Abstract
On the basis of our own experimental data and results from other laboratories then available, we developed in 1972 a working hypothesis on neuronal mechanisms of memory. We suggested that the assumed stages of short-term, intermediate, and long-term memory, their different time course of origin and decay, their biochemical correlates as well as their sensitivity to interventions reflect the properties of the corresponding cellular mechanisms of a synaptic, synaptosomal and nuclear regulation of memory formation (Matthies, 1972).
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References
Abraham, W.C., and Otani, S., 1988, Maintenance of long-term potentiation in the dentate gyrus requires protein synthesized shortly after tetanization in the anaesthetized rat, J.Physiol.(London) 407. 50 P
Akers, R.F, Lovinger, D.M., Colley, P.A., Linden, D.J., and Routtenberg, A., 1986, Translocation of protein kinase C activity may mediate hippocampal long-term potentiation, Science, 231, 587
Bliss, T.V.P., Errington, M.L., Evan, G., and Hunt, S.P., 1988, Induction of c-fos like protein in rat hippocampus following electrical stimulation, J Physiol. (London), 398: 96 P
Buzsaki, G. and Gage, F.H., 1989, Absence of long-term potentiation in the subcorticalìy deafferented dentate gyros, Brain Res. 484: 94
Charriaut-Marlangue, C., Aniksztein, L., Roisin, M.P., and Ben-Ary, Y., 1988, Release of proteins during long-term potentiation in the hippocampus of the anaesthetized rat, Neurosci.Lett. 91: 308
Chiarugi, V.P., Ruggiero, M., and Corradetti, R., 1989, Ontogenes, protein kinase C, neuronal differentiaation and memory, Neurochem.Int 14: 1
Collingridge, G.L., and Bliss, T.V.P., 1987. NMDA-receptors - their role in long-term potentiation, Trends Neurosci. 10: 288
Douglas, R.M., Dragunow, N., and Robertson, H.A., 1988, High-frequency discharge of dentate granule cells, but not long-term potentiation, induces c-fos protein, Moi.Brnin.Res. 4: 259
Dragunow, M., Abraham, W.C., Goulding, M., Mason, S.E., Robertson, H.a., and Fauii, R.L.M., 1989, Long-term potentiation and the induction of c-fos mRNA and proteins in the dentate gyrus of unanaesthetized rats, Neurosci.Lett. ???. 274
Fazeli, M.S., Errington, M.L., Dolphiri, A.C., and Bliss, T.V.P., 1988 Longterm potentiation in the dentate gyrus of the anaesthetized rat is accompanied by an increase in protein efflux into push-pull cannula perfusates, Brain Ras 473: 51
Frey, U., Krug, M., Reymann, K., and Matthies, H., 1938, Anisomycin, an inhibitor of protein synthesis, blocks late phases of LIP phenomena in the hippocampal CA i region in vitro, Brain Res. 452: 57
Frey, U., Krug, M., Broedemann, R., Reymann, K.S., and Matthies, H., 1989, Longterm potentiation induced in dendrites separated from their CAI pyramidal somata does not establish a late phase, Neurosci.Lett. 97: 135
Frey, U., Hartmann, S., and Matthies, H., 1989, Domperidon, an inhibtor of the D2 - receptor, blocks a late phase of electrically induced long-term potentiation in the CA1 region in rats, Biomed.Biochem.Acta 48: 473
Gispen, W.H., 1986, Synaptic protein phosphorylation and long-term potentiation, in Learning and Memory: Mechanisms of information storage in the nervous system, H. Matthies.ed., Pergamon Press, Oxford, p. 25
Greenberg, M.E., Ziff, E.E., and Greene, L.A., 1986, Stimulation of neuronal acetylcholine receptors induces rapid gene transcription, Science 234: 80
Hanley, M.R. 1988, Proto-oncogenes in the nervous system, Neuron 1: 175
Hu, G.Y., Hvalby, O., Wsaiaas, S.I., Albert, K.A., Skjeflo, P., Andersen, P., and Greengard, P, 1997, Protein ninase C. injection into hippocampal pyramidal cells elicits features of long-term potentiation, Nature 328: 426
Jork, R., Grecksch, G., and Matthies, H., 1986, Impairment of gîycoproteir fucosylation in rat hippocampuss and the consequences on;memory formation, Pharmacol.Biochem.Behav. 25: 1137
Jork, R., Schnurra, I., Smalla, K.H., Grecksch, G., Popov, W., and Matthia, H., 1939, Deoxy-galactose mediate, amnesia. is related to an inhibition of training-induced increase in rat hippocampal glycoprotein fucosylaticn, Neurosci.Res.Commun. 5: 3
Kaczmarek, L., Siedlecki, J.A., and Danysz, W., 1988, Proto-oncogene c-fos induction in rat hippocampus, Mol.Brain.Res. 3: 183
