Changes in phospholipid composition during the development of Dictyostelium discoideum

Abstract

The phospholipid composition of Dictyostelium discoideum cells was determined at various stages of development by two-dimensional, thin-layer chromatography and reaction thin-layer chromatography. Major phospholipids of D. discoideum which were detectable throughout all stages of development were ethanolamine phosphoglyceride and choline phosphoglyceride. Ethanolamine phosphoglyceride and choline phosphoglyceride were found as their plasmalogen forms at 45–58 and 10–24%, respectively. There were no qualitative changes in phospholipid composition during the development, but quantitative changes did occur. The relative content of ethanolamine phosphoglyceride in the total phospholipids gradually decreased from 60% at the vegetative stage to 44% at the 1-day-sorocarp stage. In contrast, choline phosphoglyceride gradually increased from 27% at the vegetative stage to 48% at the preculmination stage, and then gradually decreased to 43% during the culmination. The decrease in ethanolamine phosphoglyceride content during the middle and late development was due mainly to the decreased amount of its plasmalogen form but the increase of choline phosphoglyceride was independent of quantitative changes of its plasmalogen form. Other minor components of phospholipid did not show significant changes in their levels. The causes of these changes in contents of ethanolamine phosphoglyceride and choline phosphoglyceride were examined by label and chase experiments with [ 3H]ethanolamine and [ 14C]choline. It seems that one-third to one-half of the increased amount of choline phosphoglyceride was due to stepwise methylation of ethanolamine phosphoglyceride, and the remaining two-thirds to one-half was caused by de novo synthesis of choline phosphoglyceride from CDP-choline and diglyceride.