E2F and Ras Synergize in Transcriptionally Activating p14ARF Expression

The INK4a/ARF locus, which is frequently inactivated in human tumors, encodes two distinct tumor suppressive proteins, ARF and p16^INK4a. ARF stabilizes and activates p53 by negating the effects of mdm2 on p53. Furthermore, its function is not restricted to the p53 pathway and it also inhibits cell proliferation in cells lacking p53. Expression of ARF is up-regulated in response to a number of oncogenic stimuli including E2F1. We show here that while oncogenic Ras does not significantly affect p14^ARF expression in normal human cells it activates p14^ARF in cells containing deregulated E2F. Moreover, oncogenic Ras and E2F1 synergize in activating p14^ARF expression. Activation of p14^ARF promoter by E2F1 persists in the absence of the consensus E2F-binding sites in this promoter, indicating that this activation also occurs through non- canonical binding sites. The activation by oncogenic Ras requires both E2F and Sp-1 activity, demonstrating the complex regulation of p14^ARF in response to oncogenic stimuli.     

E2F and Ras synergize in transcriptionally activating p14ARF expression

The INK4a/ARF locus, which is frequently inactivated in human tumors, encodes two distinct tumor suppressive proteins, ARF and p16INK4a. ARF stabilizes and activates p53 by negating the effects of mdm2 on p53. Furthermore, its function is not restricted to the p53 pathway and it also inhibits cell proliferation in cells lacking p53. Expression of ARF is up-regulated in response to a number of oncogenic stimuli including E2F1. We show here that while oncogenic Ras does not significantly affect p1(4AR)F expression in normal human cells it activates p1(4AR)F in cells containing deregulated E2F. Moreover, oncogenic Ras and E2F1 synergize in activating p1(4AR)F expression. Activation of p1(4AR)F promoter by E2F1 persists in the absence of the consensus E2F-binding sites in this promoter, indicating that this activation also occurs through non- canonical binding sites. The activation by oncogenic Ras requires both E2F and Sp-1 activity, demonstrating the complex regulation of p14(ARF) in response to oncogenic stimuli.     

p14ARF inhibits the growth of p53 deficient cells in a cell-specific manner

While p14(ARF) suppression of tumorigenesis in a p53-dependent manner is well studied, the mechanism by which p14(ARF) inhibits tumorigenesis independently of p53 remains elusive. A variety of factors have been reported to play a role in this latter process. We report here that p14(ARF) displays different effects on the anchorage-dependent and -independent growth of p53-null/Mdm2 wild type cells. p14(ARF) blocks both the anchorage-dependent and-independent (soft agar) proliferation of 293T and p53(-/-) HCT116, but not p53-null H1299 lung carcinoma cells. While p14(ARF) had no effect on the anchorage-dependent proliferation of p53(-/-) MEFs and Ras12V-transformed p53(-/-) MEFs, it inhibited the growth of Ras12V-transformed p53(-/-) MEFs in soft agar. Furthermore, ectopic expression of p14(ARF) did not lead to degradation of the E2F1 protein and did not result in the reduction of E2F1 activity detected by two E2F1 responsible promoters, Apaf1 and p14(ARF) promoter, in 293T, p53(-/-) HCT116, and H1299 cells. This is consistent with our observations that p14(ARF) did not result in G1 arrest, but induced apoptosis via Bax up-regulation. Taken together, our data demonstrate that the response of p53-null cells to ARF is cell type dependent and involves factors other than Mdm2 and E2F1.     

Distinct E2F-mediated transcriptional program regulates p14ARF gene expression

The tumor suppressor p14(ARF) gene is induced by ectopically expressed E2F, a positive regulator of the cell cycle. The gene is expressed at low levels in normally growing cells in contrast to high levels in varieties of tumors. How p14(ARF) gene is regulated by E2F in normally growing cells and tumor cells remains obscure. Here we show that regulation of p14(ARF) gene by E2F is distinct from that of classical E2F targets. It is directly mediated by E2F through a novel E2F-responsive element that varies from the typical E2F site. The element responds to E2F activity resulting from ectopic E2F1 expression, inactivation of pRb by adenovirus E1a or shRNA, but not to phosphorylation of pRb by serum stimulation or ectopic cyclin D1/cyclin-dependent kinase-4 expression in normal human fibroblasts. The element has activity in various tumor cells with defective pRb, but not in normally growing cells. These results indicate that the distinct regulation constitutes the basis of p14(ARF) function as a tumor suppressor, discriminating abnormal growth signals caused by defects in pRb function from normal growth signals.