Ulrike Haugwitz scite author profile

The tumour suppressor protein p53 has functions in controlling the G(1)/S and G(2)/M transitions. Central regulators for progression from G(2) to mitosis are B-type cyclins complexed with cdc2 kinase. In mammals two cyclin B proteins are found, cyclin B1 and B2. We show that upon treatment of HepG2 cells with 5-fluorouracil or methotrexate, p53 levels increase while concentrations of cyclin B2 mRNA, measured by RT-PCR with the LightCycler system, are reduced. In DLD-1 colorectal adenocarcinoma cells (DLD-1-tet-off-p53) cyclin B1 and B2 mRNA levels drop after expression of wild-type p53 but not after induction of a DNA binding-deficient mutant of p53. Analysis of the cyclin B2 promoter reveals specific repression of this gene by p53. Transfection of wild-type p53 into SaOS-2 cells shuts off transcription from a cyclin B2 promoter-luciferase construct whereas a p53 mutant protein does not. The cyclin B2 promoter does not contain a consensus p53 binding site. Most of the p53-dependent transcriptional responsiveness resides in its 226 bp core promoter. Taken together with earlier observations on p53-dependent transcription of cyclin B1, our results suggest that one way of regulating G(2) arrest may be a reduction in cyclin B levels through p53-dependent transcriptional repression.

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NF-Y Mediates the Transcriptional Inhibition of thecyclin B1, cyclin B2, and cdc25CPromoters upon Induced G2 Arrest

Manni¹,

Mazzaro²,

Gurtner³

et al. 2001

Journal of Biological Chemistry

160

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During normal cell cycles, the function of mitotic cyclin-cdk1 complexes, as well as of cdc25C phosphatase, is required for G 2 phase progression. Accordingly, the G 2 arrest induced by DNA damage is associated with a down-regulation of mitotic cyclins, cdk1, and cdc25C phosphatase expression. We found that the promoter activity of these genes is repressed in the G 2 arrest induced by DNA damage. We asked whether the CCAATbinding NF-Y modulates mitotic cyclins, cdk1, and cdc25C gene transcription during this type of G 2 arrest. In our experimental conditions, the integrity of the CCAAT boxes of cyclin B1, cyclin B2, and cdc25C promoters, as well as the presence of a functional NF-Y complex, is strictly required for the transcriptional inhibition of these promoters. Furthermore, a dominantnegative p53 protein, impairing doxorubicin-induced G 2 arrest, prevents transcriptional down-regulation of the mitotic cyclins, cdk1, and cdc25C genes. We conclude that, as already demonstrated for cdk1, NF-Y mediates the transcriptional inhibition of the mitotic cyclins and the cdc25C genes during p53-dependent G 2 arrest induced by DNA damage. These data suggest a transcriptional regulatory role of NF-Y in the G 2 checkpoint after DNA damage.

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Interactions between p300 and Multiple NF-Y Trimers Govern Cyclin B2 Promoter Function

Salsi

Caretti

Wasner

et al. 2003

Journal of Biological Chemistry

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The CCAAT box is one of the most common elements in eukaryotic promoters and is activated by NF-Y, a conserved trimeric transcription factor with histone-like subunits. Usually one CCAAT element is present in promoters at positions between ؊60 and ؊100, but an emerging class of promoters harbor multiple NF-Y sites. In the triple CCAAT-containing cyclin B2 cell-cycle promoter, all CCAAT boxes, independently from their NF-Y affinities, are important for function. We investigated the relationships between NF-Y and p300. Chromatin immunoprecipitation analysis found that NF-Y and p300 are bound to the cyclin B2 promoter in vivo and that their binding is regulated during the cell cycle, positively correlating with promoter function. Cotransfection experiments determined that the coactivator acts on all CCAAT boxes and requires a precise spacing between the three elements. We established the order of in vitro binding of the three NF-Y complexes and find decreasing affinities from the most distal Y1 to the proximal Y3 site. Binding of two or three NF-Y trimers with or without p300 is not cooperative, but association with the Y1 and Y2 sites is extremely stable. p300 favors the binding of NF-Y to the weak Y3 proximal site, provided that a correct distance between the three CCAAT is respected. Our data indicate that the precise spacing of multiple CCAAT boxes is crucial for coactivator function. Transient association to a weak site might be a point of regulation during the cell cycle and a general theme of multiple CCAAT box promoters.

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Three CCAAT-boxes and a single cell cycle genes homology region (CHR) are the major regulating sites for transcription from the human cyclin B2 promoter

Wasner

Haugwitz

Reinhard

et al. 2003

Gene

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Identification of Tcf-4 as a transcriptional target of p53 signalling

et al. 2004

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Pore-forming Staphylococcus aureus ?-toxin triggers epidermal growth factor receptor-dependent proliferation

et al. 2006

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Cyclin B1 transcription is enhanced by the p300 coactivator and regulated during the cell cycle by a CHR‐dependent repression mechanism

et al. 2003

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Cyclin B is a central regulator of transition from the G 2 phase of the cell cycle to mitosis. In mammalian cells two B-type cyclins have been characterised, cyclin B1 and B2. Both are expressed with a maximum in G 2 and their synthesis is mainly regulated on the transcriptional level. We show that a single cell cycle genes homology region, lacking a functional cell cycle-dependent element in tandem with it, contributes most of the cell cycle-dependent transcription from the cyclin B1 promoter. The coactivator p300 binds to the cyclin B1 promoter and synergises with the transcription factor NF-Y in activating transcription of cyclin B1. ß

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Decreased expression of p27 protein is associated with advanced tumor stage in hepatocellular carcinoma

et al. 2000

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Ulrike Haugwitz

The tumour suppressor protein p53 can repress transcription of cyclin B

NF-Y Mediates the Transcriptional Inhibition of thecyclin B1, cyclin B2, and cdc25CPromoters upon Induced G2 Arrest

Interactions between p300 and Multiple NF-Y Trimers Govern Cyclin B2 Promoter Function

Three CCAAT-boxes and a single cell cycle genes homology region (CHR) are the major regulating sites for transcription from the human cyclin B2 promoter

Identification of Tcf-4 as a transcriptional target of p53 signalling

Pore-forming Staphylococcus aureus ?-toxin triggers epidermal growth factor receptor-dependent proliferation

Cyclin B1 transcription is enhanced by the p300 coactivator and regulated during the cell cycle by a CHR‐dependent repression mechanism

Decreased expression of p27 protein is associated with advanced tumor stage in hepatocellular carcinoma

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