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Vol. 287, Issue 1, 87-97, October 1998
The Institute for Neuroscience and the Division of Pharmacology and
Toxicology, College of Pharmacy, University of Texas, Austin, Texas
Synaptic mechanisms underlying hyperexcitability due to withdrawal from
chronic ethanol exposure were investigated in a hippocampal explant
model system using electrophysiological techniques. Whole-cell voltage
clamp recordings from CA1 pyramidal cells demonstrated that acute
ethanol exposure inhibited N-methyl-D-aspartate receptor (NMDAR)-mediated excitatory postsynaptic currents by over 40%. Chronic
ethanol exposure for 6 to 11 days at 35 or 75 mM induced no differences
from control explants in the fast component of the population synaptic
response (non-NMDAR-mediated). Prolonged field potential recordings (to
10 hr) were used to monitor the withdrawal process in
vitro. Ethanol-exposed explants from both 35 and 75 mM groups
displayed an increase (60% and 89%, respectively) in the
NMDAR-mediated component of synaptic transmission on withdrawal from
chronic exposure. Prolonged tonic-clonic electrographic seizure activity was consistently observed after ethanol withdrawal only after
the increase in NMDAR function. This hyperexcitability was inhibited by
the NMDAR antagonist D-2-amino-5-phosphonovaleric acid and
returned once the NMDAR component was reestablished after antagonist
washout. In situ hybridization studies suggest that expression of NR2B subunit mRNA may be enhanced in explants after chronic ethanol exposure. No lasting differences were observed in the
NMDAR component after acute in vitro ethanol exposure
and withdrawal. These data suggest that the occurance of ethanol
withdrawal hyperexcitability in this system may be directly dependent
on alterations in NMDAR function after chronic exposure. Since this region and others that contain ethanol sensitive NMDARs may serve as
epileptic foci, long term alterations in NMDAR function may be expected
to generate paroxysmal depolarizing shifts underlying ictal events
after withdrawal from ethanol exposure.
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