An antisense interferon-beta RNA abolishes repression of c-fos gene expression.

To determine the cellular functions which are modified when interferon-beta (IFN-beta) gene expression is inhibited, a plasmid allowing the constitutive expression of RNA complementary to IFN-beta mRNA was constructed and stably introduced into L929 cells. Some of the selected clones expressing this antisense IFN-beta mRNA, named L-ASI, were unable to produce IFN-beta and lost the ability to arrest in the G0 phase of the cell cycle. Indeed, the usual transrepression of the c-fos gene observed in quiescent cells was blocked in IFN-beta antisense L-ASI clones and the c-fos gene was permanently stimulated. This overexpression of c-fos was not modified in response to protein kinase C agonists such as phorbol esters, but increased in response to the adenylate cyclase activator forskolin. In addition, the ability to induce major histocompatibility class I genes following recombinant IFN-beta treatment was impaired in antisense IFN-beta L-ASI clones, suggesting an important alteration of this cell with regard to the interferon system. Unexpectedly, the tumorigenicity of the clones was significantly diminished. We postulate that IFN-beta antisense RNA blocks the repression of the c-fos gene and thus prevents the arrest of cells in the G0 phase of the cycle.