We examined the formation in vivo of molecular subspecies of brain phosphatidylcholine (PC) via the phospholipid-methylation pathway. [3H]Methionine was infused into a lateral cerebral ventricle, and 3H-labelled PC was isolated from brains of rats 0.1-18 h after the infusions. Three major subspecies of this PC, differing in their fatty acid compositions, were separated on silver-impregnated t.l.c. plates, and the proportions of radioactivities in these three PC fractions were determined. The results indicate that newly-formed PC synthesized by methylation of phosphatidylethanolamine at 0.1 h after [3H]methionine contains a significantly higher proportion of polyunsaturated subspecies (i.e. those with six or four double bonds) than does PC obtained later times after injection of [3H]methionine. This change in the composition of 3H-labelled brain PC occurs gradually and is not due to an influx of radioactive PC from the periphery. Our data suggest that polyunsaturated PC (hexaenes and tetraenes) produced in the brain by methylation of phosphatidylethanolamine turns over faster than does that containing more-saturated fatty acids.
In vivo metabolism of ceramides in rat brain. Fatty acid replacement and esterification of ceramide.
