Abstract
Apolipoprotein B (apoB)-dependent and apoB-independent pathways for cholesterol transport have been described in cultured cells. Here, we show that the apoB-independent pathway involves apoA-I-containing high density lipoproteins (HDLs). Cholesterol secretion by the HDLs, but not by the apoB pathway, was significantly reduced in primary enterocytes isolated from chow- and cholesterol-fed apoA-I(-/-) mice. These enterocytes were capable of cholesterol efflux when apoA-I was provided extracellularly. In apoA-I(-/-) mice, the absorption of a bolus of cholesterol was similar in control and apoA-I(-/-) mice fed chow or high-cholesterol diet. However, short-term studies revealed that cholesterol absorption was occurring over longer lengths of the intestine, and cholesterol but not triglyceride transport to the plasma and liver in chow- and cholesterol-fed apoA-I(-/-) mice was significantly reduced. These studies indicate that in apoA-I deficiency, there is a delay in cholesterol absorption, but cholesterol is eventually absorbed because of the compensatory apoB pathway. Nonetheless, long-term studies involving multiple feedings showed significant reduction in cholesterol absorption after 4 days. We propose that multiple compensatory mechanisms ensure efficient cholesterol absorption in mice.
Highlights
Apolipoprotein B-dependent and apoBindependent pathways for cholesterol transport have been described in cultured cells
Presence of cholesterol and apoA-I in high density lipoprotein (HDL) secreted by Caco-2 cells
To characterize apolipoproteins present in these two lipoprotein fractions, Caco-2 cells were radiolabeled with cholesterol and chased in the presence of TC and Oleic acid (OA) to promote chylomicron secretion (Fig. 1, OA:TC) and in the absence (Fig. 1, TC) of OA
Summary
Apolipoprotein B (apoB)-dependent and apoBindependent pathways for cholesterol transport have been described in cultured cells. Short-term studies revealed that cholesterol absorption was occurring over longer lengths of the intestine, and cholesterol but not triglyceride transport to the plasma and liver in chow- and cholesterol-fed apoA-I؊/؊ mice was significantly reduced. These studies indicate that in apoA-I deficiency, there is a delay in cholesterol absorption, but cholesterol is eventually absorbed because of the compensatory apoB pathway. The major function of apoA-I is in the reverse cholesterol transport from peripheral tissues to the liver In this process, apoA-I picks up free cholesterol from peripheral tissues by interacting with a plasma membrane resident ATP binding cassette protein A1 (ABCA1) and forms a nascent HDL [12,13,14].
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