Recent work in our laboratory demonstrated that Ro15-4513, a partial inverse benzodiazepine (BDZ) agonist, decreases ethanol (ETOH) self-administration in rodents under fluid deprivation conditions. The present study further examined the effects of Ro15-4513 (2.5 and 5.0 mg/kg) alone and in combination with Ro15-1788, (flumazenil) (8.0 and 16.0 mg/kg), a BDZ receptor antagonist on ETOH self-administration in freely feeding and drinking rats. Animals were trained to consume ETOH (11% v/v) using a limited access procedure. Measurements were taken at 10- and 60-min intervals. Ro15-4513 (2.5 and 5.0 mg/kg) markedly attenuated ETOH consumption at both intervals. The antagonistic actions of Ro15-4513 were completely blocked by the higher dose of flumazenil at both intervals; the lower dose failed to antagonize the Ro15-4513-induced reduction of ETOH intake. When flumazenil was given alone, both doses reduced ETOH self-administration at 60 min; although the magnitude of the antagonism was comparable to that of Ro15-4513 only with the highest does of flumazenil (16.0 mg/kg). Neither Ro15-4513 nor flumazenil alone or in combination significantly altered water intake at any of the tested doses. Rats pretreated with Ro15-4513 showed a substantial reduction in blood ethanol concentration (BEC) compared with the Tween-80 vehicle condition at the 10-min interval. However, the BEC of animals given Ro15-4513 in combination with flumazenil were similar to rats given Tween-80 vehicle. The present study extends our previous research by demonstrating that Ro15-4513 and flumazenil attenuate ETOH self-administration in non-food or water deprived rats.(ABSTRACT TRUNCATED AT 250 WORDS)