The use of liposomes for the preparation of protein-free lipid emulsions models of chylomicron remnants.

Artificial chylomicron remnants were investigated as a new drug carrier system for the targeting of hepatic parenchymal cells. The emulsions presented here are similar in particle size and composition to natural lipoproteins. The preparations contained triolein, phospholipid, cholesterol and cholesteryl oleate. Egg yolk lecithin was either used to form multilamellar or unilamellar liposomes or it was incorporated into a lipid film prior to emulsification. Typically the lipid film contained triolein, cholesterol and cholesteryl oleate. When multilamellar liposomes were used however, cholesterol and cholesteryl oleate were incorporated into the vesicles. The emulsions were prepared by ultrasonication or by means of a microemulsifier. The unilamellar liposomes used with the microemulsifier yielded the best particle distribution, i.e. in the range of 40-60 as determined by quasi-elastic light scattering. The advantage of the method results from the complete emulsification of the components. The particle size remained unchanged during storage, although flocculation was observed. The results show that the synthesis of artificial chylomicron remnants in a microemulsifier is possible and reproducible.

Detergent extraction and characterization of tumor hemolytic factor from plasma membranes of oncogene transformed fibroblasts.

Cancer cells have the capacity to lyse erythrocytes by a cell-contact-requiring phenomenon. Subcellular fractionation procedures have revealed that the hemolytic principle resides in the cancer cell plasma membrane. In this study we report the detergent extraction of a potent hemolytic factor from the plasma membranes of ras-oncogene-transformed fibroblasts. Ammonium-sulfate partitioning (60-100%) of detergent-extracted proteins was used to enrich hemolytic activity. Tumor membrane Hemolytic Factor (mTHF) was inactivated by treatment with papain, suggesting that it is a protein. mTHF was inhibited by serum, but was unaffected by extremes of temperature and pH, also by metal chelation with EDTA. Surface radio-iodination of tumor cells and isolation of cell organelles was used to characterize the outer plasma membrane localization of mTHF. mTHF retained hemolytic activity when reconstituted into stable phospholipid vesicles. Pre-incubation of mTHF with red cell ghosts led to an abrogation of hemolytic activity. mTHF-induced hemolysis consists of a 2-stage phenomenon: an early binding step, followed by hemolysis after 4 hr.