Dietary soybean phosphatidylcholines lower lipidemia: mechanisms at the levels of intestine, endothelial cell, and hepato-biliary axis

The beneficial metabolic effects of dietary soybean lecithin on lipid metabolism are now more clearly established. The intestinal absorption of cholesterol is decreased by soybean phosphatidylcholine-enriched diet and results in a cholesterol-lowering effect. There is an enhancement of the cholester...

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Veröffentlicht in:	The Journal of nutritional biochemistry 2000-09, Vol.11 (9), p.461-466
Hauptverfasser:	Mastellone, Isabelle, Polichetti, Elisabeth, Grès, Sandra, de la Maisonneuve, Caroline, Domingo, Nicole, Marin, Valérie, Lorec, Anne-Marie, Farnarier, Catherine, Portugal, Henri, Kaplanski, Gilles, Chanussot, Françoise
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Sprache:	eng
Schlagworte:	Biological and medical sciences diet Disorders of blood lipids. Hyperlipoproteinemia HDLs lipids Medical sciences Metabolic diseases soybean phosphatidylcholine
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container_title	The Journal of nutritional biochemistry
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creator	Mastellone, Isabelle Polichetti, Elisabeth Grès, Sandra de la Maisonneuve, Caroline Domingo, Nicole Marin, Valérie Lorec, Anne-Marie Farnarier, Catherine Portugal, Henri Kaplanski, Gilles Chanussot, Françoise
description	The beneficial metabolic effects of dietary soybean lecithin on lipid metabolism are now more clearly established. The intestinal absorption of cholesterol is decreased by soybean phosphatidylcholine-enriched diet and results in a cholesterol-lowering effect. There is an enhancement of the cholesterol efflux by endothelial cells incubated with soybean phosphatidylcholines, and a stimulation of the reverse cholesterol transport by high density lipoprotein-phosphatidylcholines. As a result of all these processes, phosphatidylcholines provided by the soybean lecithin metabolism appear to be key molecules controlling the biodynamic exchanges of lipids. They regulate homeostasis of cholesterol and fatty acids by decreasing their synthesis and promoting cholesterol oxidation into bile salts. Finally, the outcome is the increase in bile secretion of these lipids and/or their metabolite forms. Such findings constitute promising goals in the field of nutritional effects of soybean lecithin in the treatment or prevention of hyperlipidemia and related atherosclerosis.
doi_str_mv	10.1016/S0955-2863(00)00115-7
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The intestinal absorption of cholesterol is decreased by soybean phosphatidylcholine-enriched diet and results in a cholesterol-lowering effect. There is an enhancement of the cholesterol efflux by endothelial cells incubated with soybean phosphatidylcholines, and a stimulation of the reverse cholesterol transport by high density lipoprotein-phosphatidylcholines. As a result of all these processes, phosphatidylcholines provided by the soybean lecithin metabolism appear to be key molecules controlling the biodynamic exchanges of lipids. They regulate homeostasis of cholesterol and fatty acids by decreasing their synthesis and promoting cholesterol oxidation into bile salts. Finally, the outcome is the increase in bile secretion of these lipids and/or their metabolite forms. 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The intestinal absorption of cholesterol is decreased by soybean phosphatidylcholine-enriched diet and results in a cholesterol-lowering effect. There is an enhancement of the cholesterol efflux by endothelial cells incubated with soybean phosphatidylcholines, and a stimulation of the reverse cholesterol transport by high density lipoprotein-phosphatidylcholines. As a result of all these processes, phosphatidylcholines provided by the soybean lecithin metabolism appear to be key molecules controlling the biodynamic exchanges of lipids. They regulate homeostasis of cholesterol and fatty acids by decreasing their synthesis and promoting cholesterol oxidation into bile salts. Finally, the outcome is the increase in bile secretion of these lipids and/or their metabolite forms. 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subjects	Biological and medical sciences diet Disorders of blood lipids. Hyperlipoproteinemia HDLs lipids Medical sciences Metabolic diseases soybean phosphatidylcholine
title	Dietary soybean phosphatidylcholines lower lipidemia: mechanisms at the levels of intestine, endothelial cell, and hepato-biliary axis
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