Treatment of EMT-6 mammary adenocarcinoma cells with gamma interferon (rMuIFN gamma) plus tumor necrosis factor (rMuTNF alpha) and/or interleukin-1 (rHuIL-1 alpha) causes release of iron-55 label, inhibition of DNA replication, and inhibition of aconitase activity. In addition, the same combinations of cytokines induce EMT-6 cells to synthesize L-citrulline, nitrite, and nitrate directly from L-arginine. Lipopolysaccharide (LPS) can act as a cofactor in the induction of these metabolic effects when added to EMT-6 cells in the presence of rMuIFN gamma. The results show that increased levels of cytokines in the microenvironment can induce a novel effector pathway in somatic cells not specialized for host defense, resulting in specific metabolic effects as well as the inhibition of cellular proliferation.
Conditioned medium (CM) from cultures of cytotoxic activated macrophages causes inhibition of mitochondrial respiration, DNA synthesis, and aconitase activity in murine EMT-6 mammary adenocarcinoma cells by an L-arginine dependent effector mechanism. CM induces cytotoxicity and nitrite synthesis in EMT-6 cells in a dose dependent manner. We have identified the soluble factors in CM that induce cytotoxicity and synthesis of inorganic nitrogen oxides from L-arginine by EMT-6 cells. Using functional inhibition experiments, the activity of lipopolysaccharide (LPS), tumor necrosis factor alpha (TNF alpha), and interferon gamma (IFN gamma) in CM was investigated. The LPS inhibitor polymyxin B and TNF alpha antibody produced a modest decrease in nitrite production, while IFN gamma antibody markedly inhibited both nitrite production and cytostasis. Simultaneous treatment with polymyxin B, TNF alpha antibody, and IFN gamma antibody reduced EMT-6 cell nitrite production by 81%, and cytostasis by 74%. By Western blot, IFN gamma and TNF alpha were shown to be present in CM. When CM was subjected to hydrophobic interaction chromatography, a single peak of activity was eluted, and Western blot showed that the active fractions contained IFN gamma. Furthermore, IFN gamma antibody neutralized the activity in these chromatographic fractions. We conclude that induction of inorganic nitrogen oxide synthesis from L-arginine by the synergistic combination of IFN gamma, TNF alpha, and LPS accounts for most of the biologic activity of CM, and that IFN gamma is the major priming factor.
Culture medium conditioned by incubation with murine cytotoxic activated macrophages causes release of iron-55 label from viable murine EMT-6 tumor cells as well as inhibition of DNA replication and aconitase activity. These metabolic changes occur in parallel with L-citrulline, nitrate, and nitrate synthesis from L-arginine by EMT-6 cells. Protein synthesis is required for activation of this effector mechanism. Once the effector pathway is induced in EMT-6 cells in the presence of amino acids, L-arginine is the only amino acid required for its function. Arginase inhibits the effector mechanism, which is additional evidence for its specific L-arginine requirement. The results show induction, in a non-macrophage cell line, of a novel effector pathway which, in addition to other effects, inhibits cellular proliferation.
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