EC:2.7.11.22 - FACTA Search

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Query: EC:2.7.11.22 (cdc2)
8,319 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The transcriptional coactivators p300 and CREB binding protein (CBP) are important regulators of the cell cycle, differentiation, and tumorigenesis. Both p300 and CBP are targeted by viral oncoproteins, are mutated in certain forms of cancer, are phosphorylated in a cell cycle-dependent manner, interact with transcription factors such as p53 and E2F, and can be found complexed with cyclinE-Cdk2 in vivo. Moreover, p300-deficient cells show defects in proliferation. Here we demonstrate that transcriptional activation by both p300 and CBP is stimulated by coexpression of the cyclin-dependent kinase inhibitor p21(WAF/CIP1). Significantly this stimulation is independent of both the inherent histone acetyltransferase (HAT) activity of p300 and CBP and of the previously reported carboxyl-terminal binding site for cyclinE-Cdk2. Rather, we describe a previously uncharacterized transcriptional repression domain (CRD1) within p300. p300 transactivation is stimulated through derepression of CRD1 by p21. Significantly p21 regulation of CRD1 is dependent on the nature of the core promoter. We suggest that CRD1 provides a novel mechanism through which p300 and CBP can switch activities between the promoters of genes that stimulate growth and those that enhance cell cycle arrest.
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PMID:A novel transcriptional repression domain mediates p21(WAF1/CIP1) induction of p300 transactivation. 1073 70

Retinoic acid (RA) has been shown to be effective in suppressing premalignant lesions and preventing second primary malignancies in patients cured of squamous cell carcinoma of the head and neck. However, the precise mechanisms of these effects are still uncertain. In the present study, we examined the effect of 9-cis-RA on the growth of six oral cancer cell lines (HSC-2, HSC-3, HSC-4, Ca9-22, Ho-1-N-1 and Ho-1-u-1). In addition, the relationship among growth and differentiation of tumor cells, RA responsiveness and the expression of nuclear retinoic acid receptors were also investigated. Among the six cell lines examined, five (HSC-2, HSC-3, HSC-4, Ca9-22 and Ho-1-u-1) displayed growth inhibition after treatment with 1x10(-6) M 9-cis-RA, while Ho-1-N-1 cells were resistant to 9-cis-RA. The expression level of RARbeta in 9-cis-RA resistant Ho-1-N-1 cells was very low in comparison with the sensitive cell lines. On the other hand, all of the six the cell lines expressed RARalpha, RARgamma, and RXRalpha at various levels. 9-cis-RA induced accumulation of cell population in G1 phase in HSC-3 cells on the 6th day of the treatment, followed by a marked reduction in the levels of hyperphosphorylated pRB, whereas p53 level was not altered. Interestingly, 9-cis-RA induced transiently the expression of p21(Waf1/Cip1), p27(Kip1), p300, CBP, BAX, Bak and bcl-2 proteins, respectively. This effect was associated with reduction of cyclin D1, cdk4 and CDK-activating kinase (cyclin H and cdk7) protein in HSC-3 cells. These results suggest that the growth inhibitory effect of 9-cis-RA on oral squamous cell carcinoma may depend on the expression levels of RARs, especially RARbeta proteins and RXRalpha proteins, and that 9-cis-RA may provide a powerful therapeutic agent for head and neck cancers.
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PMID:Effect of 9-cis-retinoic acid on oral squamous cell carcinoma cell lines. 1073 15

The E2F proteins form a family of transcription factors that regulate the transition from the G1 to the S phase in the cell cycle. E2F activity is regulated by members of the retinoblastoma protein (pRb) family, ensuring the tight control of E2F-responsive genes. During the G1 phase, phosphorylation of pRb by cyclin-dependent kinases (CDKs), most notably cyclin D-CDK complexes, releases pRb from E2F, facilitating cell-cycle progression by the timely induction of E2F-targeted genes such as cyclin E. However, it is not known whether E2F proteins are directly targeted by CDKs. Here we show that E2F-5 is phosphorylated by the cyclin E-Cdk2 complex, which functions in the late G1 phase, but not by the early-G1-phase-acting cyclin D-CDK complex. A phosphorylation site in the trans-activation domain of E2F-5 stimulates transcription and cell-cycle progression by the recruitment of the p300/CBP family of co-activators, whose binding to E2F-5 is stabilized upon phosphorylation by cyclin E-Cdk2. These results indicate that E2F activity may be directly regulated by cyclin E-Cdk2, and imply an autoregulatory mechanism for cell-cycle-dependent transcription through the CDK-stimulated interaction of E2F with p300/CBP co-activators.
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PMID:Regulation of E2F transcription by cyclin E-Cdk2 kinase mediated through p300/CBP co-activators. 1078 42

