Effects of Dietary Essential Fatty Acid Concentration upon Prostanoid Synthesis in Rats

Abstract

The effects of dietary linoleate as zero to 27% of energy, fed to female rats for 6 months, in relation to ability of whole blood to synthesize PG during clotting at 37° was studied. Synthesis of PGE₁, PGF₂, PGF_2α and TXB₂ after 10 or 40 minutes of incubation of whole blood was determined by assay of serum concentration by radioimmunoassay. Fatty acid composition of serum phospholipids, cholesteryl esters and acyl glycerides was determined. PG synthesis increased with linoleate as zero to 2% of kcal; from 2% up to 7% there was a decrease of PG synthesis; from 7% to 27% there was a linear increase. There was no pattern to PGF_2α maximum concentration. PGE₂ had a linear increase from 0 to 30% linoleate. PGE₁ decreased with 0 to 2% linoleate, then increased between 2 and 7% and maintained a plateau through 27%. The concentration of TXB₂ was found to be about 20–40 times that of PGE₂ and PGF_2α. The decline of PGE₁ synthesis with 2–7% linoleate calories was correlated with 20:3n-6 concentration and PGE₂ and PGF_2α production with 20:4. With dietary linoleate concentrations greater than 7.4% PG synthesis had a linear increase up to 27% of kilocalories, not correlated with fatty acids.