IMMUNE CLEARANCE OF PHOSPHATIDYLSERINE-EXPRESSING CELLS BY PHAGOCYTES- THE ROLE OF BETA(2)-GLYCOPROTEIN-I IN MACROPHAGE RECOGNITION

The function of beta(2)-glycoprotein I (beta(2)GPI), a 50-kDa serum gl ycoprotein, is not completely understood but has been suggested to be involved in the regulation of thrombosis (Brighten, T. A., Hogg, P, J, , Dal, Y,-P,, Murray, B, H., Choing, B, H,, and Chesterman, C, N, (199 6) Br, J. Haematol, 93, 185-194) and the clearance of phosphatidylseri ne (PS)-expressing cells (Chonn, A., Semple S, C,, and Cullis P, R, (1 995) J, Biol, Chem. 270, 25845-25849). To further understand the role of this protein, we characterized the ability of beta(2)GPI to interac t with PS vesicles and influence their uptake by macrophages in vitro. beta(2)GPI bound to and precipitated vesicles containing anionic but not zwitterionic phospholipids in a gel diffusion assay, beta(2)GPI al so inhibited the procoagulant activity of PS liposomes, In vitro phago cytosis studies showed 20-fold greater uptake of PS liposomes over pho sphatidylcholine liposomes. This enhanced uptake was maintained even a fter PS was ''shielded'' with beta(2)GPI and further increased upon th e addition of beta(2)GPI antibodies, Similar to liposomes, PS-expressi ng apoptotic thymocytes and lipid symmetric red blood cell ghosts boun d beta(2)GPI. Macrophage uptake of these cells was also maintained or enhanced in the presence of beta(2)GPI and further increased upon the addition of beta(2)GPI antibodies, It is concluded that beta(2)GPI can play a critical role in hemostasis by influencing both thrombosis and the clearance of PS-expressing cells.