Coformycin inhibition of platelet AMP deaminase has no effect on thrombin-induced platelet secretion nor on glycolysis or glycogenolysis.

Thrombin-stimulated platelet secretion is accompanied by a 30% reduction in the steady state level of cytosolic ATP, a breakdown that proceeds through ADP, AMP, IMP, and inosine to hypoxanthine. The ATP to hypoxanthine conversion could be blocked at the stage of AMP deamination by incubation of platelet-rich plasma for 6 h with 200 microM coformycin, a transition-state analog inhibitor of AMP deaminase. Abolition of AMP deaminase activity had no effect on thrombin-induced secretion from the dense granules, alpha-granules, or acid hydrolases measured in gel-filtered platelets. Coformycin treatment had no effect on thrombin-stimulated lactate production, even when oxidative phosphorylation was blocked by antimycin A, nor on the rate of thrombin-stimulated glycogenolysis. In addition, although it was clear that the adenylate energy charge was maintained by activation of AMP deaminase following thrombin treatment, the adenylate energy charge was also maintained in coformycin-treated platelets, albeit after a short lag, by stimulated ATP production and equilibration through the adenylate kinase reaction. Hydrogen peroxide brings about similar adenylate degradation which could also be inhibited by coformycin. The results indicate that AMP deamination and secretion, although temporally related, are not coupled. The role of AMP deaminase appears to be to maintain the adenylate energy charge in the absence of stimulation of ATP production or to buffer the adenylate charge before ATP production is stimulated.