Effects of high cholesterol diets on rat plasma lipoproteins and lipoprotein-cell interactions.

High fat, high cholesterol diets do not produce atherosclerotic lesions in some animal species such as the rat; however, when combined with experimentally induced hypothyroidism, such diets do produce lesions. While the diets or hypothyroidism each induce significant alterations in plasma lipoproteins, the combination produces marked hypercholesterolemia. If the atherosclerosis is related to the hyperlipidemia, the combination regimen could be provoking changes in the structure or compositions of lipoproteins which are not noted with either regimen alone. To test this hypothesis, Sprague-Dawley male rats (approximately 250 g) were treated as follows: Diet(a) = chow + 5% lard and 0.3% Na taurocholate; Diet(b) = Diet(a) + 2% cholesterol; Diet(c) = Diet(b) + 0.1% propylthiouracil (PTU). The major findings were as follows. 1) With Diet(b), slow floating very low density lipoprotein (VLDL) (pre-beta) enriched in cholesteryl esters accumulated in plasma and low density lipoprotein (LDL) disappeared from its usual flotation position. 2) With Diet(c), changes in plasma concentration were more marked but were also qualitatively different. More VLDL accumulated, and distribution of VLDL was shifted toward even slower floating cholesteryl ester-rich particles. VLDL had "broad beta" mobility. Also, a beta-migrating intermediate density lipoprotein (IDL) population appeared. 3) Lipoprotein (d less than 1.019 g/ml) and zonal subfractions of d less than 1.019 g/ml lipoproteins (isolated from rats on cholesterol Diet (b] stimulated [3H]oleate incorporation into cholesteryl esters of fibroblasts and macrophages, while the d less than 1.019 g/ml fractions of 5% fat (Diet(a]-fed rats did not. 4) The major finding of this study was that identically prepared d less than 1.019 g/ml fractions of Chol + PTU-treated rats (Diet(c] were approximately 2.5-fold more stimulatory than the lipoproteins of cholesterol-fed rats. The results could not be explained by differences in cholesterol contents of the cholesterol-rich lipoproteins, but significant differences in the apoprotein compositions of the fraction were found which could be important. The most active fractions had higher apoBL/apoBS and apoE/apoC ratios than less active fractions. Thus, the combination regimen of cholesterol and PTU produced changes in lipoprotein structure and composition which enhanced the abilities of the lipoproteins to interact with cells. The results suggest that analysis of lipoprotein-cell interactions in vitro may be predictive of the atherogenic potential of lipoproteins in vivo and that euthyroidism in rat protects against atherogenic hyperlipidemia.