Acyl chain unsaturation modulates distribution of lecithin molecular species between mixed micelles and vesicles in model bile. Implications for particle structure and metastable cholesterol solubilities

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Acyl chain unsaturation modulates distribution of lecithin molecular species between mixed micelles and vesicles in model bile. Implications for particle structure and metastable cholesterol solubilities

DE Cohen and MC Carey
Department of Medicine, Harvard Medical School, Brigham and Women's Hospital, Boston, MA 02115.

We determined the distribution of lecithin molecular species between vesicles and mixed micelles in cholesterol super-saturated model biles (molar taurocholate-lecithin-cholesterol ratio 67:23:10, 3 g/dl, 0.15 M NaCl, pH approximately 6-7) that contained equimolar synthetic lecithin mixtures or egg yolk or soybean lecithins. After apparent equilibration (48 h), biles were fractionated by Superose 6 gel filtration chromatography at 20 degrees C, and lecithin molecular species in the vesicle and mixed micellar fractions were quantified as benzoyl diacylglycerides by high performance liquid chromatography. With binary lecithin mixtures, vesicles were enriched with lecithins containing the most saturated sn-1 or sn-2 chains by as much as 2.4-fold whereas mixed micelles were enriched in the more unsaturated lecithins. Vesicles isolated from model biles composed of egg yolk (primarily sn-1 16:0 and 18:0 acyl chains) or soy bean (mixed saturated and unsaturated sn-1 acyl chains) lecithins were selectively enriched (6.5-76%) in lecithins with saturated sn-1 acyl chains whereas mixed micelles were enriched with lecithins composed of either sn-1 18:1, 18:2, and 18:3 unsaturated or sn-2 20:4, 22:4, and 22:6 polyunsaturated chains. Gel filtration, lipid analysis, and quasielastic light scattering revealed that apparent micellar cholesterol solubilities and metastable vesicle cholesterol/lecithin molar ratios were as much as 60% and 100% higher, respectively, in biles composed of unsaturated lecithins. Acyl chain packing constraints imposed by distinctly different particle geometries most likely explain the asymmetric distribution of lecithin molecular species between vesicles and mixed micelles in model bile as well as the variations in apparent micellar cholesterol solubilities and vesicle cholesterol/lecithin molar ratios.(ABSTRACT TRUNCATED AT 250 WORDS)
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				R. L. Cowles, J.-Y. Lee, D. D. Gallaher, C. L. Stuefer-Powell, and T. P. Carr Dietary Stearic Acid Alters Gallbladder Bile Acid Composition in Hamsters Fed Cereal-Based Diets J. Nutr., October 1, 2002; 132(10): 3119 - 3122. [Abstract] [Full Text] [PDF]

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				J. M. Baez, S. E. Barbour, and D. E. Cohen Phosphatidylcholine Transfer Protein Promotes Apolipoprotein A-I-mediated Lipid Efflux in Chinese Hamster Ovary Cells J. Biol. Chem., February 15, 2002; 277(8): 6198 - 6206. [Abstract] [Full Text] [PDF]

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				C. L. Schneider, R. L. Cowles, C. L. Stuefer-Powell, and T. P. Carr Dietary Stearic Acid Reduces Cholesterol Absorption and Increases Endogenous Cholesterol Excretion in Hamsters Fed Cereal-Based Diets J. Nutr., May 1, 2000; 130(5): 1232 - 1238. [Abstract] [Full Text]

				E. R. M. Eckhardt, A. Moschetta, W. Renooij, S. S. Goerdayal, G. P. van Berge-Henegouwen, and K. J. van Erpecum Asymmetric distribution of phosphatidylcholine and sphingomyelin between micellar and vesicular phases: potential implications for canalicular bile formation J. Lipid Res., November 1, 1999; 40(11): 2022 - 2033. [Abstract] [Full Text]

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Acyl chain unsaturation modulates distribution of lecithin molecular species between mixed micelles and vesicles in model bile. Implications for particle structure and metastable cholesterol solubilities