Abstract
A Ca 2+-dependent cyclic nucleotide phosphodiesterase has been partially purified from extracts of porcine brain by column chromatography on Sepharose 6 B containing covalently linked protamine residues, ammonium sulfate salt fractionation, and ECTEOLA-cellulose column chromatography. The resultant preparation contained a single form of cyclic nucleotide phosphodiesterase activity by the criteria of isoelectric focusing, gel filtration chromatography on Sephadex G-200, and electrophoretic migration on polyacrylamide gels. When fully activated by the addition of Ca 2+ and microgram quantities of a purified Ca 2+-binding protein (CDR), the phosphodiesterase hydrolyzed both adenosine 3′,5′-monophosphate (cyclic AMP) and guanosine 3′,5′-monophosphate (cyclic GMP), with apparent K m values of 180 and 8 μ m, respectively. Approximately 15% of the total enzymic activity was present in the absence of added CDR and Ca 2+. This activity exhibited apparent K m values for the two nucleotides identical to those observed for the maximally activated enzyme. Competitive substrate kinetics and heat destabilization studies demonstrated that both cyclic nucleotides were hydrolyzed by the same phosphodiesterase. The purified enzyme was identical to a Ca 2+-dependent phosphodiesterase present in crude extract by the criteria of gel filtration chromatography, polyacrylamide-gel electrophoresis, and kinetic behavior. Apparent K m values of the Ca 2+-dependent phosphodiesterase for cyclic AMP and cyclic GMP were lowered more than 20-fold as CDR quantities in the assay were increased to microgram amounts, whereas the respective maximal velocities remained constant. The apparent K m for Mg 2+ was lowered more than 50-fold as CDR was increased to microgram amounts. Half-maximal activation of the phosphodiesterase occurred with lower amounts of CDR as a function of either increasing degrees of substrate saturation or increasing concentrations of Mg 2+. At low cyclic nucleotide substrate concentrations i.e., 2.5 μ m, cyclic GMP was hydrolyzed at a fourfold greater velocity than cyclic AMP. At high substrate concentrations (millimolar range) cyclic AMP was hydrolyzed at a threefold greater rate than cyclic GMP.
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