SYNTHESIS OF ETHANOLAMINE PHOSPHOGLYCERIDES BY MICROSOMES FROM THE BRAINS OF JIMPY AND QUAKING MICE

Abstract— —Brains of jimpy and quaking mice are known to be deficient in myelin and alkenylacyl-glycero-phosphorylethanolamines (alkenylacyl-GPE, ethanolamine plasmalogens). Ethanolamine plasmalogen synthetic activity appeared to be normal and ethanolamine phosphotransferase (EC 2.7.8.1) activities are higher in the brain microsomes from jimpy and quaking mice than in their littermate controls when the activities are assayed with alkylacylglycerols and CDP[¹⁴C]ethanolamine. When endogenous diradylglycerols were the substrate, the rate of synthesis of diacyl-GPE was normal but the rate of synthesis of the ether lipids, alkenylacyl-GPE and alkylacyl-GPE, was 33% and 8% below control levels for jimpy brain microsomes and quaking brain microsomes respectively. This difference is probably due to a normal content of diacylglycerols and a deficient content of alkylacylglycerols in the mutant brain microsomes. The apparent alkylacylglycerol deficiencies in the microsomes correspond with the ethanolamine plasmalogen deficiencies in the brains of these mutant mice.