Kaczmarek, L., Nikolajew, E., Jakulski, D., Krug, M. Tischmeyer, W., and Matthies, H., 1989, Induction of c-fos protooncogene expression in rat nippocampus ocur ring in long-term potentiation and learning, submitted
Krug, M., Loessner, B., and Ott, T., 1984, Anisomycin blocks the late phase of long-term potentiation in the dentate gyrus of reely moving rats, Brain Res.Bull. 13: 39
Loessner, B., Schweigert, C., Pchalek, V., Krug, M., Frey, S., and Matthies, H., 1987, Training and LIP-induced changes of protein synthesis in rat hippocampus. Neurosci. 22: S 512
Malenka, R.C., Madison, D.V., and Nicoll, R.A. 1986, Potentiation of synaptic transmission in the hippocampus by phorbol esters, Nature 321: 175
Matthies, H., 1972, Pharmacological influence on teaching and memorization processes Farmakol. i.Toxikol. 35: 259
Matthies, H., 1989a, Neurobiological aspects of learning and memory, Annu.Rev.Psychol. 40: 381
Matthies, H., 1989b, In search of cellular mechanisms of memory. Progr.Neurobiol. 32: 277
Nicoletti, F., Wroblewski, J.T., Fadda, E., and Costa, E., 1988, Pertussis toxin inhibits signal transduction at a specific metabolotropic glutamate receptor in primary cultures of cerebellar granule cells, Neuropharmacol. 27: 551
Otani, S., Marshall, C.J., Tate, W.P., Goddard, G.V., and Abraham, W.C., 1989, Maintenance of long-term potentiation in rat dentate gyrus requires protein synthesis but not messenger RNA synthesis immediately posttetanication Neurosci. 28: 519
Pohle, W., Acosta, L., Ruethrich, H., Krug, M., and Matthies, H., 1987, Incorporation of 3H-fucose in rat hippocampal structures after conditioning by perforant path stimulation and after LIP-producing tetanization, Brain Res. 410: 245
Popov, N., Schulzeck, S., Schmidt, S., and Matthies, H., 1975, Changes in labeling of soluble and soiubilized rat brain proteins using 3H-leucine as precursor during a learning experiment, Acta biol.med.Germ. 34: 583
Popov, N.S., Reymann, K.G., Schulzech, K., Schulzeck, S., and Matthies, H., 1988, Alterations in calmodulin content in fractions of rat hippocampal slices during tetanic and calcium-induced long-term potentiation, Brain Res. Bull. 21: 201
Recasens, M., Guiramand, J., Nourigat, A., Sassetti, I., and Devilliers, G., 1989, A new quisqualate receptor subtype (sAA2) responsible for the glutamate-induced inositoi phosphate formation in rat brain synaptoneurosomes, Neurochem.Int. 13: 463
Reymann, K.G., Broedemann, R., Kase, H., and Matthies, H., 1988a, Inhibitors of calmodulin and protein kinase C block different phases of hippocampal long-term potentiation, Brain Res. 461: 388
Reymann, K.G., Frey, U., Jork, R., and Matthies, H., 1988b, Polymyxin B, an inhibitor of protein kinase C, prevents the maintenance of synaptic long-term potentiation in hippocampal CA1 neurons, Brain Res. 440: 305
Reymann, K.G., and Matthies, H., 1989a, 2-Amino-4-phosphonobutyrate selectively eliminates late phases of long-term potentiation in rat hippocampus, Neurosci.Lett., 98: 166
Reymann, K.G., Davies, S.N., Matthies, H., Kase, H., and Collingridge, G.L., 1989b, Activation of a K 252 b -sensitive protein kinase is necessary for a postsynaptic phase of long-term potentiation in area CA 1 of rat hippocampus, Eur. J. NeuroscÃ., submitted
Robertson, G.S., Herrera, D.G., Dragunow, M., and Robertson, H.A., 1989, L-DORA activates c-fos in the striatum ipsilateral to a 6-hydroxydopamine lesion of the substantia nigra, Eur.J.Pharmacol. 159: 99
Routtenberg, A., 1987, Phosphoìipid and fatty acid regulation of signal transduction at synapses. potential role for protein kinase C in information storage, J.Neural Transm, 24 (Suppl.): 234
Schoepp, D.D., and Johnson, B.G., 1988, Excitatory amino acid agonist-antagonist interactions at 2-amino-4-phosphonobutyric acid-sensitive quisqualate receptors coupled to phospho-inositide hydrolysis, J.Neurochem., 50: 1605
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Matthies, H., Frey, U., Reymann, K., Krug, M., Jork, R., Schroeder, H. (1990). Different Mechanisms and Multiple Stages of LTP. In: Ben-Ari, Y. (eds) Excitatory Amino Acids and Neuronal Plasticity. Advances in Experimental Medicine and Biology, vol 268. Springer, Boston, MA. https://doi.org/10.1007/978-1-4684-5769-8_39
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DOI: https://doi.org/10.1007/978-1-4684-5769-8_39
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