Our data suggest that a direct involvement of E2F4 in tumorigenesis is unlikely, although increased E2F4 expression may be associated with human cancer.
The frequency of the E2F-4 mutation in HNPCC was comparable with that in sporadic CRC with MSI-H. E2F-4 was considered to be one of the important target genes responsible for the carcinogenesis of HNPCC.
E2F-4 is a member of the E2F family, located at chromosome band 16q22.1, that shows frequent deletion in breast cancer, suggesting that it may function as a TSG in breast carcinogenesis.
We report here a new cellular function of p27 as a transcriptional regulator in association with p130/E2F4 complexes that could be relevant for tumorigenesis.
This could mean that increased nuclear export (of, for instance, pRb, p53, p73, BRCA1, p21, p27, E2F4, IκB, survivin), rather than spindle defects, mainly drives CIN and tumorigenesis.
The results of the present study demonstrated that E2F4 methylation status can have a notable influence on its expression, and that it may have prognostic value in breast carcinogenesis.