Abstract
The effects of four doses of ethanol (100, 200, 400, 800 mg/kg) administered IV, on the spontaneous firing rate of single units in the dorsal hippocampal region of the rat were studied. At the lower doses, a mixture of excitatory and inhibitory effects occurring in that order was seen, reflecting a biphasic action of ethanol at the level of the single neuron. As the dose increased, the excitation disappeared and successively greater degrees of response inhibition prevailed. The pattern of the fronto-cortical EEG changed from predominantly low amplitude fast activity with a few episodes of high amplitude slow activity at low doses, to more sustained episodes of slow activity at high doses. The time-response curve showed that the peak of maximum inhibition seen at the highest dose occurred with a longer latency than the peak of maximum excitation seen at the lower doses. Finally, the changes in unit firing appeared to follow four general patterns and to be correlated with the mode of fronto-cortical EEG activity.
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References
Andersen P, Eceles JC, Løyning Y (1964a) Localization of postsynaptic inhibitory synapses on hippocampal pyramids. J Neurophysiol 27:592–697
Andersen P, Eccles JC, Løyning Y (1964b) Pathway of postsynaptic inhibition in the hippocampus. J Neurophysiol 27:608–619
Collins JG, Rappolo JR (1977) Effect of pentobarbital and ethanol on single neuron activity in somatosensory cortex of awake rhesus monkeys. Fed Proc 36:411
Finch DM, Babb TL (1977) Response decrement in a hippocampal basket cell. Brain Res 130:354–359
Folger WR, Klemm WR (1978) Unit responsivity in various hippocampal layers and the depressive effects of ethanol. Physiol Behav 21:169–176
Grupp LA, Perlanski E (1979) Ethanol-induced changes in the spontaneous activity of single units in the hippocampus of the awake rat — A dose-response study. Neuropharmacology 18:63–70
Jouvet M (1967) Neurophysiology of the states of sleep. Physiol Rev 47:117–177
Kalant H (1975) Direct effects of ethanol on the nervous system. Fed Proc 34:1930–1941
Klemm WR (1974) Dissociation of EEG and behavioural effects of ethanol provide evidence for a noncholinergic basis of intoxication. Nature 251:234–236
Klemm WR, Dreyfus LR, Forney E, Mayfield MA (1976a) Differential effects of low doses of ethanol on the impulse activity in various regions of the limbic system. Psychopharmacology 50:131–138
Klemm WR, Mallari CG, Dreyfus LR, Fiske JC, Forney E, Mikeska JA (1976b) Ethanol-induced regional and dose-response differences in multiple-unit activity in rabbits. Psychopharmacology 49:235–244
LeBlanc AE (1968) Microdetermination of alcohol in blood by gasliquid chromatography. Can J Physiol Pharmacol 46:665–667
Meissner WW (1966) Hippocampal functions in learning. J Psychiat Res 4:235–304
Murphree HB (1973) Electroencephalographic and other evidence for mixed depressant and stimulant actions of alcoholic beverages. Ann NY Acad Sci 215:325–331
Pohorecky LA (1977) Biphasic action of ethanol. Biobehav Rev 1:231–240
Ranck JB, Jr (1973) Studies on single neurons in dorsal hippocampal formation and septum in unrestrained rats. Part I. Behavioral correlates and firing repertoires. Exp Neurol 41:461–531
Seeman P (1972) The membrane actions of anaesthetics and tranquilizers. Pharmacol Rev 24:583–655
Segal M (1975) Physiological and pharmacological evidence for a serotonergic projection to the hippocampus. Brain Res 94:115–131
Segal M, Bloom FE (1974) The action of norepinephrine in the rat hippocampus. II. Activation of the input pathway. Brain Res 72:99–114
Storm-Mathisen J (1977) Localization of transmitter candidates in the brain — The hippocampal formation as a model. Progress in Neurobiology 8:119–181
Sunahara GI, Kalant H, Schofield M, Grupp LA (1978) Regional distribution of ethanol in the rat brain. Can J Physiol Pharmacol 56:988–992
Wayner MJ, Ono T, Olley D (1975) Effects of ethyl alcohol on central neurons. Pharmacol Biochem Behav 3:499–506
Winson J, Abzug C (1977) Gating of neuronal transmission in the hippocampus — Efficacy of transmission varies with behavioral state. Science 146:1223–1225
Zieglgänsberger W, French E, Siggins GR, Bloom FE (1978) Opiates and opioid peptides may cause excitation of hippocampal pyramidal neurons (HPN) by disinhibition. Pflügers Arch 377 (issue S):R-34
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Grupp, L.A. Biphasic action of ethanol on single units of the dorsal hippocampus and the relationship to the cortical EEG. Psychopharmacology 70, 95–103 (1980). https://doi.org/10.1007/BF00432377
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DOI: https://doi.org/10.1007/BF00432377