Characterization of particulate cyclic nucleotide phosphodiesterases of rat kidney.

Particulate cyclic nucleotide phosphodiesterases of rat kidney display some distinct kinetic and regulatory properties. Only a small portion (5–10%) of the total homogenate low K_m cyclic AMP phosphodiesterase activity (measured with concentrations of cyclic AMP less than l μm) is tightly associated with kidney membranes. Cyclic GMP phosphodiesterase activity (measured with 0.25–200 μm cyclic GMP) is readily detectable in these fractionated and washed membranes. Low concentrations of cyclic GMP stimulated the hydrolysis of cyclic AMP (K_a ～- 0.5 μM), an effect not noted in most other membrane systems. High concentrations of cyclic GMP (K_i ～- 450 μM) and cyclic AMP (K_i ～- 150 μM) inhibited the hydrolysis of each other noncompetitively. Solubilization of membrane bound activities by sonication or Sarkosyl L markedly alters enzyme kinetic properties and the responses to cyclic nucleotides and sulfhydryl reagents. Incubation of membrane fractions with dithiothreitol (5 mm) or storage of the membranes at 4 °C results in a change in extrapolated kinetic constants for cyclic AMP hydrolysis and an increase in the rate of denaturation at 45 °C. Our findings raise the possibility that regulation of membrane-bound cyclic nucleotide phosphodiesterase activity involves interactions with cyclic nucleotides themselves, as well as oxidation and reduction of disulfide bonds and membrane-enzyme interactions.