Endothelin blockade augments pulmonary vasodilation in the ovine fetus.

The physiological role of endothelin-1 (ET-1) in regulation of vascular tone in the perinatal lung is controversial. Recent studies suggest that ET-1 contributes to high basal pulmonary vascular resistance in the normal fetus, but its role in the modulation of pulmonary vascular tone remains uncertain. We hypothesized that high ET-1 activity opposes the vasodilator response to some physiological stimuli such as increased pressure. To test the hypothesis that ET-1 modulates fetal pulmonary vascular responses to acute and prolonged physiological stimuli, we performed a series of experiments in the late-gestation ovine fetus. We studied the hemodynamic effects of two ET-1 antagonists, BQ-123 (a selective ETA-receptor antagonist) and phosphoramidon (a nonselective ET-1-converting enzyme inhibitor) during mechanical increases in pressure due to partial ductus arteriosus compression in chronically prepared late-gestation fetal lambs. In control studies, partial ductus arteriosus compression decreased the ratio of pulmonary arterial pressure to pulmonary artery flow in the left lung 34 +/- 6% from baseline. Intrapulmonary infusions of BQ-123 (0.5 microgram/min for 10 min; 0.025 microgram/min for 2 h) or phosphoramidon (1.0 mg/min for 10 min) augmented the peak vasodilator response during ductus arteriosus compression (52 +/- 3 and 49 +/- 6% from baseline, respectively, P < 0.05 vs. control). In addition, unlike the transient vasodilator response to ductus arteriosus compression in control studies, ET-1 blockade with BQ-123 or phosphoramidon prolonged the increase in flow caused by ductus arteriosus compression. In summary, ETA-receptor blockade and ET-1-converting enzyme inhibition augment and prolong fetal pulmonary vasodilation during partial compression of the ductus arteriosus. We conclude that ET-1 activity modulates acute and prolonged responses of the fetal pulmonary circulation to changes in vascular pressure. We speculate that ET-1 contributes to regulation and maintenance of high pulmonary vascular resistance in the normal ovine fetal lung.