Abstract
In primary cultures of cerebellar granule cells, activation of the N-methyl-D-aspartate (NMDA) receptor leads to Ca2+ influx. Previous work showed that this response is selectively inhibited by acute exposure to low concentrations of ethanol. The present results demonstrate that the response to NMDA (measured as an increase in intracellular Ca2+ concentration, using fura-2 fluorescence) is significantly enhanced after chronic in vitro exposure of the cells to ethanol (100 mM for 2-4 days; 20 mM for 3 or more days). This enhancement is consistent with an increased number of NMDA receptors, with no change in receptor properties. Specifically, there was no change in the EC50 values for NMDA and glycine or in the magnitude of inhibition of the NMDA response by competitive or uncompetitive antagonists. There was also no change in the ability of acute ethanol to inhibit the NMDA response after chronic exposure of the cells to ethanol. Furthermore, chronic ethanol exposure did not alter depolarization-dependent increases in intracellular Ca2+ observed after exposure of the cells to 30 mM KCl. The data suggest that chronic ethanol exposure produces a selective up-regulation of NMDA receptor function. In the intact animal, such a change may be associated with particular symptoms of ethanol withdrawal, i.e., withdrawal seizures.
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