Vasodilation induced by endothelin: role of EDRF and prostanoids in rat hindquarters

Hemodynamic responses to endothelin (ET-1) were studied in hindquarters of anesthetized rats and also in isolated buffer-perfused hindquarters of pithed rats. ET-1 (10-100 pmol ia) produced brief dose-related increases in hindquarter blood flow. Acetylcholine (ACh. 0.3-1 micrograms ia) produced similar vasodilator responses. Hemodynamic responses elicited by either ET-1 or ACh were not significantly altered by pretreatment with indomethacin. ET-1 produced dose-dependent increases in skeletal muscle microvascular perfusion, whereas ET-1 had no effect on cutaneous microvascular perfusion, suggesting that vasodilation in the skeletal muscle of the hindlimb contributes to the increase in hindquarter blood flow induced by ET-1. Hemodynamic effects of ET-1 and ACh were studied in the isolated in situ buffer-perfused hindquarters of pithed rats. ET-1 (0.01-300 pmol ia) produced only dose-dependent increases in hindquarter perfusion pressure under basal conditions or when the vascular preparation was precontracted with methoxamine. ET-1 induced vasorelaxation was not observed. ACh (3 microgram ia) produced a 64% reduction in hindquarter perfusion pressure; indicative of endothelium-dependent relaxation. ET-3 (0.1-300 pmol) produced only dose-dependent increases in hindquarter perfusion pressure. When hemodynamic effects of ET-1 were studied under conditions of constant pressure, results were similar to those obtained under constant flow. This study demonstrates that in the rat hindquarters endothelium-derived relaxing factors and prostanoids do not appear to be mediators of endothelin-induced vasodilation.(ABSTRACT TRUNCATED AT 250 WORDS)