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• W2079195959 abstract "Annals of the New York Academy of SciencesVolume 305, Issue 1 p. 346-369 5,7-DIHYDROXYTRYPTAMINE AS A TOOL TO STUDY THE FUNCTIONAL ROLE OF CENTRAL 5-HYDROXYTRYPTAMINE NEURONS* Kjell Fuxe, Kjell Fuxe Department of Histology, Karolinska Institute, S-104 01 Stockholm 60, SwedenSearch for more papers by this authorSven-Ove Ögren, Sven-Ove Ögren Research Laboratories AB Astra Södertälje, SwedenSearch for more papers by this authorLuigi F. Agnati, Luigi F. Agnati Department of Histology, Karolinska Institute, S-104 01 Stockholm 60, SwedenSearch for more papers by this authorGõsta Jonsson, Gõsta Jonsson Department of Histology, Karolinska Institute, S-104 01 Stockholm 60, SwedenSearch for more papers by this authorJan-Åke Gustafsson, Jan-Åke Gustafsson Department of Chemistry, Karolinska Institute, S-104 01 Stockholm 60, SwedenSearch for more papers by this author Kjell Fuxe, Kjell Fuxe Department of Histology, Karolinska Institute, S-104 01 Stockholm 60, SwedenSearch for more papers by this authorSven-Ove Ögren, Sven-Ove Ögren Research Laboratories AB Astra Södertälje, SwedenSearch for more papers by this authorLuigi F. Agnati, Luigi F. Agnati Department of Histology, Karolinska Institute, S-104 01 Stockholm 60, SwedenSearch for more papers by this authorGõsta Jonsson, Gõsta Jonsson Department of Histology, Karolinska Institute, S-104 01 Stockholm 60, SwedenSearch for more papers by this authorJan-Åke Gustafsson, Jan-Åke Gustafsson Department of Chemistry, Karolinska Institute, S-104 01 Stockholm 60, SwedenSearch for more papers by this author First published: June 1978 https://doi.org/10.1111/j.1749-6632.1978.tb31533.xCitations: 39 * Supported by Grant 04X-715 from the Swedish Medical Research Council, Grant MH 25504-03 from the National Institutes of Health, and by grants from Magn. Bergvalls Stiftelse and Karolinska Institute Foundation. AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL References 1 Baumgarten, H. G., A. Björklund, L. Lachenmayer, A. Nobin & U. Stenevi 1971. Long-lasting selective depletion of brain serotonin by 5,6-dihydroxytryptamine. Acta Physiol Scand. Suppl. 373. 2 Baumgarten, H. G., A. Björklund, A. F. Holstein & A. Nobin 1972. Chemical degeneration of indolamine axons in rat brain by 5,6-dihydroxytryptamine. Z. Zellforsch. 129: 256– 271. 3 Costa, E., J. Daly, H. Lefevre, J. Meek, A. Revuelta, F. Sparro & S. Strada 1972. Serotonin and catecholamine concentrations in brain of rats injected intracerebrally with 5,6-dihydroxytryptamine. Brain Res. 44: 304– 308. 4 Daly, J., K. Fuxe & G. Jonsson 1972. 5,6-Dihydroxytryptamine: a new tool in mapping out of central 5-HT neurons. Abstr. 4th Int. Congr. Histochem. Cytochem., Kyoto , Japan . 5 Daly, J., K. Fuxe & G. Jonsson 1973. Effects of intracerebral injections of 5,6-dihydroxytryptamine on central monoamine neurons: evidence for selective degeneration of central 5-hydroxytryptamine neurons. Brain Res. 49: 476– 482. 6 Baumgarten, H. G., A. Björklund, L. Lachenmayer & A. Nobin 1973. Evaluation of the effects of 5,7-dihydroxytryptamine on serotonin and catecholamine neurons in the rat CNS. Acta Physiol Scand. Suppl. 391. 7 Daly, J., K. Fuxe & G. Jonsson 1974. 5,7-Dihydroxytryptamine as a tool for the morphological and functional analysis of central 5-hydroxytryptamine neurons. Res. Commun. Chem. Pathol. Pharmacol. 7: 175– 187. 8 Lorens, S. A., H. C. Guldberg, K. Hole, C. KÖHLER & B. Srebro 1976. Activity, avoidance learning and regional 5-hydroxytryptamine following intra-brain stem 5,7-dihydroxytryptamine and electrolytic midbrain raphe lesions in the rat. Brain Res. 108: 97– 113. 9 Fuxe, K., G. Jonsson, L.