Effects of dietary fish oil on plasma high density lipoprotein. Electron spin resonance and fluorescence polarization studies of lipid ordering and dynamics.

S.R Wassall,R.C Mccabe,W.D Ehringer,W Stillwell

doi:10.1016/s0021-9258(18)42422-2

S.R Wassall, R.C Mccabe + Show 2 more

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https://doi.org/10.1016/s0021-9258(18)42422-2

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Abstract

Dietary fish oils are implicated in reducing the incidence of coronary heart disease, perhaps by altering the properties of plasma lipoproteins. The hypothesis that omega-3 polyunsaturated fatty acids (PUFA) in fish oils produce changes in lipid ordering and dynamics within high density lipoprotein (HDL), thereby potentially modifying cholesterol transport, is investigated here. Rabbits were fed a diet supplemented with either 10% (by weight) menhaden oil (MO), a fish oil rich in omega-3 PUFAs, or hydrogenated cottonseed oil for a period of 12 weeks. HDL was isolated by sequential flotation ultracentrifugation from plasma drawn every 2 weeks. Gas chromatography confirmed that the predominant omega-3 PUFAs of fish oils, eicosapentaenoic 20:5 and docosahexaenoic 22:6 acids, were only incorporated into the triglyceride, phospholipid, and cholesteryl ester constituents of lipoproteins from rabbits on the MO diet. ESR of 5- and 16-doxyl stearic acids demonstrates that molecular order and dynamics within the outer monolayer of HDL is virtually unaffected. In contrast, ESR of cholesteryl 12-doxyl stearate indicates order is less within the inner apolar core of the lipoprotein for the MO diet than for the hydrogenated cottonseed oil diet. Fluorescence polarization of 1,6-diphenyl-1,3,5-hexatriene supports this finding. The greater disorder detected within HDL from rabbits fed fish oil may result in an enhancement of cholesterol exchange between lipoproteins and between lipoproteins and cells, which may have anti-atherogenic ramifications.

Highlights

Dietary fish oilsare implicated in reducingthe inci- the blood
Fatty Acid Analysis-GC analyses of menhaden oil (MO), hydrogenated cottonseed oil (HCO), and rabbit chow were performed and their results are presented in Fig. 1.The fatty acid composition determined for MO falls within the published range (Stansby, 1986) and,ascan be seen, a)
The level of incorporation into individual lipid constituents was in the order triglyceride > cholesteryl ester > phospholipid, and the corresponding concentrations of eicosapentaenoic 20:5 acid (EPA) were greater than docosahexaenoic 22:6 acid (DHA)

Summary

Effects of Dietary Fish Oil on Plasma HighDensity Lipoprotein

ELECTRON SPIN RESONANCE AND FLUORESCENCE POLARIZATION STUDIES OF LIPID ORDERING AND DYNAMICS*. Plasma high (HDL) and low (LDL) density lipoproteins are major transporters of cholesterol, as cholesteryl ester, in ceptions, the degree of acyl chain unsaturation was not seen to be a strict determinantof fluidity This is exemplified by a fluorescencepolarization study which employed1,6-diphenyl1,3,5-hexatriene (DPH) tocompare the effect of various dietary supplements (Berlin and Young,1983). In the research described here, spectroscopic techniques were applied to systematically compare the time evolution of lipid ordering and dynamics in HDL isolated periodically from the plasma of rabbits fed a diet supplemented with either MO or hydrogenated cottonseed oil (HCO), a saturated faftree of W-3 PUFAs. Order parameters and correlation times in the outer monolayer of HDL were determined by ESR of 5- and. Retention times of the fatty acidswere compared to methyl ester standards

CI m uo

DISCUSSION

Effectsof Dietary Fish Oil on Lipid Motions in Plasma HDL