Abstract
The characteristics of cytoskeleton fractions prepared from rat red cell ghosts with four non-ionic detergents were studied. One percent (w/v) solutions of Triton X-100, Emulgen 911, MEGA-9 (nonanoyl-N-methylglucamide), and octylglucoside solubilized 78, 68, 80, and 92% of the ghost phospholipid, while they solubilized 82, 78, 72, and 62% of the ghost band 3, a transmembrane protein, respectively. There was no correlation between the solubilization percentages of phospholipid and band 3. Phospholipids retained in cyto-skeleton fractions were shown to exist as blebs on the surface by electron microscopic observation. The cytoskeleton fraction prepared with octylglucoside retained about two-fold more band 3 than that with Triton X-100 (Triton shells). However, cytoskeleton fractions prepared from p-chloromercuribenzoate-treated ghosts with the two detergents retained almost equal amounts of band 3, less than 5% of that in the ghosts. Under this condition, most of band 2.1, a protein linking band 3 to the spectrin-actin network, was released from the cytoskeleton fractions. The band 3 solubilized with octylglucoside sedimented faster in a linear sucrose gradient and had a larger Stokes' radius than that with Triton X-100, which is known to exist as dimer. These results strongly suggest that octylglucoside does not disturb the association of tetrameric band 3 with the spectrin-actin network, while Triton X-100 dissociates tetrameric band 3 to the dimer, resulting in the difference in the amount of band 3 retained in cytoskeleton fractions. In conclusion, octylglucoside can produce a more native cytoskeleton fraction of red cell membranes than Triton shells.