-G. Nygren & L. Olsson 1974. Studies on central 5-hydroxytryptamine neurons using dihydroxytryptamines: evidence for regeneration of bulbospinal 5-hydroxytryptamine axons and terminals. In Dynamics of Degeneration and Growth in Neurons. K. Fuxe, L. Olsson & Y. Zotterman, Eds.: 169– 179. Pergamon Press. Oxford , England . 10 Nygren, L.-G., K. Fuxe, G. Jonsson & L. Olsson 1974. Functional regeneration of 5-hydroxytryptamine nerve terminals in the rat spinal cord following 5,6-dihydroxytryptamine induced degeneration. Brain Res. 78: 377– 394. 11 Nygren, L.-G. & L. Olson 1977. Intracisternal neurotoxins and monoamine neurons innervating the spinal cord: acute and chronic effects on cell and axon counts and nerve terminal densities. Histochemistry 129: 227– 235. 12 Dahlström, A. & K. Fuxe 1974. Evidence for the existence of monoamine-containing neurons in the central nervous system. Acta Physiol. Scand. 62 (Suppl. 232): 1– 55. 13 Lorens, S. A. & H. C. Guldberg 1974. Regional 5-hydroxytryptamine following selective midbrain raphe lesions in the rat. Brain Res. 78: 45– 56. 14 Bobillier, P., F. Petitjean, D. Salvert, M. Ligier & S. Seguin 1975. Differential projections of the nucleus raphe dorsalis and nucleus raphe centralis as revealed by autoradiography. Brain Res. 85: 205– 210. 15 Geyer, M. A., A. Puerto, W. J. Dawsey, S. Knapp, W. P. Bullard & A. J. Mandell 1976. Histologic and enzymatic studies of the mesolimbic and mesostriatal serotonergic pathways. Brain Res. 106: 241– 256. 16 Everitt, B. J., K. Fuxe & G. Jonsson 1975. 5,7-Dihydroxytryptamine (5,7-DHT) lesions of ascending 5-hydroxytryptamine pathways and the sexual and aggressive behavior of female rats. J. Pharmacol. 6: 25– 32. 17 Larsson, K., K. Fuxe, B. J. Everitt, M. Holmsgren & P. SÖDERSTEN 1977. Sexual behavior in male rats after intracerebral injection of 5,7-hydroxytryptamine. Brain Res. In press. 18 Fuxe, K., L.-O. Farnebo, B. Hamberger & S.-O. ÖGren 1975. On the in vivo and in vitro actions of fenfluramine and its derivatives on central monoamine neurons, especially 5-hydroxytryptamine neurons, and their relation to the anorectic activity of fenfluramine. Postgrad. Med. J. 51: 35– 45. 19 Hole, K., K. Fuxe & G. Jonsson 1976. Behavioral effects of 5,7-hydroxytryptamine lesions of ascending 5-hydroxytryptamine pathways. Brain Res. 107: 385– 399. 20 Samanin, R., W. Gumulka & L. Valzelli 1970. Reduced effect of morphine in midbrain raphe lesioned rats. Eur. J. Pharmacol. 10: 339– 343. 21 Jouvet, M. 1969. Biogenic amines and states of sleep. Science 163: 32– 41. 22 Khanmaa, K. & K. Fuxe 1977. The effects of 5,7-hydroxytryptamine-induced lesions of the ascending 5-hydroxytryptamine pathways on the sleep-wakefulness cycle. Brain Res. 131: 287– 301. 23 Ross, S. B., S. O. ÖGren & A. L. Renyi 1976. (Z)-Dimethylamino-1-(4-bromophenyl)-1-(3-pyridyl) propene (H 102/09), a new selective inhibitor of the neuronal 5-hydroxytryptamine uptake. Acta Pharmacol. Toxicol. 39: 152– 166. 24 ÖGren, S.-O. & K. Fuxe 1974. Learning, brain noradrenaline and the pituitary-adrenal axis. Med. Biol. 52: 399– 405. 25 Carlsson, A., W. Kehr & M. Lindqvist 1976. The role of intraneuronal amine levels in the feedback control of dopamine, noradrenaline and 5-hydroxytryptamine synthesis in rat brain. J. Neural Transmission 39: 1– 19. 26 Sachs, C. & G. Jonsson 1972. Degeneration of central and peripheral noradrenaline neurons produced by 6-hydroxy-DOPA. J. Neurochem. 19: 1561– 1575. 27 Lidbrink, P., J. Jonsson & K. Fuxe 1971. The effect of imipramine-like drugs and antihistamine drugs on 5-hydroxytryptamine neurons. Neuropharmacology 10: 521– 536. 28 Harvey, J. A., S. E. McMaster & L. M. Yunger 1975. p-Chloroamphetamine selective neurotoxic effects in brain. Science 187: 841– 843. 29 Falck, B., N.