Mechanism of macrophage-mediated cytotoxicity: production of a soluble cytotoxic factor.

Peritoneal macrophages from C3HeB/FeJ mice became cytotoxic for 6C3HED lymphosarcoma cells, P815 mastocytoma cells, and L-929 fibroblasts when treated with the calcium ionophore, A23187, at concentrations ranging from 1.0 to 20 microM. The effect of A23187 on other activation processes was also tested. It was found that A23187 and lipopolysaccharide (LPS) acted synergistically, but no consistent synergy with macrophage-activating factor (MAF) was observed. Cytotoxic activity (M phi-CF) was found in cellfree supernatants from M phi activated by A23187 or LPS. Furthermore, these two activating agents synergize in the production of M phi-CF. The cytotoxic activity of the crude material was not blocked by catalase or protease inhibitors. Fractionation of supernatants by high pressure liquid chromatography has shown that there was a peak of cytotoxic activity with a m.w. of approximately 45,000. Interestingly, L-929 cells were 30-fold more sensitive to M phi-CF than a lymphotoxin-resistant subline of L-929.

[1]  D. Männel,et al.  Macrophages as a source of tumoricidal activity (tumor-necrotizing factor) , 1980, Infection and immunity.

[2]  M. Fishman Functional heterogeneity among peritoneal macrophages. III. No evidence for the role of arginase in the inhibition of tumor cell growth by supernatants from macrophages or macrophage subpopulation cultures. , 1980, Cellular immunology.

[3]  T. Hugli,et al.  Inability of the C3a anaphylatoxin to promote cellular lysis , 1980, Nature.

[4]  S. Pizzo,et al.  Effector mechanisms of cytolytically activated macrophages. II. Secretion of a cytolytic factor by activated macrophages and its relationship to secreted neutral proteases. , 1980, Journal of immunology.

[5]  C. Nathan,et al.  Extracellular cytolysis by activated macrophages and granulocytes. II. Hydrogen peroxide as a mediator of cytotoxicity , 1979, The Journal of experimental medicine.

[6]  G. Currie Activated macrophages kill tumour cells by releasing arginase , 1978, Nature.

[7]  C. Nathan,et al.  Hydrogen peroxide release from mouse peritoneal macrophages: dependence on sequential activation and triggering , 1977, The Journal of experimental medicine.

[8]  R. Jackson,et al.  Biochemical characterization of a factor released by macrophages. , 1975, Cellular immunology.

[9]  M. Smith,et al.  Antibody-mediated suppression of grafted lymphoma. III. Evaluation of the role of thymic function, non-thymus-derived lymphocytes, macrophages, platelets, and polymorphonuclear leukocytes in syngeneic and allogeneic hosts. , 1975, Journal of immunology.

[10]  V. Nussenzweig,et al.  PHAGOCYTOSIS OF IMMUNE COMPLEXES BY MACROPHAGES , 1972, The Journal of experimental medicine.

[11]  P. Alexander,et al.  Rendering macrophages specifically cytotoxic by a factor released from immune lymphoid cells. , 1971, Transplantation.

[12]  R. Evans,et al.  Endotoxin and double stranded RNA render macrophages cytotoxic. , 1971, Nature: New biology.