Abstract

We investigated the in vitro activation of rat liver macrophages to a tumoricidal state with free and liposome-encapsulated immunomodulators. The cytolytic activity of liver macrophages was determined by a radioactivity release assay using murine B16 melanoma cells, labeled with [methyl-3H]thymidine. Exposure of the liver macrophages to concentrations of 50 micrograms of free, nonencapsulated, muramyl dipeptide (MDP) per ml resulted in maximal levels of tumor cell lysis of approximately 20%. Encapsulation of the MDP within liposomes (multilamellar vesicles, 0.3 to 0.5 micron in diameter, consisting of egg phosphatidylcholine, cholesterol, and dicetylphosphate, 4:5:1) not only caused a 500-fold reduction in the amount of MDP required to obtain the same levels of cytolysis but also increased the maximally obtainable level of cytolysis more than 2-fold. A synergistic effect of lipopolysaccharide and free or encapsulated MDP on cytolytic activity was observed when the macrophages were exposed to a combination of the two agents simultaneously. Besides causing tumor cell lysis, activated macrophages were also able to suppress tumor cell proliferation by 80 to 90% as determined by a [methyl-3H]thymidine incorporation assay. With a fixed amount of MDP, encapsulated in different amounts of liposomal lipid, the extent of macrophage activation was found to increase with a larger amount of encapsulating lipid. This increase in macrophage activation may be the result of a sustained intracellular release of encapsulated MDP from the liposomes. Liposome structure and composition will thus be important parameters in the in vivo application of liposomes as carriers of immunoactive substances.