Retinoblastoma and p
            <i>53</i>
            tumor suppressor genes in human hepatoma cell lines

Puisieux, Alain; Galvin, Katherine; Troalen, Frédéric; Bressac, Brigitte; Marçais, Christophe; Galun, Eithan; Ponchel, Frédérique; Yakıcıer, Cengiz; Ji, Jingwei; Öztürk, Mehmet

doi:10.1096/fasebj.7.14.8224613

Cited by 123 publications

(95 citation statements)

References 29 publications

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“…Actually, LY294002 slightly arrested cell cycle at G 1 phase in 293T cells (Figure 1e). In contrast, LY294002 drastically induced G 1 arrest in HepG2, Raji and WT MEF cells (Figures 1e and 6), which contain normal Rb as a tumor suppressor gene product (Puisieux et al, 1993;Wells et al, 2003). These findings suggest that LY294002-mediated G 1 arrest is induced by Rb-dependent and -independent pathways.…”

Section: Discussionmentioning

confidence: 87%

FOXO transcription factor-dependent p15INK4b and p19INK4d expression

et al. 2007

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Section: Discussionmentioning

confidence: 87%

FOXO transcription factor-dependent p15INK4b and p19INK4d expression

et al. 2007

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“…To con®rm our results in cells that are free from viral sequences and express p53 wt, we examined transcription from the hp53-promoter in exponentially growing HepG2 hepatoma cells (Bressac et al, 1990;Puisieux et al, 1993;Ho et al, 1996;Jiang et al, 1996). As for HeLa cells, transcription from the hp53 promoter was suppressed to nearly control levels when the AP-1 or the NF-kB motif was mutated (M1 and M3, respectively; Figure 2c) and reduced about threefold upon mutation of the Myc/Max/USF motif (M4, Figure 2c).…”

Section: Comparison Of the Human And Mouse P53 Promotersmentioning

confidence: 78%

“…E cient transcription from the hp53 promoter was independent from the presence of a functional p53-protein: Transcription from the hp53 promoter was as e cient in Hep3B cells (data not shown) that do not express p53 (Farshid and Tabor, 1992) as in HepG2 cells that contain unaltered and functionally active p53 (Farshid and Tabor, 1992;Bressac et al, 1990;Puisieux et al, 1993;Ho et al, 1996;Jiang et al, 1996). In addition, treatment of growing cells with a functional antisense p53 oligonucleotide did not alter transcription as compared with the control level.…”

Section: Expression Of Endogenous P53 Is Repressed By Ap-1 Nf-kb Andmentioning

confidence: 98%

“…via c-Fos-or p50 NF-kB1 -transactivated proteins, mandatory for the e cient transcription from the hp53 promoter. Second, the hp53 promoter does not seem to be autoregulated, since a reduction of transcription after pretreatment of the cells with p53 antisense oligonucleotides was not detected in HepG2 cells that express p53 wt (Bressac et al, 1990;Puisieux et al, 1993;Ho et al, 1996;Jiang et al, 1996).…”

Section: Comparison Of the Human And Mouse P53 Promotersmentioning

confidence: 99%

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Expression of human p53 requires synergistic activation of transcription from the p53 promoter by AP-1, NF-κB and Myc/Max

et al. 1999

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Transcriptional control of p53 expression participates in the generation of appropriate levels of active p53 in response to mitogenic stimulation. This prompted us to study the role of a putative AP-1 and a NF-kB motif in the human p53 promoter for transcriptional regulation. We show that mutation of the AP-1 or the NF-kB motif abolishes transcription from the human p53 promoter in HeLa, HepG2 and adenovirus type 5 E1-transformed 293 cells. In comparison, mutation of the previously characterized Myc/Max/USF binding site in the human p53 promoter reduces the transcription rate ®vefold. The AP-1 motif in the human p53 promoter binds c-Fos and c-Jun and the NF-kB motif binds p50 NF-kB1 and p65 RelA . The cooperative nature of transcriptional activation by these factors was documented by repression of c-fos or NF-kB1 translation: Pretreatment of the cells with a cfos or p50 NF-kB1 antisense oligonucleotide suppresses transcription from the human p53 promoter completely. In addition, we show that (a) the level of endogenous p53 mRNA and (b) transcription from the strictly p53-dependent human mdm2 promoter are reduced in the presence of c-fos, c-jun, p50 NF-kB1 , p65 RelA or c-myc antisense oligonucleotides, underscoring the importance of these transcription factors for the expression of functional p53.

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“…To determine whether p73 in¯uences endogenous p53 activity, HepG2 and MCF-7 cells, which are known to produce wild-type p53 protein (Bartek et al, 1990;Puisieux et al, 1993;Tominaga et al, 1993), were used for reporter gene assay (Figure 4). Cotransfection of negative control vector with the reporter plasmid resulted in marked elevation of luciferase activity possibly by endogenous wild-type p53.…”

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confidence: 99%

New p73 variants with altered C-terminal structures have varied transcriptional activities

et al. 1999

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p73 has been identi®ed as a protein which shares signi®cant homology with the tumor suppressor p53. We found two new types of splicing variant mRNAs for p73 expressed in MCF-7 cells which we named p73g and e. Sequence analysis revealed that these mRNAs encode variant p73 proteins bearing distinct carboxy-terminal structures, which are also di erent from the previously reported variants p73a and b. The mRNAs encoding p73g and e as well as a and b were con®rmed to be expressed in normal human tissues in varied patterns. All of these splicing variants activated promoter with the p53-binding consensus sequence, but to di erent degrees. Furthermore, suppressive e ects of p73a, g and e, but not b, on endogenous p53 activity were observed when transiently expressed in HepG2 and MCF-7 cells. These results suggested that the carboxy-terminal regions of p73 which were altered by alternative splicing a ect these transactivation abilities and modulate the functions of p73 molecules.

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Retinoblastoma and p 53 tumor suppressor genes in human hepatoma cell lines

Cited by 123 publications

References 29 publications

FOXO transcription factor-dependent p15INK4b and p19INK4d expression

FOXO transcription factor-dependent p15INK4b and p19INK4d expression

Expression of human p53 requires synergistic activation of transcription from the p53 promoter by AP-1, NF-κB and Myc/Max

New p73 variants with altered C-terminal structures have varied transcriptional activities

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