A comparison of AMP degradation in the perfused rat heart during 2-deoxy-D-glucose perfusion and anoxia .1. The release of adenosine and inosine

AMP degradation is studied in two models of the Langendorff-perfused rat heart which generate a large release of purines: the 2-deoxy-D-glucose (2DG)-perfused heart and the anoxic heart. In the 2DG model, mitochondrial energy generation is quasi-normal, despite a very low ATP concentration. Furthermore, inorganic phosphate (P-i) concentration is low, an important difference with anoxia where P-i is very high, up to 82 mM. Coronary release of purines is measured by high performance liquid chromatography, and myocardial metabolite content by P-31 nuclear magnetic resonance spectroscopy. In the 2DG-perfused hearts with glucose or acetate, the purine release consists nearly exclusively of inosine [up to 130 nmol/(min x gww)] while adenosine is less than 1 nmol/(min x gww). A possible interpretation is that AMP degradation proceeds mainly through deamination to inosine monophosphate by AMP deaminase (the IMP pathway). In contrast, the purine release in anoxia (100% N-2) contains comparable quantities of adenosine and inosine [respectively 30 and 20 nmol/(min x gww)], indicating that part of AMP is dephosphorylated directly to adenosine. Comparison with the 2DG model suggests that the release of adenosine in the anoxic heart is a result of inhibition of AMP deaminase by P-i. (C) 1996 Academic Press Limited