A linoleic acid enriched diet increases serum cholesterol esterification by lecithin:cholesterol acyltransferase in meal-fed rats.

Dietary fats are known to influence the fatty acid profile of plasma lipids, including phospholipids which are substrates of lecithin:cholesterol acyltransferase (LCAT; EC 2.3.1.43), an important enzyme in lipoprotein metabolism. We tested whether the dietary fatty acid profile has an effect on LCAT activity in an animal model. Rats were conditioned to eat two meals per day, which were enriched in either palmitic, oleic or linoleic acids, for 10 weeks. Serum was isolated from blood samples taken prior to the meal. The LCAT activity was determined in two ways: (1) by measuring serum cholesterol esterification rates, which are an estimate of LCAT action on endogenous lipoproteins, and (2) by measuring serum LCAT activity levels with excess exogenous substrates, an estimate of LCAT mass. Animals receiving the linoleic acid diet had lower serum concentrations of unesterified cholesterol and triglycerides, if compared with animals fed oleic acid or palmitic acid diets (p < 0.05). Serum LCAT activity levels (measured with excess exogenous substrates) were not different, but both the absolute and fractional rates of cholesterol esterification were highest on the linoleic acid rich diet (p < 0.01), showing that LCAT action on endogenous lipoproteins is improved. No differences were found in serum apolipoprotein B and A-IV concentrations between the dietary groups. Apolipoprotein A-I levels were lowest in the palmitic acid group (oleic and linoleic > palmitic; p < 0.05), and apolipoprotein E levels were highest in the palmitic acid group (palmitic > oleic and linoleic; p < 0.05). It is concluded that a linoleic acid rich diet may cause increased metabolism of serum cholesterol by LCAT in rats. This effect is not due to elevated serum concentrations of LCAT or of its apolipoprotein activators, but most likely to changes in the chemical composition of endogenous lipoprotein substrates. It remains to be established whether the serum cholesterol esterification rates measured in vitro are related to in vivo rates of reverse cholesterol transport.