D. Gale Johnson scite author profile

Several lines of evidence implicate the E2F transcription factor as an important component of cell proliferation control. First, E2F binding sites are found in the promoters of genes responsive to proliferation signals and the level of E2F binding activity increases at a time when many of these genes are activated. Second, the tumour suppressor protein Rb, as well as the related p107 protein, complexes with E2F, resulting in an inhibition of E2F transcriptional activity. Third, oncogenic products of the DNA tumour viruses can dissociate these E2F complexes. We provide here direct evidence that E2F is involved in cellular proliferation control. Specifically, we demonstrate that overexpression of the E2F1 complementary DNA can activate DNA synthesis in cells that would otherwise growth-arrest, with an efficiency that is similar to that achieved by the expression of the adenovirus E1A gene. Moreover, microinjection of the E2F1 cDNA into quiescent cells can induce S-phase entry, whereas two E2F1 mutants, which are unable to transactivate the DHFR and TK promoters, are unable to induce S phase. We conclude that the E2F transcription factor plays an important role in progression into S phase and that this probably coincides with its capacity to stimulate transcription.

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Autoregulatory control of E2F1 expression in response to positive and negative regulators of cell cycle progression.

Johnson¹,

Ohtani²,

Nevins³

1994

Genes Dev.

487

474

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Both positive and negative signals govern the progression of cells from G1 into S phase, and a variety of data implicate the E2F transcription factor as a target for the action of one class of negative regulators, the Rb family of growth suppressors. We now find that the E2F1 gene, which encodes one of the components of E2F activity, is subject to autoregulatory control during progression from Go to S phase and that this primarily reflects a negative control in Go and early G1, a time when the majority of E2F activity exits as a complex with Rb family members. In addition, we find that deregulated expression of G1 cyclins in quiescent cells stimulates the E2F1 promoter and that this is augmented by coexpression of cyclin-dependent kinases in an E2F-dependent manner. We conclude that the E2F1 gene is a downstream target for G1 cyclin-dependent kinase activity, most likely as a consequence of phosphorylation of Rb family members, and that the autoregulation of E2F1 transcription may provide a sensitive switch for regulating the accumulation of E2F activity during the transition from G~ to S phase.

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Cyclins and Cell Cycle Checkpoints

Johnson

Walker

1999

Annu. Rev. Pharmacol. Toxicol.

614

464

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The eucaryotic cell cycle is regulated by the periodic synthesis and destruction of cyclins that associate with and activate cyclin-dependent kinases. Cyclin-dependent kinase inhibitors, such as p21 and p16, also play important roles in cell cycle control by coordinating internal and external signals and impeding proliferation at several key checkpoints. Understanding how these proteins interact to regulate the cell cycle has become increasingly important to researchers and clinicians with the discovery that many of the genes that encode cell cycle regulatory activities are targets for alterations that underlie the development of cancer. Several therapeutic agents, such as DNA-damaging drugs, microtubule inhibitors, antimetabolites, and topoisomerase inhibitors, take advantage of this disruption in normal cell cycle regulation to target checkpoint controls and ultimately induce growth arrest or apoptosis of neoplastic cells. Other therapeutic drugs being developed, such as UCN-01, specifically inhibit cell cycle regulatory proteins.

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D. Gale Johnson

Expression of transcription factor E2F1 induces quiescent cells to enter S phase

Autoregulatory control of E2F1 expression in response to positive and negative regulators of cell cycle progression.

Cyclins and Cell Cycle Checkpoints

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