On the interaction of hemocyanin with lipid bilayer membranes

Abstract

Osmotic jump experiments were used to measure the ionic permeability induced in lipid vesicles by Megathura crenulata hemocyanin. It was found that this protein strongly increases the conductance of K+ and Cl- through these membranes but not that of SO 4 = . These effects were attributed to the formation of ionic channels in the vesicles. We have found that a simple first-order binding model can explain the dependence of the number of pore-containing vesicles both on the time after exposure to hemocyanin and on the protein concentration. Milder effects were attributed to a non-specific adhesion of the protein to the membrane surface. Consistent with the hypothesis of reversible association, vesicles which retained hemocyanin after step sucrose density gradient centrifugation at low ionic strength, lost most of the protein upon recentrifugation at high ionic strength. Consistent with the hypothesis of channel formation bot the above vesicle preparations transferred voltage-dependent hemocyanin channels into planar bilayers when they were made to fuse with them. It is concluded that hemocyanin can interact both specifically, by forming pores within the hydrophobic core of lipid membranes, and non-specifically, probably by means of electrostatic interaction with the surface of the same membrane.