TY - JOUR
T1 - Spatial learning in the rat
T2 - impairment induced by the thiol-proteinase inhibitor, leupeptin, and an analysis of [3H]glutamate receptor binding in relation to learning
AU - Morris, R. G.M.
AU - Hagan, J. J.
AU - Nadel, L.
AU - Jensen, J.
AU - Baudry, M.
AU - Lynch, G. S.
N1 - Funding Information:
Rats were given continuous intraventricular infusion of saline or the thiol-proteinase inhibitor leupeptin, via subcutaneously implanted osmotic minipumps, while being trained on a spatial learning water task using spaced trials. Leupeptin caused overnight forgetting during training, but performance eventually reached asymptote in both groups. A retention test conducted 48 h later to assess spatial memory revealed no significant group differences, but did cause, in saline-treated rats only, a disruption of subsequent retraining back to the correct spatial location. The groups showed no differences in Cl-dependent \[3H\]glutamater eceptor binding to hippocampal or entorhinal cortex membranes subsequent to training. In a second experiment, normal rats trained on the same task also showed no differences in Cl-dependent \[3H\]glutamateb inding relative to rats exposed to the water task but given random spatial position training and handled controls. The results are discussed in relation to the hypothesis of Lynch and Baudry (Science (1984) 224, The work was supported by MRC Fellowship Award G83/14974N to R. G. M. Morris, SERC Grant Gr/C/39071, and by NIH/NSF grants to Michel Baudry and Gary Lynch. We are indebted to Bill Dewar, Mary English, and Chris Barman for technical assistance, and to Marjorie Anderson for help in preparation of the manuscript. Correspondence and reprint requests should be addressed to R. G. M. Morris, Department of Pharmacology, University of Edinburgh, 1 George Square, Edinburgh EH8 9JZ, Scotland.
PY - 1987/5
Y1 - 1987/5
N2 - Rats were given continuous intraventricular infusion of saline or the thiolproteinase inhibitor leupeptin, via subcutaneously implanted osmotic minipumps, while being trained on a spatial learning water task using spaced trials. Leupeptin caused overnight forgetting during training, but performance eventually reached asymptote in both groups. A retention test conducted 48 h later to assess spatial memory revealed no significant group differences, but did cause, in saline-treated rats only, a disruption of subsequent retraining back to the correct spatial location. The groups showed no differences in Cl-dependent [3H]glutamate receptor binding to hippocampal or entorhinal cortex membranes subsequent to training. In a second experiment, normal rats trained on the same task also showed no differences in Cl-dependent [3H]glutamate binding relative to rats exposed to the water task but given random spatial position training and handled controls. The results are discussed in relation to the hypothesis of Lynch and Baudry (Science (1984) 224, 1057-1063) that a calcium-dependent thiol proteinase is involved in memory formation through its ability to modify glutamate receptor distribution and dendritic spine shape.
AB - Rats were given continuous intraventricular infusion of saline or the thiolproteinase inhibitor leupeptin, via subcutaneously implanted osmotic minipumps, while being trained on a spatial learning water task using spaced trials. Leupeptin caused overnight forgetting during training, but performance eventually reached asymptote in both groups. A retention test conducted 48 h later to assess spatial memory revealed no significant group differences, but did cause, in saline-treated rats only, a disruption of subsequent retraining back to the correct spatial location. The groups showed no differences in Cl-dependent [3H]glutamate receptor binding to hippocampal or entorhinal cortex membranes subsequent to training. In a second experiment, normal rats trained on the same task also showed no differences in Cl-dependent [3H]glutamate binding relative to rats exposed to the water task but given random spatial position training and handled controls. The results are discussed in relation to the hypothesis of Lynch and Baudry (Science (1984) 224, 1057-1063) that a calcium-dependent thiol proteinase is involved in memory formation through its ability to modify glutamate receptor distribution and dendritic spine shape.
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U2 - 10.1016/S0163-1047(87)90448-1
DO - 10.1016/S0163-1047(87)90448-1
M3 - Article
C2 - 2886115
AN - SCOPUS:0023216031
SN - 0163-1047
VL - 47
SP - 333
EP - 345
JO - Behavioral and Neural Biology
JF - Behavioral and Neural Biology
IS - 3
ER -