E2F1 messenger RNA is destabilized in response to a growth inhibitor in normal human keratinocytes but not in a squamous carcinoma cell line.

Keratinocyte growth arrest is characterized by a reduction in the activity and expression of E2F1. Here, we examine the role posttranscriptional processing plays in the down-regulation of E2F1 during keratinocyte growth arrest. E2F1 mRNA levels were undetectable within 8 h of exposure to the protein kinase C activator, 12-O-tetradecanoyl-phorbol-13-acetate (TPA). Assays of transcript stability indicated that, in untreated keratinocytes, the t 1/2 of E2F1 mRNA was 6.1 h and, in TPA-treated cells, it was 1.7 h. This destabilization was protein synthesis-dependent. In contrast, a growth inhibitor-resistant carcinoma cell line, SCC25, had a very stable E2F1 half-life that was only moderately reduced following TPA treatment. These data demonstrate that the initiation of keratinocyte growth arrest is associated with a rapid destabilization of E2F1 mRNA. These data are consistent with the proposition that inactivation of the posttranscriptional processing of important growth regulatory genes (e.g., E2F1) may contribute to neoplasia.