Polyunsaturated fatty acid-cholesterol interactions: Domain formation in membranes

Polyunsaturated fatty acids (PUFA) constitute an influential group of molecules that promote health by an as yet unknown mechanism. They are structurally distinguished from less unsaturated fatty acids by the presence of a repeating =CH-CH2-CH= unit that produces an extremely flexible chain rapidly reorienting through conformational states. The most highly unsaturated case in point is docosahexaenoic acid (DHA) with 6 double bonds. This review will summarize how the high disorder of DHA affects the properties of the membrane phospholipids into which the PUFA incorporates, focusing upon the profound impact on the interaction with cholesterol. Results obtained with model membranes using an array of biophysical techniques will be presented. They demonstrate DHA and the sterol possesses a mutual aversion that drives the lateral segregation of DHA-containing phospholipids into highly disordered domains away from cholesterol. These domains are compositionally and organizationally the opposite of lipid rafts, the ordered domain enriched in predominantly saturated sphingolipids glued together by cholesterol that is believed to serve as the platform for signaling proteins. We hypothesize that DHA-rich domains also form in the plasma membrane and are responsible, in part, for the diverse range of health benefits associated with DHA. (C) 2008 Elsevier B.V. All rights reserved.