Abstract: | The effect of intravenous administration of the endothelium-derived vasoconstrictor peptide endothelin-1 (ET-1 0.2, 1 and 8 pmol kg?1 min?1) on coronary blood flow in relation to plasma ET-1 as well as blood lactate and glucose levels were investigated in six healthy volunteers. Coronary sinus blood flow was measured by thermodilution. Administration of ET-1 elevated arterial plasma ET 35-fold, dose-dependently increased mean arterial blood pressure from 95±5 mmHg to 110±6 mmHg (P<0.01) and reduced heart rate from 64±4 beats min?1 to 58±4 beats min?1 (P<0.05) at 8 pmol kg?1 min?1. Coronary sinus blood flow was reduced maximally by 23±4% (P<0.01) and coronary vascular resistance increased by 48±11% (P<0.01). Coronary sinus oxygen saturation decreased from 35±1% to 22±2% at 2 min after the infusion (P<0.01). A coronary constrictor response was observed at a 4-fold elevation in plasma ET. The reduction in coronary sinus blood flow lasted 20 min and coronary sinus oxygen saturation was still reduced 60 min after the infusion. Myocardial oxygen uptake or arterial oxygen saturation were not affected by ET-1. Myocardial lactate net uptake decreased by 40% whereas glucose uptake was unaffected. At the highest infusion rate there was a net removal of plasma ET by 24±3% over the myocardium (P<0.05). The results show that ET-1 induces long-lasting reduction in coronary sinus blood flow via a direct coronary vasoconstrictor effect in healthy humans observable at a 4-fold elevation in plasma ET-1. Furthermore, there is a net removal of circulating ET-1 by the myocardium. |