Chronic intermittent ethanol exposure alters CA1 synaptic transmission in rat hippocampal slices

We investigated the neuroadaptive changes in synaptic transmission in the CA1 region of the hippocampus as a result of chronic intermittent ethanol exposure. Male Wistar rats were exposed daily (14 h) to ethanol vapors (blood alcohol levels=150–200 mg%) for 12–14 days, and synaptic field potentials elicited by Schaffer collateral stimulation were compared in hippocampal slices from control and chronic ethanol-treated rats. Excitatory postsynaptic responses of slices were recorded under three conditions: (i) normal physiological saline; (ii) continued presence of 33 mM (150 mg%) ethanol (chronic ethanol-treated rats only); (iii) acute exposure to 33 mM ethanol. When recorded in ethanol-free physiological saline, the mean amplitude of the dendritic synaptic potential and the somatic population spike were significantly smaller in slices from chronic ethanol-treated rats compared to slices from control rats. Under conditions of continuous ethanol exposure, somatic and dendritic synaptic responses of slices taken from chronic ethanol-treated rats were further depressed, suggesting that neural pathways in area CA1 remained sensitive to ethanol. Acute application of ethanol led to a more pronounced reduction of the mean somatic population spike amplitude in slices from chronic ethanol-treated rats than in slices from control rats. However, dendritic synaptic responses were unaffected by acute ethanol in slices from both control and chronic ethanol-treated rats. In addition, we examined the involvement of presynaptic mechanisms in the effects of chronic intermittent ethanol using paired-pulse protocols. When recorded in the continued presence of ethanol, slices from chronic ethanol-treated rats exhibited a significant reduction in paired-pulse facilitation of the dendritic synaptic response compared to slices from control rats, indicating a presynaptic component to the neuroadaptive effects of chronic intermittent ethanol exposure. Conversely, acute ethanol exposure resulted in an enhancement of paired-pulse facilitation of the dendritic synaptic response, an effect that was similar in slices from both control and chronic ethanol-treated rats. Paired-pulse facilitation of the somatic population spike amplitude was not altered by chronic ethanol treatment. However, acute ethanol exposure significantly enhanced paired-pulse facilitation of the somatic population spike in slices from chronic ethanol-treated rats. This effect of acute ethanol was not observed in slice