-Å. Hillarp, G. Thieme & A. Torp 1962. Fluorescence of catecholamines and related compounds condensed with formaldehyde. J. Histochem. Cytochem. 10: 348– 354. 30 Fuxe, K. & G. Jonsson 1973. The histochemical fluorescence method for the demonstration of catecholamines. Theory, practice and application. J. Histochem. Cytochem. 21: 293– 311. 31 ÖGren, S. O., Ch. Kohler, S. B. Ross & B. Srebro 1976. 5-Hydroxytryptamine depletion and avoidance acquisition in the rat. Antagonism of the long-term effects of p-chloroamphetamine with a selective inhibitor of 5-hydroxytryptamine uptake. Neurosci. Lett. 3: 341– 347. 32 Bennett, J. P. & S. H. Snyder 1976. Serotonin and lysergic acid diethylamide binding in rat brain membranes: relationship to postsynaptic serotonin receptors. Mol. Pharmacol. 12: 373– 389. 33 Hollander, M. & D. A. Wolfe 1973. Nonparametric Statistical Methods. John Wiley & Sons, Inc. New York , NY . 34 ÖGren, S.-O. & K. Fuxe 1977. On the role of brain noradrenaline and the pituitary adrenal axis in learning I. Studies with corticosterone. Neurosci. Lett. 5: 291– 296. 35 Fuxe, K., T. HÖKFELT, G. Jonsson, S. Levine, P. Lidbrink & A. LÖFSTRÖM 1973. Brain and pituitary-adrenal interactions studies on central monoamine neurons. : 239– 269. S. Karger. Basel , Switzerland . 36 DE Wied, D. 1969. Opposite effect of ACTH and glucocorticosterone on extinction of conditioned avoidance behaviour. Excerpta Med Int. Congr. Ser. 132. 37 Kovacs, G. L., G. Telegdy & K. Lissak 1976. 5-Hydroxytryptamine and the mediation of the pituitary-adrenocortical hormones in the extinction of active avoidance behaviour. Psychoneuroendocrinology 1: 219– 230. 38 Stein, L., C. D. Wise & J. D. Belluzzi 1975. Effects of benzodiazepines on central serotonergic mechanisms. In Mechanism of Action of Benzodiazepines. E. Costa & P. Greengard, Eds. Vol. 14: 29– 44. The Raven Press, New York , NY . 39 Tye, N. C., B. J. Everitt & S. D. Iversen 1977. 5-Hydroxytryptamine and punishment. Nature (London) 268: 741– 743. 40 Lidbrink, P., H. Corrodi & K. Fuxe 1974. Benzodiazepines and barbituates: turnover changes in central 5-hydroxytryptamine pathways. Eur. J. Pharmacol. 26: 35– 40. 41 Schoenfeld, R. I. 1976. Lysergic acid diethylamide- and mescaline-induced attenuation of the effect of punishment in the rat. Science 192: 801– 803. 42 Aghajanian, G. K., H. J. Haigler & F. E. Bloom 1972. Lysergic acid diethylamide and serotonin: direct actions on serotonin-containing neurons. Life Sci. 11: 615– 622. 43 Davis, M. & M. H. Sheard 1974. Effects of lysergic acid diethylamide (LSD) on habituation and sensitization of the startle response in the rat. Pharmacol. Biochem. Behav. 2: 675– 683. 44 Bradley, P. B. & B. J. Key 1958. The effect of drugs on arousal responses produced by electrical stimulation of the reticular formation of the brain. Electroencephalogr. Clin. Neurophysiol. 10: 97– 110. 45 Haigler, H. J. & G. K. Aghajanian 1974. Lysergic acid diethylamide and serotonin: a comparison of effects on serotonergic neurons and neurons receiving a serotonergic input. J. Pharmacol. Exp. Ther. 188: 688– 699. 46 Triggle, D. J. 1971. Neurotransmitter-Receptor Interactions. Academic Press. London and New York . 47 Fuxe, K. & S.-O. ÖGren To be published. 48 KÖHLER, C., S. B. Ross, B. Srebro & S.-O. ÖGren This monograph. 49 Fuxe, K., S.-O. ÖGren, B. J. Everitt, L. F. Agnati, P. Eneroth, J.-Å. Gustafsson & G. Jonsson, P. Skett & A. C. Hohn 1978. The effect of antide-pressant drugs of the imipramine type on various monoamine systems and their relation to changes in behaviour and neuroendocrine function. Symp. Med. Hoechst no. 13, Depression. In press. Citing Literature Volume305, Issue1Serotonin NeurotoxinsJune 1978Pages 346-369 ReferencesRelatedInformation" @default.
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