This study showed the effects of baclofen on endogenous excitatory (Glu and Asp) and non-excitatory (Tau, Gly and Ala) amino acid release. (A) Release was stimulated by K+ 30 mM in rat frontal cortex slices in vitro (evoked release in ng/g tissue per 5 min): 3739 +/- 215 (Asp), 3429 +/- 357 (Glu), 763 +/- 181 (Tau), 945 +/- 71 (Ala), 468 +/- 44 (Gly). (B) Release was largely Ca(2+)-dependent for all amino acids but Ca(2+)-independent release was observed for Asp and Glu (29 and 32%, of total evoked release respectively). (C) Ca(2+)-dependent release was inhibited by baclofen 100 microM (% of inhibition taking as 100%, the Ca(2+)-dependent release in the absence of baclofen): 46 (Asp), 96 (Glu) (85% inhibition by baclofen 10 microM), 100 (Tau), 77 (Ala). Ca(2+)-independent release was inhibited: 87 and 88% (Asp), 85 and 95% (Glu) by baclofen 10 and 100 microM respectively. It is concluded that baclofen at a high concentration inhibits the evoked release of Glu, Asp, Tau and Ala due to inhibition of the Ca(2+)-dependent fraction and also of the Ca(2+)-independent component in the case of Glu and Asp. Baclofen at a low concentration inhibits only Glu- and Asp-evoked release (total release) due to inhibition of both Ca(2+)-dependent and -independent fractions in the case of Glu and to inhibition of the Ca(2+)-independent fraction in the case of Asp. The possibility that baclofen might affect the Ca(2+)-independent carrier-mediated release of Glu-Asp is discussed.