Molecular architecture and dynamics of the plasma membrane lipid bilayer: The red blood cell as a model

Abstract

The structural backbone of the erythrocyte membrane, as well as that of any other plasma membrane, is provided by a lipid bilayer which is composed of more than 100 molecular species. The individual lipid classes are distributed over both halves of the bilayer in a highly asymmetric fashion: all glycolipids are exclusively confined to the outer membrane leaflet where we also find the majority of the two choline-containing phospholipids, sphingomyelin and phosphatidylcholine. The two amino-phospholipids are predominantly (phosphatidylethanolamine) or even exclusively (phosphatidylserine) localized in the cytoplasmic half of the bilayer. Glycolipids and sphingomyelin are not subject to transbilayer movements, a property that (under normal conditions) is shared by phosphatidylserine. Phosphatidylcholine exhibits a relatively slow transbilayer movement, revealing half-time values from 3 to 27 h, whereas phosphatidylethanolamine is subject to an ATP-dependent "flippase"-catalyzed inward movement with a half-time of approximately 30 min. Probably much faster than that of any other lipid, is the transbilayer movement of cholesterol, revealing a half-time value in the order of seconds.