Glycolysis in heart failure: a31P-NMR and surface fluorometry study

Abstract

Glycolysis is slow in the heart, especially in the cardiomyopathic heart. Glycolysis is partially rate-limited by phosphofructokinase (PFK), an enzymc which is inhibited by calcium (Ca²⁺)_i and hydrogen ions (H⁺)_i and activated by cAMP. (H⁺)_i and (Ca²⁺)_i are augmented in cardiomyopathy. With glucose as the only substrate (NADH)/(NAD) the phosphorylation potential and developed pressure were significantly lower, and concentrations of phosphomonoester sugars and hydrogen ions (H⁺)_i were significantly higher in isolated cardiomyopathic hearts as compared to healthy hamster hearts. Pyruvate lowered diastolic (Ca²⁺)_i in cardiomyopathic hamster hearts. With pyruvate as the substrate (NADH)/(NAD), the phosphorylation potential and developed pressure incrcased significantly and concentrations of phosphomonoester sugars (PME), (H⁺)_i and diastolic (Ca²⁺)_i decreased significantly in myopathic hamster hearts. The results suggest that late heart failure in the myopathic hamster is associated with calcium and/or hydrogen ion-induced inhibition of glycolysis.