A protein synthesis-dependent increase in E2F1 mRNA correlates with growth regulation of the dihydrofolate reductase promoter.

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Mol Cell Biol. 1993 March; 13(3): 1610-1618

A protein synthesis-dependent increase in E2F1 mRNA correlates with growth regulation of the dihydrofolate reductase promoter.

J E Slansky, Y Li, W G Kaelin and P J Farnham

McArdle Laboratory for Cancer Research, University of Wisconsin, Madison 53706.

ABSTRACT

Enhanced expression of genes involved in nucleotide biosynthesis,such as dihydrofolate reductase (DHFR), is a hallmark of entranceinto the DNA synthesis (S) phase of the mammalian cell cycle.To investigate the regulated expression of the DHFR gene, westimulated serum-starved NIH 3T3 cells to synchronously reenterthe cell cycle. Our previous results show that a cis-actingelement at the site of DHFR transcription initiation is necessaryfor serum regulation. Recently, this element has been demonstratedto bind the cloned transcription factor E2F. In this study,we focused on the role of E2F in the growth regulation of DHFR.We demonstrated that a single E2F site, in the absence or presenceof other promoter elements, was sufficient for growth-regulatedpromoter activity. Next, we showed that the increase in DHFRmRNA at the G1/S-phase boundary required protein synthesis,raising the possibility that a protein(s) lacking in serum-starvedcells is required for DHFR transcription. We found that, similarto DHFR mRNA expression, levels of murine E2F1 mRNA were lowin serum-starved cells and increased at the G1/S-phase boundaryin a protein synthesis-dependent manner. Furthermore, in a cotransfectionexperiment, expression of human E2F1 stimulated the DHFR promoter22-fold in serum-starved cells. We suggest that E2F1 may bethe key protein required for DHFR transcription that is absentin serum-starved cells. Expression of E2F also abolished theserum-stimulated regulation of the DHFR promoter and resultedin transcription patterns similar to those seen with expressionof the adenoviral oncoprotein E1A. In summary, we provide evidencefor the importance of E2F in the growth regulation of DHFR andsuggest that alterations in the levels of E2F may have severeconsequences in the control of cellular proliferation.

Mol Cell Biol. 1993 March; 13(3): 1610-1618

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