[Cholesterol and bile acid dynamics: comparative aspects].

While the cholesterol concentration in a given tissue is similar in the rat, pig or man, the relative importance of the processes regulating the input (absorption and synthesis) and output (faecal cholesterol and bile acid excretions) of the cholesterol system is very different from one species to another. The rat, whose cholesterolaemia does not significantly increase after cholesterol addition to the diet ("hyporesponding" animal), successfully adapts its bile acid biosynthesis to variations in cholesterol input. This process accounts for 80 to 85% of cholesterol output, faecal cholesterol excretion being a minor process. The latter results from a low liver cholesterol secretion in the bile due to the low hydrophobicity of its main bile acids. Furthermore, in this animal a high intestinal synthesis of cholesterol and apolipoproteins (particularly B48) is observed. The latter are secreted as very light lipoproteins (chylomicrons and VLDL) with a faster plasma turnover than the VLDL (apoB100, E...) secreted by the liver. The "remnants" of rat VLDL are essentially very rapidly taken up by the liver; their interplasmatic transformation pathway into IDL and LDL is not very significant (less than or equal to 10%). Man, who has a more significant hypercholesterolaemia after exogenous cholesterol ingestion ("hyperresponding" subject) seems to have a less modulable capacity for transforming cholesterol into bile acids. This process accounts for only 50% of cholesterol output, faecal cholesterol excretion being quantitatively just as significant. Cholesterol concentration and the cholesterol/bile acid ratio are much higher in human than in rat bile, the main bile acids being more hydrophobic. While both the intestine and liver contribute to cholesterogenesis, the relative importance of the latter is probably greater in man than in the rat. Moreover, a larger fraction of plasma VLDL is transformed into IDL and LDL, the latter representing the main plasma cholesterol carrier. Determining whether the differences between the biodynamics of cholesterol processes in the rat and in man can be generalised to mammals with low or high sensitivities to hypercholesterolaemia and atherosclerosis seems to be a fundamental research objective for the next few years.