Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

Induction of differentiation is today a useful strategy in cancer therapy but the clinical practice is insufficient in squamous cell carcinomas. We examined the effect of vesnarinone, a differentiation-inducing agent, on the cell cycle and cellular differentiation in four cell lines established from oral squamous cell carcinomas possessing a wild-type or mutated p53. Vesnarinone dose-dependently inhibited cell growth and induced G1 phase accumulation regardless of p53 gene mutation. The expression of involucrin and transglutaminase was increased by 4 days treatment with 60 microg/ml vesnarinone in all cell lines. Although p21 promoter activity was suppressed by vesnarinone, p21-mRNA was stabilized by the agent and expression of p21-mRNA was maintained for a long time. Corresponding to the prolonged p21-mRNA expression, p21 protein was induced by cell treatment with 60 microg/ml vesnarinone for 12 h and longer. The induced p21 protein bound cyclin E and suppressed cyclin E/Cdk2 kinase activity suppressing the phosphorylation of retinoblastoma (Rb) protein. These results suggest that vesnarinone possesses activity to induce p21 protein by stabilizing its mRNA with induction of differentiation of squamous cell carcinoma cells in a p53-independent manner.
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PMID:Induction of cyclin-dependent kinase inhibitor p21 in vesnarinone-induced differentiation of squamous cell carcinoma cells. 992 58

p202 is an IFN-inducible, primarily nuclear, phosphoprotein (52-kDa) whose constitutive overexpression in transfected cells inhibits colony formation. To investigate the molecular mechanism(s) by which expression of p202 protein impairs colony formation, we established stable cell lines that inducibly express p202. Using this cell model, we demonstrate that the induced expression of p202 in asynchronous cultures of these cells was accompanied by: (a) an increase in steady-state levels of p21(WAF1/CIP1/SDI1) (p21) mRNA and protein; (b) a decrease in Cdk2 protein kinase activity; and (c) an increase in the functional form of retinoblastoma protein (pRb). Transient transfection of a p202-encoding plasmid in Saos-2 cells, which do not harbor a wild-type p53 protein, resulted in an increase in p21 protein, which indicated that p202 could regulate expression of p21 protein independent of p53 protein. Moreover, we demonstrate that expression of p202 in these cells increased cell doubling time without accumulation of cells in a particular phase of the cell cycle. Taken together, these results are consistent with the possibility that p202 protein contributes to the cell growth retardation activity of the IFNs, at least in part, by modulating p21 protein levels.
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PMID:Retardation of cell proliferation after expression of p202 accompanies an increase in p21(WAF1/CIP1). 1007 3

One prominent effect of IFNs is their cell growth-inhibitory activity. The mechanism behind this inhibition of proliferation is still not fully understood. In this study, the effect of IFN-alpha treatment on cell cycle progression has been analysed in three lymphoid cell lines, Daudi, U-266 and H9. Examination of the growth-arrested cell populations shows that Daudi cells accumulate in a G0-like state, whereas U-266 cells arrest later in G1. H9 cells are completely resistant to IFN-alpha's cell growth-inhibitory effects. The G0/G1-phase arrest is preceded by a rapid induction of the cyclin-dependent kinase inhibitors (CKIs), p21 and p15. In parallel, the activities of the G1 Cdks are significantly reduced. In addition to p21/p15 induction, IFN-alpha regulates the expression of another CKI, p27, presumably by a post-transcriptional mechanism. In the G1 Cdk-complexes, there is first an increased binding of p21 and p15 to their respective kinases. At longer exposure times, when Cdk-bound p15 and p21 decline, p27 starts to accumulate. Furthermore, we found that IFN-alpha not only suppresses the phosphorylation of pRb, but also alters the phosphorylation and expression of the other pocket proteins p130 and p107. These data suggest that induction of p21/p15 is involved in the primary IFN-alpha response inhibiting G1 Cdk activity, whereas increased p27 expression is part of a second set of events which keep these Cdks in their inactive form. Moreover, elevated levels of p27 correlated with a dissociation of cyclin E/Cdk2-p130 or p107 complexes to yield cyclin E/Cdk2-p27 complexes. In resistant H9 cells, which possess a homozygous deletion of the p15/p16 genes and lack p21 protein expression, IFN-alpha causes no detectable changes in p27 expression and, furthermore, no effects are observed on either pocket proteins in this cell line. Taken together, these data suggest that the early decline in G1 Cdk activity, subsequent changes in phosphorylation of pocket proteins, and G1/G0 arrest following IFN-alpha treatment, is not primarily due to loss of the G1 kinase components, but result from the inhibitory action of CKIs on these complexes.
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PMID:Molecular mechanisms underlying interferon-alpha-induced G0/G1 arrest: CKI-mediated regulation of G1 Cdk-complexes and activation of pocket proteins. 1036 50

