The effect of IL-2 treatment on transcriptional attenuation in proto-oncogenes pim-1 and c-myb in human thymic blast cells.

Abstract

IL-2 is the major mitogenic cytokine for mature human T cells. This growth factor has been shown previously to induce the expression of a number of genes, including structural proteins, proto-oncogenes, and metabolic enzymes. Multiple mechanisms, including increases in mRNA stability, protein synthesis, and new transcriptional initiation, have been studied to determine how IL-2 induces such a wide variety of genes. The following studies show that a release of transcriptional attenuation is important in IL-2-induced gene expression. A thymic blast cell system was developed and used to demonstrate that IL-2-deprived cells have a marked attenuation of transcription in the 3' ends of the pim-1 and c-myb genes. IL-2 stimulation removes this attenuation and leads to read-through transcription. This effect is gene-specific, as demonstrated by the fact that GAPDH is not attenuated in unstimulated cells. The IL-2-mediated relief of attenuation occurs within 1 h of IL-2 stimulation and is insensitive to the translation inhibitor cycloheximide, suggesting that new protein synthesis is not necessary. Further, the effect is insensitive to the immunosuppressant cyclosporin A, but is sensitive to rapamycin and the tyrosine kinase inhibitor genistein. These studies demonstrate that release of transcription attenuation is a mechanism used to induce gene expression in response to IL-2 treatment.