Interactions of cytochromec with phospholipid membranes

Abstract

Cytochromec added during the formation of lecithin-cardiolipin liquid crystals in 0.015m KCl is readily bound. After successive washings with 0.15m KCl, only about 50% of this bound cytochromec is removed. The remaining cytochromec is resistant to further salt extraction, and the amount of this cytochromec that is bound varies with the concentration of added cytochromec to a maximum binding ratio of 1∶70, mole ratio cytochromec to phospholipid. This binding appears to be electrostatic; it is competitively inhibited by increasing the initial molarity of KCl from 0.015 to 0.10m. Binding of cytochromec is insignificant in the absence of cardiolipin, and is affected by varying the pH. Electron microscope studies of osmium tetroxide-stained thin sections show that the liquid crystals consist of vesicles, each of which contains a large number of concentric, alternating light and dense lines. The dense lines have been identified by other workers with the polar head groups of the phospholipids on the surface of a bilayer, and the light area represents the hydrophobic interior. The addition of cytochromec causes an average decrease in the number of lines per vesicle. It increases the center-to-center distance between two neighboring light or dense lines and the width of the dense lines. On the basis of this evidence and electrostatic binding, it is concluded that cytochromec is binding on the polar surfaces of the phospholipid bilayers comprising the liquid crystalline vesicles.