Sustained ethanol inhibition of native AMPA receptors on medial septum/diagonal band (MS/DB) neurons.

Abstract

The direct impact of ethanol on native, non-NMDA glutamate receptors was examined in acutely isolated MS/DB neurons from rat. The impact of ethanol functional tolerance and physical dependence on non-NMDA receptor function was also determined. Non-NMDA receptors were defined pharmacologically as predominantly the AMPA subtype, because both AMPA- or kainate-activated currents were blocked by GYKI 52466, a selective AMPA receptor antagonist. The relative magnitude of potentiation of AMPA-activated currents by 10 or 100 microM cyclothiazide was consistent with recombinant AMPA flop-subtype receptors. Finally, the selective kainate receptor agonist, SYM 8021, induced little current in MS/DB neurons. AMPA receptor currents when activated by kainate were sensitive to ethanol, showing inhibition of approximately 5 - 50% when 10 - 300 mM ethanol and kainate were briefly co-applied (3 s). Ethanol (100 mM) also inhibited both the initial transient peak and sustained currents activated by AMPA. Inhibition was sustained during continuous ethanol superfusions of 5 min, suggesting a lack of acute tolerance to ethanol-induced AMPA receptor blockade. Rapid application of 3 - 3000 microM kainate activated concentration-dependent currents in MS/DB neurons from Control and Ethanol Dependent animals that were not significantly different. Also, direct ethanol inhibition (300 mM) of kainate-activated currents was not reduced by ethanol dependence, suggesting a lack of functional tolerance. These results suggest that native AMPA receptors on MS/DB neurons are inhibited by pharmacologically-relevant concentrations of ethanol. However, these receptors, unlike NMDA receptors, do not undergo adaptation with sustained ethanol exposure sufficient to induce physical dependence. British Journal of Pharmacology (2000) 129, 87 - 94