Dietary Fatty Acids and Cholesterol Differentially Modulate HDL Cholesterol Metabolism in Golden-Syrian Hamsters

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Nutrient Metabolism

Dietary Fatty Acids and Cholesterol Differentially Modulate HDL Cholesterol Metabolism in Golden-Syrian Hamsters¹^,2

Suzanne E. Dorfman, Shu Wang, Sonia Vega-López, Matti Jauhiainen^* and Alice H. Lichtenstein³

Cardiovascular Nutrition Laboratory, Jean Mayer U.S. Department of Agriculture Human Nutrition Research Center on Aging at Tufts University, Boston, MA and ^* National Public Health Institute, Department of Molecular Medicine, Biomedicum, Helsinki, Finland

³To whom correspondence should be addressed. E-mail: Alice.Lichtenstein{at}tufts.edu.

Dietary fatty acids alter HDL cholesterol concentrations, presumablythrough mechanisms related to reverse cholesterol transport.The effect of dietary fats (coconut oil, butter, traditionalstick margarine, soybean oil, canola oil) differing in fattyacid profile on this antiatherogenic process was assessed withrespect to plasma lipids; exogenous and endogenous lecithin-cholesterolacyltransferase (LCAT), cholesterol ester transfer protein (CETP),phospholipid transfer protein (PLTP) activities; and LCAT, apolipoprotein(apo) A-I and scavenger receptor B class-1 (SR-B1) mRNA abundance.Golden-Syrian hamsters were fed a nonpurified (6.25 g/100 gfat) diet containing an additional 10 g/100 g experimental fatand 0.1 g/100 g cholesterol for 6 wk. Canola and soybean oilssignificantly lowered serum HDL cholesterol concentrations relativeto butter. Canola oil, relative to butter, resulted in higherexogenous LCAT activity, and both soybean and canola oils significantlyincreased hepatic apo A-I and SR-B1 mRNA abundance. Butter,relative to margarine, coconut and soybean oils, significantlyincreased serum non-HDL cholesterol concentrations. Endogenousand exogenous LCAT, CETP, and PLTP activities did not differin hamsters fed margarine or saturated fat diets, despite lowerhepatic LCAT, apo A-I, and SR-B1 mRNA abundance, suggestingthat changes in available substrate and/or modification to theLCAT protein may have been involved in lipoprotein changes.These results suggest that lower HDL cholesterol concentrations,as a result of canola and soybean oil feeding, may not be detrimentaldue to increases in components involved in the reverse cholesteroltransport process in these hamsters and may retard the progressionof atherosclerosis.

KEY WORDS: • reverse cholesterol transport • lecithin-cholesterol acyltransferase • lipid transfer • scavenger receptor B class 1 • apolipoprotein A-I

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Nutrient Metabolism

Dietary Fatty Acids and Cholesterol Differentially Modulate HDL Cholesterol Metabolism in Golden-Syrian Hamsters1,2

Dietary Fatty Acids and Cholesterol Differentially Modulate HDL Cholesterol Metabolism in Golden-Syrian Hamsters¹^,2