Biosynthesis of the third component of complement in rat liver epithelial cell lines and its stimulation by effector molecules from cultured human mononuclear cells.

Rat liver epithelial cell lines, growing in a serum-supplemented medium, synthesize and secrete into the culture medium the third component of complement (C3). We studied the regulation of C3 production in this system. We found that human peripheral blood mononuclear leukocytes in culture released one or more soluble factors which stimulated rat liver epithelial cells to produce increased quantities of C3. This stimulating effect was strongly enhanced when the mononuclear cell cultures were treated with phytohemagglutinin, a T-lymphocyte mitogen. The factor(s) failed to enhance C3 biosynthesis by rat dermal fibroblasts, which are known to produce this protein. This reveals a tissue-specific differential response between the fibroblasts and the liver epithelial cells. The physical and chemical characteristics, such as heat sensitivity, 2.8 M ammonium sulphate precipitation, and lower activity after digestion by proteases unambiguously indicate that the effector molecules are proteins. When the crude supernatant of mononuclear leukocytes was fractionated by gel filtration, the stimulating factor(s) eluted as two peaks with apparent molecular weight of 25 to 60 and 15 to 20 kdalton, respectively. As to the cellular origin of the C3-stimulating factor(s), several observations were made: (a) in separate cultures containing either T-cells or monocyte-enriched populations from the same sample of blood mononuclear cells, no activity was detected in the presence or absence of phytohemagglutinin, (b) conditioned media from each of these cultures could not substitute for the corresponding intact cell populations, and (c) the addition of purified T-cells to the monocyte-enriched population in the presence of phytohemagglutinin restored the production of the stimulating activity by the mixed culture. Finally, experiments were carried out to verify whether monokine interleukin 1 affects the hepatic C3 biosynthesis. It was demonstrated that interleukin 1 enhanced this biosynthesis, but could not completely substitute for conditioned medium from stimulated mononuclear cells.