Formation of 1-O-2'-hydroxyalkyl glycerophosphatides from 1,2-heptadecanediol in myelinating brain.

1,2-Heptadecanediol-2-(14)C was administered intracerebrally to 18-day-old rats, and its incorporation, after 8 hr, into the individual aliphatic moieties of the ethanolamine glycerophosphatides was determined. Much of the radioactivity was found in a lipid fraction identified as 1-O-2'-hydroxyheptadecyl glycerol. Evidence is presented that a major portion of the precursor was incorporated into 1-O-2'-hydroxyheptadecyl-2-acyl ethanolamine phosphatides. Some of the diol administered was degraded to palmitic acid. The palmitic acid-1-(14)C derived from 1,2-heptadecanediol-2-(14)C apparently served as precursor for stearic and oleic acids, which were found as acyl groups, and for the biosynthesis of the corresponding O-alkyl and O-alk-1-enyl glycerols. The data presented prove that biological dehydration of 1-O-2'-hydroxyalkyl glycerophosphatides to the corresponding plasmalogens does not occur in myelinating brain.