Energy levels at systole vs. diastole in normal hamster hearts vs. myopathic hamster hearts.

The following studies were carried out to examine energy metabolites and cardiac performance of the failing heart (hereditary cardiomyopathy) of the Syrian hamster (strain UM-X7.1) perfused either by normal or stress conditions, and to determine whether cyclical changes in energy-related metabolites occurred in the glucose-perfused hearts of both normal and heart failure animals. Hamster hearts from 250-day-old animals with moderate heart failure were removed and perfused either as nonworking hearts (Langendorff method, an afterload pressure of 90 mm Hg and 2.5 mM calcium in the perfusate) or as working hearts with stress conditions [an afterload of 110 mm Hg, high calcium concentrations in the perfusate (3.5 mM), and 10(-8) M isoproterenol]. Mechanical parameters (developed pressure and max dP/dt) and measurements of oxygen consumption indicated that both contractility and oxygen consumption had fallen 50% in myopathic hearts, compared with those of normal hamsters perfused with either of the two conditions. By means of a specially designed stimulator-triggered freeze clamp, hearts were terminated at systole and diastole, and tissue content of ATP, ADP, AMP, adenosine, phosphocreatine, creatine, pyruvate, lactate, and inorganic phosphate were analyzed. A 50% reduction in cardiac performance of the cardiomyopathic hamster hearts was associated with a corresponding reduction in systolic ATP, adenosine, and phosphocreatine values, while inorganic phosphate and lactate increased. With glucose as the sole substrate, the high energy phosphates, ATP and phosphocreatine, reached maximum values during diastole and minimum values during systole.(ABSTRACT TRUNCATED AT 250 WORDS)