Abstract EN:

We investigated the role of the endothelium and of several substances in the coronary vasocontruction induced by a high arterial blood oxygen tension (PaO2)in isolated rabbit hearts perfused with suspension of red blood cells. This suspension prepared by mixing red blood cells and Krebs-henseleit buffer, was oxygenated to obtain control and high PaO2 perfusates. Arterial oxygen contstant in both perfusates by reducing hemoglobin concentration in the high PaO2 perfusate. Coronary blood flow was kept constant so that O2 supply would not vary with the rise in PaO2. Increases in perfusion pressure therefore reflected increased coronary resistance. The high PaO2-induced coronary vasconstriction was not affected by inhibiting cyclooxygenase or lipooxygenase or nitric oxide pathways or free radicals production but was abolished after endothelium damage or by cromakalim. These results demonstrate that 1)the endothelium contributes to teh high PaO2-induced coronary vasocontriction 2)this effect is independent of cyclooxygenase or lipooxygenase products, nitric oxide or free radicals 3)the closure of K(ATP) channels mediates this vasoconstriction. The interaction between high PaO2 and stimulation by the alpha agonist phenylephrine or by serotonin was investigated in the same experimental preparation. After pretreatment with the alpha agonist phenylephrine or by serotonin, perfusion of a high PaO2 solution increased coronary resistance to a value significantly higher than that found without phenylephrine or serotonin.