Overexpression of the E2F-1 transcription factor gene mediates cell transformation.

The E2F transcription factor can regulate expression of numerous cellular genes controlling proliferation, including proto-oncogenes and genes regulating cell cycle progression. Therefore, genes comprising the E2F gene family could potentially contribute to carcinogenesis. To test the potential of E2F to act as a transforming gene, a cDNA encoding E2F-1 was constitutively overexpressed in established rodent cells using a retroviral vector. Overexpressed E2F-1 was functional, as shown by stimulation of a transfected adenovirus E2 promoter driving a chloramphenicol acetyltransferase reporter gene in E2F-1 overexpressing cells. This stimulation was dependent on functional E2F binding sites in the promoter. Examination of phenotype showed that E2F-1 overexpression mediated cell transformation as measured by the ability of cells to form colonies in soft agar medium. In addition, overexpressed E2F-1 shortened the duration of the G1 cell cycle phase in proliferating cells, a property characteristic of other transforming genes. These data provide direct evidence that E2F-1 can act as a transforming gene and a critical regulator of cell cycle progression and suggest the possibility of E2F involvement in carcinogenesis.