Differential effects of various phosphodiesterase inhibitors, pyrimidine and purine compounds, and inorganic phosphates on cyclic CMP, cyclic AMP and cyclic GMP phosphodiesterases.

The effects of various compounds on homogeneous cyclic CMP phosphodiesterase (cyclic CMP-PDE) from pig liver were compared with the effects on cyclic AMP phosphodiesterase (cyclic AMP-PDE) and cyclic GMP phosphodiesterase (cyclic GMP-PDE). Of the conventional inhibitors for AMP-PDE and cyclic GMP-PDE, only Sch 15280 was found to inhibit cyclic CMP-PDE. Nucleoside monophosphates, orthophosphate, and 2':3'-cyclic nucleotides were rather specific and were more effective in inhibiting cyclic CMP-PDE, compared to their effects on cyclic AMP-PDE and cyclic GMP-PDE. On the other hand, nucleoside di-and triphosphates and pyrophosphate (PPi) were less effective in inhibiting cyclic CMP-PDE and were without marked effect on cyclic AMP-PDE and cyclic GMP-PDE. Orthophosphate (Pi) was more potent than CMP, CDP and CTP in inhibiting cyclic CMP-PDE, with a rank order of inhibitory potency of Pi greater than CMP greater than CDP greater than CTP. Of the 3' :5'-cyclic nucleotides examined, cyclic UMP was more specific in inhibiting cyclic CMP-PDE compared to its effect on cyclic AMP-PDE and cyclic GMP-PDE. In all experiments similar results were obtained when either cyclic CMP or cyclic AMP was used as a substrate for this multifunctional cyclic CMP-PDE, supporting the contention that a single catalytic site on the enzyme is responsible for the hydrolysis of both cyclic CMP and cyclic AMP. The present studies further support our original suggestion that cyclic CMP-PDE is a unique enzyme that is distinguishable from the conventional enzymes for purine cyclic nucleotides.