Uncoupler- and hypoxia-induced damage in the working rat heart and its treatment. II. Hypoxic reduction of aortic flow and its reversal.

In the working rat heart we investigated heart function (aortic and coronary flow) during a normoxic, a hypoxic, and a reoxygenation phase after hypoxia. A depressed heart function was obtained by limiting oxygen supply and reducing left ventricular filling pressure (preload). After hypoxic perfusion for about 90 min, reoxygenation resulted in a 50% decrease of aortic flow. Lactate production and release increased immediately after oxygen deprivation and reached a maximum after about 35 min of hypoxia. Following reoxygenation, lactate release decreased. Lactate dehydrogenase became significant after reoxygenation. After stabilization of aortic flow at 50% in the reoxygenation phase different reagents were examined for their influence on heart performance. 1.5 mM of 2-Mercaptopropionylglycine (MPG) significantly increased aortic flow by 40%. The oxidized form of MPG (ox-MPG) at a concentration of 0.6 mM increased aortic flow by 125%. A molecular mechanism is proposed involving reorientation of the ATPase molecules at their membrane sites.