RE-INCORPORATION OF THE TERMINAL C5B-9 COMPLEMENT COMPLEX INTO LIPID BILAYERS - FORMATION AND STABILITY OF RECONSTITUTED LIPOSOMES

Abstract

The formation and stability of lecithin liposomes carrying re-incorporated [vertebrate] C5b-9(m) [membrane b fragment of complement component 5 through 9] complex] prepared through a detergent-dialysis procedure was studied. Confluent aggregates of phospholipid and protein formed at low initial lipid-protein ratios (1:1, wt/wt); higher lipid-protein ratios (e.g., 5:1, wt/wt) were required for formation of lipid vesicles with recognizable bilayer structure. The unfractionated preparations comprised a heterogeneous population of vesicles that sedimented according to their lipid-protein content to varying positions upon centrifugation in CsCl density gradients. The vesicles were stable: C5b-9(m) complexes did not detach from the membranes during centrifugation through CsCl. They also resisted elution from the bilayer by treatment with salt solutions of low or high ionic strength, or of high pH. Anchorage of C5b-9(m) in the membrane through apolar interactions, akin to that of an integral membrane protein, is indicated. The results are compatible with the channel concept of complement lysis. [Studies on the mechanism of immune cytolysis have shown that C-dependent cell membrane damage is mediated by the attachment of C5b-C9 to the target lipid bilayer.].