Activation of the transcription unit early region 2 (E2) promoter of the oncogenic adenovirus serotype 12 (Ad12), which regulates the expression of proteins essential for viral replication, requires the assembly of a ternary complex consisting of cAMP response element-binding protein (CREB)-1/activating transcription factor (ATF)-1, the Ad12 12S oncogene product of early region 1A (E1A(12S)), and the co-activator p300/CBP on the E2(Ad12) cAMP response element (E2-CRE). Here we show that the active E2(Ad12) promoter is associated with acetylated histone H4 whereas an E2-CRE point-mutated promoter which is transcriptionally inactive due to its inability to assemble this ternary complex is not bound by acetylated histone H4. The histone deacetylase 1 as well as Roscovitine, which blocks the activation of the histone acetyltransferase (HAT) activity of CBP by cyclin E-Cdk2, prevents E2(Ad12) promoter activation through E1A(12S). p300/CBP counteracts the repressive function of histone deacetylase 1 in a HAT domain-dependent manner whereas the p300/CBP-associated factor PCAF failed to rescue E2(Ad12) promoter activity. E1A(12S) bound p300/CBP displays strong HAT activity. Most interestingly, E1A(12S)-mediated activation of the E2(Ad12) promoter correlates well with the ability of the viral protein to associate with the HAT activity of p300/CBP in vivo. Taken together these data indicate that the recruitment of the HAT activity of p300/CBP by E1A(12S) plays an important role in E2(Ad12) promoter activation.
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PMID:E1A12S-mediated activation of the adenovirus type 12 E2 promoter depends on the histone acetyltransferase activity of p300/CBP. 1100 73

By utilizing a human cDNA expression array blot (588 genes), we have observed overexpression of various transcription factors, cell cycle regulated kinases, and DNA repair genes in HTLV-1-infected T cells. One of the genes of interest, and focus in this study, is the cyclin-dependent kinase inhibitor, p21/waf1. The p21/waf1 transcription and protein is overexpressed in all HTLV-1-infected cell lines tested as well as ATL and HAM/TSP patient samples. While p21/waf1 has been shown to display a selectivity for G(1)/S cyclin/cdk complexes, we have observed p21/waf1 to be complexed with cyclin A/cdk2. Functionally, the association of p21/cyclin A/cdk2 decreased the histone H1 phosphorylation in vitro, as observed in immunoprecipitations followed by kinase assays, as well as affecting other substrates such as the C-terminus of Rb protein involved in c-Abl and HDAC1 regulation. Wild-type, but not a mutant form (M47) of Tax, was found to be able to transactivate the p21/waf1 promoter in a p53-independent manner. We found that the minimal p21/waf1 promoter (-49 to +49 sequence) was activated by Tax and the minimal promoter contained two E2A transcription factor binding sites located between the TATA box and the initiation site. E2A proteins, E12 and E47, as well as a related helix-loop-helix protein, HEB, are all up-regulated in HTLV-1-infected T cells. When using band shift analysis, we found that only the E1 site (overlapping the transcription start site) was a functional DNA binding site. By using a chromatin immunoprecipitation (ChIP) assay, we observed that histone H4, and not histone H3, was acetylated from the endogenous p21/waf1 promoter in vivo, implying that CBP/p300, and not the SAGA complex, was critical in complexing with E2A in up-regulation of p21/waf1 in HTLV-1-infected cells.
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PMID:Gene expression array of HTLV type 1-infected T cells: Up-regulation of transcription factors and cell cycle genes. 1108 Aug 12

A major impediment to successful chemotherapy is the propensity for some tumor cells to undergo cell cycle arrest rather than apoptosis. It is well established, however, that the adenovirus E1A protein can sensitize these cells to the induction of apoptosis by anticancer agents. To further understand how E1A enhances chemosensitivity, we have made use of a human colon carcinoma cell line (HCT116) which typically undergoes cell cycle arrest in response to chemotherapeutic drugs. As seen by the analysis of E1A mutants, we show here that E1A can induce apoptosis in these cells by neutralizing the activities of the cyclin-dependent kinase inhibitor p21. E1A's ability to interact with p21 and thereby restore Cdk2 activity in DNA-damaged cells correlates with the reversal of G(1) arrest, which in turn leads to apoptosis. Analysis of E1A mutants failing to bind p300 (also called CBP) or Rb shows that they are almost identical to wild-type E1A in their ability to initially overcome a G(1) arrest in cells after DNA damage, while an E1A mutant failing to bind p21 is not. However, over time, this mutant, which can still target Rb, is far more efficient in accumulating cells with a DNA content greater than 4N but is similar to wild-type E1A and the other E1A mutants in releasing cells from a p53-mediated G(2) block following chemotherapeutic treatment. Thus, we suggest that although E1A requires the binding of p21 to create an optimum environment for apoptosis to occur in DNA-damaged cells, E1A's involvement in other pathways may be contributing to this process as well. A model is proposed to explain the implications of these findings.
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PMID:Inactivation of p21 by E1A leads to the induction of apoptosis in DNA-damaged cells. 1155 18

