The endothelin (ET) receptor mediating relaxation of cerebral arteries was characterized using ring segments obtained from the rat basilar artery. Under resting tension, ET-3 (> 10(-8) M) but not the specific ETB receptor agonist IRL 1620 induced contraction. In ring segments precontracted with 3 x 10(-6) M prostaglandin (PG) F2 alpha, ET-3 (10(-12) - 10(-8) M) and IRL 1620 (10(-14) - 10(-6) M) induced concentration-related relaxation. IRL 1620 was more potent than ET-3, the pD2 (-log10EC50) values being 10.002 +/- 0.751 (mean +/- SD) for IRL 1620 and 8.836 +/- 0.415 for ET-3. Relaxation was abolished after preincubation with the nitric oxide (NO) synthase inhibitor NG-nitro-L-arginine (10(-5) M) as well as in segments devoid of a functionally intact endothelium. At a concentration above 10(-8) M, ET-3 resulted in a further increase of PGF2 alpha-induced contraction that was not observed with IRL 1620. The presumably specific ETB receptor antagonist IRL 1038 (10(-7) - 3 x 10(-6) M) diminished or even abolished (3 x 10(-6) M) the relaxation induced by ET-3 or IRL 1620. IRL 1038 did not exert any vasomotor effect by itself, and it did not significantly affect ET-3-induced contraction. These results indicate that in the rat isolated basilar artery, the ET-3-induced relaxation is probably due to activation of an ETB-type receptor located on the endothelial cells and mediated by release of nitric oxide.