User menu

Regional Amines Levels in the Rat-brain Following Intraaccumbens Cholecystokinin and Intraperitoneal Amphetamine Pretreatment

Bibliographic reference Heidbreder, C. ; Gewiss, M. ; Depotter, W. ; De Witte, Philippe. Regional Amines Levels in the Rat-brain Following Intraaccumbens Cholecystokinin and Intraperitoneal Amphetamine Pretreatment. In: Archives Internationales de Physiologie et de Biochimie, Vol. 100, no. 3, p. 267-273 (1992)
Permanent URL http://hdl.handle.net/2078.1/50231
  1. Bardo M. T., Bowling S. L., Pierce R. C., Changes in locomotion and dopamine neurotransmission following amphetamine, haloperidol, and exposure to novel environmental stimuli, 10.1007/bf02244051
  2. Handbook of Chemical Neuroanatomy. Vol. 2 : Classical Transmitters in the Central Nervous System, A. Björklund, T. Hökfelt. Elsevier, Amsterdam (1984); 55–122, Part 1
  3. Buda Michel, Gonon François, Cespuglio Raymond, Jouvet Michel, François Jean, In vivo electrochemical detection of catechols in several dopaminergic brain regions of anaesthetized rats, 10.1016/0014-2999(81)90145-x
  4. Carboni E., Imperato A., Perezzani L., Di Chiara G., Amphetamine, cocaine, phencyclidine and nomifensine increase extracellular dopamine concentrations preferentially in the nucleus accumbens of freely moving rats, 10.1016/0306-4522(89)90012-2
  5. Carlson A. Amphetamines and Brain Catecholamines, E. Costa, S. Grattini. Raven Press, New York (1970); 289–300
  6. Crawley J.N., Hommer D.W., Skirboll L.R., Behavioral and neurophysiological evidence for a facilatory interaction between co-existing transmitters: cholecystokinin and dopamine, 10.1016/0197-0186(84)90007-x
  7. De Witte Ph., Heidbreder C., Roques B., Vanderhaeghen J.-J., Opposite effects of cholecystokinin octapeptide (CCK-8) and tetrapeptide (CCK-4) after injection into the caudal part of the nucleus accumbens or into its rostral part and the cerebral ventricles, 10.1016/0197-0186(87)90074-x
  8. Ho¨kfelt T., Skirboll L., Rehfeld J.F., Goldstein M., Markey K., Dann O., A subpopulation of mesencephalic dopamine neurons projecting to limbic areas contains a cholecystokinin-like peptide: Evidence from immunohistochemistry combined with retrograde tracing, 10.1016/0306-4522(80)90127-x
  9. Paxinos G., The rat brain (1986)
  10. Randrup A., J. Psychiat., 11, 1 (1974)
  11. WANG REX Y., Cholecystokinin, Dopamine, and Schizophrenia: Recent Progress and Current Problems, 10.1111/j.1749-6632.1988.tb42120.x
  12. Westerink Ben H.C., Korf Jakob, Turnover of acid dopamine metabolites in striatal and mesolimbic tissue of the rat brain, 10.1016/0014-2999(76)90032-7
  13. Westerink B.H.C., Spaan S.J., Simultaneous determination of the formation rate of dopamine and its metabolite 3,4-dihydroxyphenylacetic acid (DOPAC) in various rat brain areas, 10.1016/0006-8993(82)90391-2
  14. Westerink Ben H. C., Bosker Fokko J., Wirix Els, Formation and Metabolism of Dopamine in Nine Areas of the Rat Brain: Modifications by Haloperidol, 10.1111/j.1471-4159.1984.tb02790.x