Delineation of two functionally distinct gammaPDE binding sites on the bovine retinal cGMP phosphodiesterase by a mutant gammaPDE subunit.

The gamma subunit of the retinal cGMP phosphodiesterase (gammaPDE) acts as an inhibitor of phosphodiesterase (PDE) catalytic activity and mediates enzyme regulation by the alpha subunit of the GTP-binding protein transducin (alphaT). In this work, we describe a full length, doubly point-mutated gamma subunit, C68S, Y84C gammaPDE, which binds to PDE with increased affinity but has a decreased ability to inhibit the enzyme. Fluorescence studies monitoring the competition between wild-type gammaPDE and the C68S, Y84C gammaPDE mutant suggest that the mutant gammaPDE binds with high affinity to only half of the total sites occupied by wild-type gammaPDE. Competition studies between wild-type gammaPDE and the mutant further suggest that the wild-type protein is able to fully inhibit PDE activity even when the mutant gammaPDE occupies its high-affinity binding site on PDE. Taken together, our findings are consistent with a model in which there are two distinguishable binding sites for gammaPDE on the PDE enzyme but that only one of the two sites mediates PDE inhibition.