Selective changes in GABAergic transmission in substantia nigra and superior colliculus caused by ethanol and ethanol withdrawal

Abstract

One of ethanol's actions after acute exposure is anticonvulsant activity whereas withdrawal from chronic ethanol exposure increases convulsant activity. An increase in neuronal transmission in the GABAergic pathways from striatum to the substantia nigra (SN) and a decrease in GABAergic transmission from SN to superior colliculus (SC) both appear to play a major role in inhibiting seizure propagation. If this is the case, then the changes in seizure sensitivity caused by ethanol may be expected to affect GABAergic transmission in opposite ways in SN and SC. We measured the effects of in vitro ethanol on pre- and postsynaptic indices of GABA transmission using SN and SC tissue from both ethanol-naive rats and rats given ethanol in their drinking water for 24 days and then withdrawn for 24 hr, a treatment that decreases seizure latency. While ethanol inhibited 3H-GABA release from slices of SC at low concentrations (20-100 nM), much higher concentrations were required to inhibit release from SN (100-500 mM). In fact, release from SN was increased by low concentrations of ethanol. Ethanol in vitro (20-1000 mM) also inhibited specific binding of 35S-TBPS to the GABAA receptor but this effect was similar in both potency and efficacy in SC and SN. Next, the in vitro effects of ethanol were measured in rats that had consumed an average of 9.8 g ethanol/kg body weight/day and were then withdrawn for 24 hr. Ethanol inhibition of 3H-GABA release from SC was significantly less in ethanol-treated rats compared to controls whereas the inhibitory effect of ethanol was increased in SN from ethanol-treated rats.(ABSTRACT TRUNCATED AT 250 WORDS)