Molecular basis for red cell membrane viscoelastic properties

Abstract

An unusual combination of membrane properties allows the red cell to undergo extensive deformation without cell fragmentation, enabling it to effectively perform its function of oxygen delivery during its long life span in the circulation. These material properties are the consequence of a composite structure in which a plasma membrane envelope made up of amphiphilic surfactant molecules is anchored to a network of skeletal proteins through tethering sites (transmembrane proteins) in the bilayer. Explosive growth in our understanding of the primary structure of the various red cell membrane proteins, definition of specific mutations in various red phenotypes, and detailed biophysical characterization of membrane properties of normal and mutant red cells has enabled development of models of molecular and structural basis for red cell properties.