GABAergic mechanisms in the electrophysiological actions of ethanol on cerebellar neurons

We have found that the partial inverse benzodiazepine agonists Ro 15-4513 and FG 7142 antagonize the depressant electrophysiologial effects of locally applied ethanol in the cerebellum. Although absolute tissue concentrations are not known, dose-response curves constructed using pressure-ejection doses as previously described (31, 25) we found that FG 7142 was more efficacious, but less potent than Ro 15-4513. Our observation that ethanol and inverse benzodiazepine agonists have interactions which are not competitive might suggest that these two drugs act through separate, but interactive mechanisms in order to produce the observed ethanol antagonism. If such independent interactions were mediated at different sites on a given macromolecular complex, such as the GABA_a/Cl^– channel, then one might expect to find allosteric interactions between those sites as well as with the functional response of the complex to GABA activation. Indeed, this hypothesis is consistent with the recent finding of Harris and collaborators that ethanol potentiates the inverse agonist actions of Ro 15-4513 and FG 7142. On the other hand, we were unable to find large ethanol-induced potentiations of GABA effects on all neurons which showed depressant responses to ethanol administration in rat cerebellum. However we did find that the GABA_a antagonist, bicuculline, blocks the depressant effects of ethanol on the same neurons. We conclude that the interaction between ethanol and GABA probably does not occur directly at the GABA_a receptor site, but that the GABA_a mechanism does play a permissive role in the ethanol-induced depressions of cerebellar Purkinje neurons. Thus, although a postsynaptic GABA_a mechanism may not be the primary locus of action at which ethanol causes depressant electrophysiological responses of neurons, activation of the GABA_a receptor may be required to make cerebellar Purkinje neurons responsive to the depressant actions of ethanol. Further investigations will be required to determine the pre vs postsynaptic nature of this interaction of ethanol with the GABA mechanism of action.Special issue dedicated to Dr. Erminio Costa