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Cholecystokinin Octapeptide (cck-8) and Neurotensin (nt) Act As Neuroleptic-like Agents Depending On the Site of Injection in the Mesolimbic System

Bibliographic reference Heidbreder, C. ; Gewiss, M. ; De Witte, Philippe. Cholecystokinin Octapeptide (cck-8) and Neurotensin (nt) Act As Neuroleptic-like Agents Depending On the Site of Injection in the Mesolimbic System.In: Psychopharmacology, Vol. 101, p. S23-S23 (1990)
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  1. Banks WA, Kastin AJ (1985) Peptides and the blood-brain barrier: lipophilicity as a predictor of permeability. Brain Res Bull 15:287–292
  2. Barnea A, Cho G, Porter JC (1982) A reduction in the concentration of immunoreactive corticotropin, melanotropin and lipotropin in the brain of the aging rat. Brain Res 232:345–353
  3. Barnes C. A., Nadel L., Honig Werner K., Spatial memory deficit in senescent rats., 10.1037/h0081022
  4. Cooper RL, McNamara MC, Thompson WG, Marsh GR (1980) Vasopressin modulation of learning and memory in the rat. In: Poon L (ed) Aging in the 1980's: selected contemporary issue in psychobiology of aging. American Psychological Association, Washington, pp 201–211
  5. De Ceballos ML, Boyce S, Taylor M, Jenner P, Marsden CD (1987) Age-related decreases in the concentration of Met- and Leuenkephalin and neurotensin in the basal ganglia of rats. Neurosci Lett 75:113–117
  6. De Wied D, van Ree JM (1982) Neuropeptides, mental performance and aging. Life Sci 31:709–719
  7. Dorsa DM, Bottemiller L (1982) Age-related changes of vasopressin content of microdissected areas of the rat brain. Brain Res 242:151–156
  8. Dupont A, Savard P, Merand Y, Labrie F, Boissier JR (1981) Age-related changes in central nervous system enkephalins and substance P. Life Sci 29:2317–2322
  9. Edvinsson L, McCulloch J, Rosell S, Uddman R (1982) Antagonism by (d-Pro2,d-Trp7, 9)-substance P of the cerebrovascular dilatation induced by substance P. Acta Physiol Scand 116:411–416
  10. Gallagher M, Pelleymounter MA (1988) Spatial learning deficits in old rats: a model for memory decline in the aged. Neurobiol Aging 9:549–556
  11. Gallagher M, Bostock E, King R (1985) Effects of opiate antagonists on spatial memory in young and aged rats. Behav Neural Biol 44:374–385
  12. Giurgea C, Mouravieff-Lesuisse F (1972) Effect facilitateur du piracetam sur un apprentissage repetitif chez le rat. J Pharmacol (Paris) 3:17–30
  13. Hasenöhrl RU, Gerhardt P, Huston JP (1990) Substance P enhancement of inhibitory avoidance learning: mediation by the N-terminal sequence. Peptides (in press)
  14. Hock FJ (1987) Drug influences on learning and memory in aged animals and humans. Neuropsychobiology 17:145–160
  15. Huston Joseph P., Stäubli Ursula, Substance P and Its Effects on Learning and Memory, Endogenous Peptides and Learning and Memory Processes (1981) ISBN:9780124749801 p.521-540, 10.1016/b978-0-12-474980-1.50030-1
  16. Huston JP, Oitzl M-S (1989) On the relationship between reinforcement and memory: parallels in the rewarding and mnemonic effects of the neuropeptide substance P. Neurosci Biobehav Rev 13:171–180
  17. Ingram DK (1985) Analysis of age-related impairments in learning and memory in rodent models. Ann NY Acad Sci 444:312–331
  19. Krause JE (1985) On the physiological metabolism of substance P. In: Jordan CC, Oehme P (eds) Substance P: metabolism and biological actions. Taylor and Francis, London, pp 13–30
  20. Krauth J (1980) Nonparametric analysis of response curves. J Neurosci Methods 2:239–252
  21. Kubanis P, Zornetzer SF (1981) Age-related behavioral and neurobiological changes: a review with an emphasis on memory. Behav Neural Biol 31:115–172
  22. Lüneburg U., Flohr H., Effect of Substance P on Vestibular Compensation, Post-Lesion Neural Plasticity (1988) ISBN:9783642738517 p.699-704, 10.1007/978-3-642-73849-4_62
  23. Oitzl M-S, Hasenöhrl RU, Huston JP (1990) Evidence for reinforcing effects of peripherally administered substance P and its C-terminal sequence pGlu6-SP-6-11 in the rat. Psychopharmacology (in press)
  24. Pelleymounter MA, Smith MY, Gallagher M (1987) Spatial learning impairments in aged rats trained with a salient configuration of stimuli. Psychobiology 15:248–254
  25. Rigter H, Veldhuis HD, de Kloet ER (1984) Spatial learning and the hippocampal corticosterone receptor system of old rats: effect of the ACTH4–9 analogue Org 2766. Brain Res 309:393–398
  26. Schuurman T, Horvath E, Spencer DG, Traber J (1986) Old rats: an animal model for senile dementia. In: Bès A (ed) Senile dementias: early detection. John Libbey Eurotext, Paris, pp 624–630
  27. Stern P, Hadzovic J (1973) Pharmacological analysis of central actions of synthetic substance P. Arch Int Pharmacodyn 202:259–262
  28. Tomaz C, Huston JP (1986) Facilitation of conditioned inhibitory avoidance by post-trial peripheral injection of substance P. Pharmacol Biochem Behav 25:469–472
  29. Zornetzer SF, Thompson R, Rogers J (1982) Rapid forgetting in aged rats. Behav Neural Biol 36:49–60