Mechanism of anion transport in red blood cells: role of membrane proteins

A number of anionic chemical probes that inhibit anion permeability of red blood cells are localized in a membrane protein of about 100,000 daltons, known as band 3. The inhibitory site has been explored using a series of disulfonic stilbene compounds. It apparently contains three positive charges, probably amino groups. Two probes, pyridoxal phosphate and N (4 azido 2 nitrophenyl) 2 amino ethyl sulfonate, are transported by the anion system but can be fixed in an irreversible bond under specified conditions (reduction with NaBH₄ or exposure to light, respectively). Data obtained with these compounds indicate that the inhibitory site in band 3 is the transport site itself. Band 3 protein is exposed in part on the outside of the cell but it is also hydrophobically associated with membrane lipid. A model is proposed in which the band 3 protein acts as an anion permeation channel through the lipid bilayer. Near the outer aspect of the channel an anion binding site can undergo a local conformational change allowing a one for one anion exchange across a diffusion barrier.