Effect of interferon on secretion of proteins by various murine cell lines

Purification and N-terminal sequence of a novel interferon-induced 100 kD protein secreted by mouse Ehrlich ascites tumor cells

Mouse Ehrlich ascites tumor cells secrete a 100 kD protein when they are stimulated by murine interferon-beta (2000 IU/ml). This 100 kD protein was purified from conditioned medium by chromatography on phenyl-Sepharose CL-4B, phosphocellulose, DEAE-Sephacel, and Vydac C4 columns and preparative sodium dodecyl sulfate-polyacrylamide gel electrophoresis. A single species of 100 kD protein was isolated, and its N-terminal sequence analysis suggested that mouse Ehrlich ascites tumor cell-derived interferon-induced 100 kD protein is a novel protein.

Interferon suppresses sympathetic neuronal cell death caused by nerve growth factor deprivation

Cultured rat sympathetic neurons die within 48 h after being deprived of nerve growth factor. Addition of interferons (IFN-alpha/beta or IFN-gamma) prevented the cell death in a dose-dependent manner. Upon longer periods of nerve growth factor deprivation, IFNs failed to maintain survival. Thus, IFNs retarded neuronal death, but did not prevent it. Ligand binding, autoradiography, and cross-linking experiments demonstrated the presence of specific IFN-gamma receptors on sympathetic neurons similar to those seen on other cell types. The possible relationships of the death-suppressing actions of IFNs are compared to the mechanisms of the antiviral or antiproliferative actions of IFNs.

Interferon alters the pattern of secreted proteins from Ehrlich ascites-tumour cells

Treatment of Ehrlich ascites-tumour (EAT) cells with interferon (IFN) abolished their ability to secrete a 32 kDa protein that was secreted by growing EAT cells. These IFN-treated cells secreted two proteins (molecular masses 100 and 89 kDa as estimated by SDS/polyacrylamide-gel electrophoresis) that were not detected in two-dimensional gel electrophoresis of the culture fluid of untreated EAT cells. The sequence of 20 amino acids from the N-terminal end of the 32 kDa protein was very similar to portions of sequences of mouse proviral gag proteins.