HTLV-1 is the etiologic agent for adult T-cell leukemia/lymphoma (ATL) and HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP), where viral replication and transformation are largely dependent upon modification of regulatory and host cell cycle proteins. The mechanism of HTLV-1 transformation appears to be distinct from that of many known chronic or acute leukemia viruses and is related to the viral activator Tax. Here we show that cyclin E, can associate tightly with the coactivator p300 and Pol II complex in HTLV-1 infected cells. The cyclin E associated complex is kinase active and phosphorylates the carboxy terminal domain of RNA Pol II. More importantly, p21/Waf1, a well-known cdk inhibitor at the G1/S border, inhibits transcription of HTLV-1 in both transfections and in in vitro transcription assays. Finally, specific cdk chemical inhibitors, functionally similar to cellular cdkIs, such as p21/Waf1 which inhibits cyclin E/cdk2 activity, also inhibit transcription of the HTLV-1 promoter. In particular, Purvalanol A, with an IC50 of 0.035 microm inhibits activated, but not basal transcription, as well as HTLV-1 infected cells. Collectively, the role of cyclin E/cdk2 in HTLV-1 infected cells and its involvement in RNA Pol II phosphorylation is discussed.
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PMID:Inhibition of HTLV-1 transcription by cyclin dependent kinase inhibitors. 1223 81

B-Myb is a highly conserved member of the Myb family of transcription factors whose activity is regulated during the cell cycle. Previous work has shown that the activity of B-Myb is stimulated by cyclin A/Cdk2-dependent phosphorylation whereas interaction of B-Myb with cyclin D1 inhibits its activity. Here, we have investigated the role of p300 as a coactivator for B-Myb. We show that B-Myb-dependent transactivation is stimulated by p300 as a result of interaction between B-Myb and p300. We have mapped the sequences responsible for the interaction of B-Myb and p300 to the E1A-binding region of p300 and the transactivation domain of B-Myb, respectively. Furthermore, our data suggest that phosphorylation of B-Myb stimulates its acetylation by p300 and that the acetylation of B-Myb is necessary for the full stimulation of its transactivation potential by p300. We have also studied the effect of cyclin D1 on the cooperation of B-Myb and p300. Based on our results we propose that cyclin D1 inhibits the activity of B-Myb by interfering with the interaction of B-Myb and p300. The data reported here provide novel insight into the mechanisms by which the activity of B-Myb is regulated during the cell cycle. Taken together they suggest that the coactivator p300 plays an important role in this regulation and that the cooperation of B-Myb and p300 is orchestrated by cyclins A and D1.
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PMID:The cooperation of B-Myb with the coactivator p300 is orchestrated by cyclins A and D1. 1497 51

Human immunodeficiency virus type 1 (HIV-1) is the etiologic agent of AIDS. Following entry into the host cell, the viral RNA is reverse transcribed into DNA and subsequently integrated into the host genome as a chromatin template. Chromatin structure may be responsible for silencing retroviral gene expression. Transcriptional activation occurs after ATP-dependent chromatin remodeling complexes alter chromatin structure and positioning of nucleosomes. Histone acetyltransferases (HATs), histone deacetylases (HDACs), kinases, and methyltransferases (HMTs), covalently modify nucleosomes by adding or removing chemical moieties in the N-terminal tails of histones. Recent advances have indicated that HIV-1 encoded proteins interact with chromatin remodeling complexes and histone modifying enzymes, implying that chromatin remodeling plays an important role in the HIV-1 life cycle. Nucleosomes are positioned on the HIV-1 LTR and are barriers to transcription. Following cellular activation, these nucleosomes are modified and repositioned allowing for activation of viral gene expression. Tat recruits various HATs to the HIV-1 promoter region and can also be acetylated by some of these enzymes. Unmodified Tat is involved in binding to the CBP/p300 and cdk9/cyclin T complexes and facilitates transcription initiation. Acetylated Tat dissociates from the TAR RNA structure and recruits bromodomain-containing chromatin modifying complexes such as p/CAF and SWI/SNF to facilitate transcription elongation. This review summarizes our current knowledge and understanding of chromatin remodeling complexes and their regulation of HIV-1 replication, and highlights the important contributions HIV-1 research has made to further our understanding of the transcription process.
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PMID:Chromatin remodeling and modification during HIV-1 Tat-activated transcription. 1504 58

Cajal bodies contain cyclin E/cdk2 and the substrate p220(NPAT) to regulate the transcription of histones, which is essential for cell proliferation, however, recent mouse knockout studies indicate that cyclin E and cdk2 are dispensable for these events. Because the CBP/p300 histone acetyltransferase are also known to be involved in cell proliferation, we examined the molecular and functional interactions of p220(NPAT) with the CBP/p300 at the G1/S boundary as cell cycle regulators. The subnuclear localization of p220(NPAT) and CBP/p300 proteins showed that their foci partially overlapped in a cell cycle dependent manner. Overexpression of p220(NPAT) and CBP/p300 cooperatively enhanced G1/S transition and DNA synthesis even without cdk2 phosphorylation site. Finally, molecular alignment analysis indicated that p220(NPAT) contains several potential substrate sites for CBP/p300. Overall, our findings demonstrate that p220(NPAT) and CBP/p300 form a transient complex at the G1/S boundary to play cooperative roles to promote the S-phase entry.
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PMID:Dynamic interaction of p220(NPAT) and CBP/p300 promotes S-phase entry. 1555 99

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