Accumulation of uridine diphosphoglucose pyrophosphorylase in Dictyostelium discoideum via preferential synthesis

Abstract

At the end of the exponential growth phase, the enzyme UDP-glueose pyrophosphorylase is present in the vegetative cells of Dictyostelium discoideum NC4 (haploid) at a low level (about 0.05% of total protein). During the initial stages of fruiting body construction, while the cells are entering into multicellular aggregates, the enzyme level remains constant, but increases dramatically thereafter reaching a peak (about 0.5% of total protein) at the end of fruiting body construction, and then partially decreasing. Previous studies have shown that both the accumulation and disappearance are keyed to the flow of morphogenetic events. In this study, cells were labeled with amino acids for different periods throughout the sequence. The enzyme was quantitatively immune-precipitated from crude cell extracts, the precipitate was washed and redissolved, and the enzyme protein separated by acrylamide gel electrophoresis in order to estimate the differential incorporation ratio, i.e. disints min in enzyme protein per 10 8 cells disints min in total protein per 10 8 cells × 100 for each labeling period. During the initial stages, when the enzyme level remained relatively constant, this ratio was about 0.03 to 0.04%. As the enzyme began to accumulate it rose progressively, attaining levels of 0.6 to 0.8% toward the end of fruiting body construction before declining. The data are not consistent with the theory of Gustafson and Wright (1973) that differential turnover controls the level of this enzyme during the development of D. discoideum. They are consistent with the conclusion that directed changes in the differential rate of synthesis of UDP-glucose pyrophosphorylase is the controlling element. The estimates of enzyme content are based on a value for the specific enzyme activity of 100,000 units/mg enzyme, which had been determined previously using samples of the enzyme purified to apparent physical homogeneity. This figure has been confirmed in the present study by quantitative immuneprecipitation of the enzyme from crude extracts of homogeneously labeled cells. The method can be generally used to determine if a specific biological activity estimate obtained with a purified protein is consistent with its activity when measured before or during purification.