Radioiodinated antibodies,a tool in studies on the presence and role of inactive enzyme forms: Regulation of chalcone synthase in parsley cell suspension cultures

A new technique, the quantitative determination of total enzyme concentrations by specific immunoprecipitation with purified, radioiodinated antibodies, was used to investigate the presence and possible roles of inactive enzyme in the regulation of chalcone synthase. Dark-grown cell suspension cultures from parsley (Petroselinum hortense) contained neither catalytically active nor detectable amounts of immunoprecipitable chalcone synthase. Irradiation induced large increases and subsequent decreases of both. Significant differences in the peak positions and in the half-lives of active and total chalcone synthase indicated that induced cells contained inactive as well as active enzyme forms. The presence of inactive enzyme could be explained by two different modes of regulation, (i) simultaneous de novo synthesis of active and inactive enzyme (“Simultaneous Model”), or (ii) de novo synthesis of active enzyme only, with sequential steps of inactivation and degradation (“Sequential Model”). Both models were compatible with experimental results, as analyzed mathematically by investigating the relations between curves for rate of enzyme synthesis, enzyme activity, total enzyme, and half-lives of active and total enzyme. However, the “Simultaneous Model” postulated that de novo synthesis of inactive enzyme represented always the vast majority of total enzyme synthesis, while the Sequential Model integrated inactive enzyme with facility in a sequence of irreversible inactivation and degradation of active enzyme. Experiments with repeated induction indicated that cells containing large amounts of inactive enzyme increased enzyme activity by de novo synthesis rather than by activation of preexisting inactive enzyme.