JONES, GARY, DELFS, JILL M., DRUHAN, JONATHAN, ZHU, YAN. The Bed Nucleus of the Stria Terminalis: A Target Site for Noradrenergic Actions in Opiate Withdrawal. Annals of the New York Academy of Sciences, vol.877, no.1, 486-498.

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9. Bronstein, David M., Day, Nicola C., Gutstein, Howard B., Trujillo, Keith A., Akil, Huda. Pre‐ and Posttranslational Regulation of β‐Endorphin Biosynthesis in the CNS: Effects of Chronic Naltrexone Treatment. Journal of neurochemistry, vol.60, no.1, 40-49.

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10. J Pharmacol Exp Ther Caille 290 881 1999 Total neurochemical lesion of noradrenergic neurons of the locus coeruleus does not alter either naloxone-precipitated or spontaneous opiate withdrawal nor does it influence ability of clonidine to reverse opiate withdrawal. 

11. Chan, J., Aoki, C., Pickel, V.M.. Optimization of differential immunogold-silver and peroxidase labeling with maintenance of ultrastructure in brain sections before plastic embedding. Journal of neuroscience methods, vol.33, no.2, 113-127.

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12. Chieng, B., Christie, M.J.. Lesions to terminals of noradrenergic locus coeruleus neurones do not inhibit opiate withdrawal behaviour in rats. Neuroscience letters, vol.186, no.1, 37-40.

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15. Mol Pharmacol Christie 32 633 1987 Cellular mechanisms of opioid tolerance: studies in single brain neurons. 

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16. Christie, MacDonald J.. Where is the locus in opioid withdrawal?. Trends in pharmacological sciences, vol.18, no.4, 134-140.

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19. Drolet, G, Van Bockstaele, EJ, Aston-Jones, G. Robust enkephalin innervation of the locus coeruleus from the rostral medulla. The Journal of neuroscience : the official journal of the Society for Neuroscience, vol.12, no.8, 3162-3174.

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20. Ennis, M, Aston-Jones, G. Activation of locus coeruleus from nucleus paragigantocellularis: a new excitatory amino acid pathway in brain. The Journal of neuroscience : the official journal of the Society for Neuroscience, vol.8, no.10, 3644-3657.

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21. FRATTA, W., YANG, H.-Y. T., HONG, J., COSTA, E.. Stability of Met-enkephalin content in brain structures of morphine-dependent or foot shock-stressed rats. Nature, vol.268, no.5619, 452-453.

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22. Prog Clin Biol Res Gold 71 285 1981 Neuroanatomical sites of action of clonidine in opiate withdrawal: the locus coeruleus connection. 

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24. Gudehithlu, K.P., Tehwani, G.A., Bhargava, H.N.. β-endorphin and methionine-enkephalin levels in discrete brain regions, spinal cord, pituitary gland and plasma of morphine tolerant-dependent and abstinent rats. Brain research, vol.553, no.2, 284-290.

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25. Guitart, Xavier, Thompson, Margaret A., Mirante, Cindy K., Greenberg, Michael E., Nestler, Eric J.. Regulation of Cyclic AMP Response Element‐Binding Protein (CREB) Phosphorylation by Acute and Chronic Morphine in the Rat Locus Coeruleus. Journal of neurochemistry, vol.58, no.3, 1168-1171.

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31. Kogan, J.H., Nestler, E.J., Aghajanian, G.K.. Elevated basal firing rates and enhanced responses to 8-Br-cAMP in locus coeruleus neurons in brain slices from opiate-dependent rats. European journal of pharmacology, vol.211, no.1, 47-53.

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35. Loughlin, S.E., Foote, S.L., Bloom, F.E.. Efferent projections of nucleus locus coeruleus: Topographic organization of cells of origin demonstrated by three-dimensional reconstruction. Neuroscience, vol.18, no.2, 291-306.

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36. Maldonado, R., Koob, G.F.. Destruction of the locus coeruleus decreases physical signs of opiate withdrawal. Brain research, vol.605, no.1, 128-138.

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37. Naunyn Schmiedebergs Arch Pharmacol Maldonado 352 565 1995 10.1007/BF00169392 Protein kinases in the locus coeruleus and periaqueductal gray matter are involved in the expression of opiate withdrawal. 

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38. Nestler, Eric J., Aghajanian, George K.. Molecular and Cellular Basis of Addiction. Science, vol.278, no.5335, 58-63.

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40. North, R A, Williams, J T, Surprenant, A, Christie, M J. Mu and delta receptors belong to a family of receptors that are coupled to potassium channels.. Proceedings of the National Academy of Sciences of the United States of America, vol.84, no.15, 5487-5491.

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41. Rasmussen, Kurt. The role of the locus coeruleus and N-methyl-D-aspartic acid (NMDA) and AMPA receptors in opiate withdrawal. Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology, vol.13, no.4, 295-300.

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44. Rasmussen, Kurt, Kendrick, William T., Kogan, Jeffrey H., Aghajanian, George K.. A selective AMPA antagonist, LY293558, suppresses morphine withdrawal-induced activation of locus coeruleus neurons and behavioral signs of morphine withdrawal. Neuropsychopharmacology : official publication of the American College of Neuropsychopharmacology, vol.15, no.5, 497-505.

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50. Pharmacology Tejwani 48 216 1994 10.1159/000139183 Methionine-enkephalin concentrations in discrete brain regions, spinal cord, pituitary gland and peripheral tissues of U-50,488H-tolerant and abstinent rats. 

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51. J Biomed Sci Tokuyama 5 45 1998 10.1007/BF02253355 The role of glutamate in the locus coeruleus during opioid withdrawal and effects of H-7, a protein kinase inhibitor, on the action of glutamate in rats. 

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