E2F-6, a member of the E2F family that can behave as a transcriptional repressor

Trimarchi, Jeffrey M.; Fairchild, Brian D.; Verona, Raluca; Moberg, Ken; Andon, Nancy; Lees, Jacqueline A.

doi:10.1073/pnas.95.6.2850

Cited by 201 publications

(190 citation statements)

References 36 publications

(40 reference statements)

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“…Consistent with these structural features, this subgroup of E2Fs functions mainly as repressors of E2F target gene expression, and they translocate into the nucleus when in complex with the Rb family of proteins during the G0/G1 phases of the cell cycle (Muller et al, 1997;Verona et al, 1997). E2Fs 6-8, representing the remaining two subgroups, also function as transcriptional repressors (Trimarchi et al, 1998(Trimarchi et al, , 2001de Bruin et al, 2003a;Di Stefano et al, 2003;Attwooll et al, 2004b;Maiti et al, 2005). However, in contrast to E2Fs 1-5, these E2F proteins do not have the Rb-binding sequence at the C-terminus, and therefore their function and regulation are independent of the Rb family of proteins.…”

Section: E2f Transcription Factors In Mammalsmentioning

confidence: 79%

Retinoblastoma family genes

2006

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Section: E2f Transcription Factors In Mammalsmentioning

confidence: 79%

Retinoblastoma family genes

2006

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“…7 E2F-6 does not interact with pocket proteins and functions as a negative regulator of E2F-dependent transcription via complexing with chromatin modifiers. [8][9][10] In untransformed cells, the ability of pRb to bind to E2F is regulated by its cell-cycle-dependent phosphorylation. 11 pRb is unphosphorylated during the G0 and early G1 stages of the cell cycle, and this form binds and inhibits E2F (Figure 1).…”

Section: E2fs In Cell Cycle Controlmentioning

confidence: 99%

Life and death decisions by E2F-1

2003

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Deregulation of the transcription factor E2F-1 is a common event in most human cancers. Paradoxically, E2F-1 has been shown to have the ability to induce both cell cycle progression and programmed cell death, leading potentially to both tumour-promoting as well as tumour-suppressive effects. Although the pathway to cell cycle progression seems straightforward with a number of growth-promoting E2F target genes having been described, the pathways to apoptosis are less well defined and more complex. The discovery that E2F-1 'knockout' mice are highly tumour prone has caused a recent surge in the number of reports relating to programmed cell death. This review focuses on these recent findings, highlighting the way in which they have increased our understanding of E2F-1-induced cell death, as well as indicating the questions that remain. Insight gained as to the role of this intriguing molecule in cancer and its potential for targeted therapy will also be discussed.

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“…Downregulation of expression of the transcription factor and key cell cycle regulator, E2F, is an early event in normal squamous di erentiation (Saunders et al, 1993b). There are currently six known members of the E2F family in humans, E2F-1 to E2F-6 (Kaelin et al, 1992;Shan et al, 1992;Helin et al, 1992;Lees et al, 1993;Ivey-Hoyle et al, 1993;Beijersbergen et al, 1994;Ginsberg et al, 1994;Itoh et al, 1995;Buck et al, 1995;Gaubatz et al, 1998;Trimarchi et al, 1998;Cartwright et al, 1998), which associate with one of two dimerization partners (DP1 and DP2) (Girling et al, 1993;Rogers et al, 1996) to increase the activity of E2F bound to the promoter region of E2F responsive genes. E2F-1 is the best characterized of the family, with evidence implicating it as a key regulator of G1/S phase traverse (Johnson and Schneider-Broussard, 1998;Yee et al, 1998).…”

Section: Introductionmentioning

confidence: 99%

E2F-1 induces proliferation-specific genes and suppresses squamous differentiation-specific genes in human epidermal keratinocytes

et al. 2000

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Squamous di erentiation of keratinocytes is associated with decreases in E2F-1 mRNA expression and E2F activity, and these processes are disrupted in squamous cell carcinoma cell lines. We now show that E2F-1 mRNA expression is increased in primary squamous cell carcinomas of the skin relative to normal epidermis. To explore the relationship between E2F-1 and squamous di erentiation further, we examined the e ect of altering E2F activity in primary human keratinocytes induced to di erentiate. Promoter activity for the proliferationassociated genes, cdc2 and keratin 14, are inhibited during squamous di erentiation. This inhibition can be inhibited by overexpression of E2F-1 in keratinocytes. Overexpression of E2F-1 also suppressed the expression of di erentiation markers (transglutaminase type 1 and keratin 10) in di erentiated keratinocytes. Blocking E2F activity by transfecting proliferating keratinocytes with dominant negative E2F-1 constructs inhibited the expression of cdc2 and E2F-1, but did not induce di erentiation. Furthermore, expression of the dominant negative construct in epithelial carcinoma cell lines and normal keratinocytes decreased expression from the cdc2 promoter. These data indicate that E2F-1 promotes keratinocyte proliferation-speci®c marker genes and suppresses squamous di erentiation-speci®c marker genes. Moreover, these data indicate that targeted disruption of E2F-1 activity may have therapeutic potential for the treatment of squamous carcinomas.

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E2F-6, a member of the E2F family that can behave as a transcriptional repressor

Cited by 201 publications

References 36 publications

Retinoblastoma family genes

Retinoblastoma family genes

Life and death decisions by E2F-1

E2F-1 induces proliferation-specific genes and suppresses squamous differentiation-specific genes in human epidermal keratinocytes

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