DNA damaging agents such as ultraviolet (UV) induce cell cycle arrest followed by apoptosis in cells where irreparable damage has occurred. Here we show that during early phase G1 arrest which occurs in UV-irradiated human U343 glioblastoma cells, there are (1) decreases in cyclin D1 and cdk4 levels which parallel a loss of S-phase promoting cyclin D1/cdk4 complexes, and (2) increases in p53 and p21 protein levels. We also show that the late phase UV-induced apoptosis of U343 cells occurs after cell cycle re-entry and parallels the reappearance of cyclin D1 and cdk4 and cyclin D1/cdk4 complexes. These findings suggest that cyclin D1 can abrogate UV-induced G1 arrest and that the p53-mediated apoptosis that occurs in these cells is dependent on cyclin D1 levels. We examined these possibilities using U343 cells that ectopically express cyclin D1 and found that indeed cyclin D1 can overcome the cell cycle arrest caused by UV. Moreover, the appearance of p53 protein and the induction of apoptosis in UV-irradiated cells was found to be dependent on the level of ectopically expressed cyclin D1. These findings, therefore, indicate that expression of cyclin D1 following DNA damage is essential for cell cycle re-entry and p53-mediated apoptosis.
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PMID:Role for cyclin D1 in UVC-induced and p53-mediated apoptosis. 1038 51

We have previously found that loss of C/EBPalpha in hepatocytes of newborn livers leads to increased proliferation, to a reduction in p21 protein levels and to an induction of S phase-specific E2F/p107 complexes. In this paper, we investigated C/EBPalpha-dependent regulation of E2F complexes in a well-characterized cell line, 3T3-L1, and in stable transformants that conditionally express C/EBPalpha. C/EBPalpha and C/EBPbeta proteins are induced in 3T3-L1 preadipocytes during differentiation with different kinetics and potentially may regulate E2F/Rb family complexes. In pre-differentiated cells, three E2F complexes are observed: cdk2/E2F/p107, E2F/p130 and E2F4. cdk2/E2F/p107 complexes are induced in nuclear extracts of 3T3-L1 cells during mitotic expansion, but are not detectable in nuclear extracts at later stages of 3T3-L1 differentiation. The reduction in E2F/p107 complexes is associated with elevation of C/EBPalpha, but is independent of C/EBPbeta expression. Bacterially expressed, purified His-C/EBPalpha is able to disrupt E2F/p107 complexes that are observed at earlier stages of 3T3-L1 differentiation. C/EBPbeta, however, does not disrupt E2F/p107 complexes. A short C/EBPalpha peptide with homology to E2F is sufficient to bring about the disruption of E2F/p107 complexes from 3T3-L1 cells in vitro. Induction of C/EBPalpha in stable 3T3-L1 clones revealed that C/EBPalpha causes disruption of p107/E2F complexes in these cells. In contrast, E2F/p130 complexes are induced in cells expressing C/EBPalpha. Our data suggest that induction of p130/E2F complexes by C/EBPalpha occurs via up-regulation of p21, which, in turn, leads to association with and inhibition of, cdk2 kinase activity. The reduction in cdk2 kinase activity correlates with alterations of p130 phosphorylation and with induction of p130/E2F complexes in 3T3-L1 stable clones. Our data suggest two pathways of C/EBPalpha-dependent regulation of E2F/Rb family complexes: disruption of S phase-specific E2F/p107 complexes and induction of E2F/p130 complexes.
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PMID:E2F/p107 and E2F/p130 complexes are regulated by C/EBPalpha in 3T3-L1 adipocytes. 1044 55

Coordinated accumulation of cyclin D1 and D3 is observed in 15% of primary breast cancers and in the breast cancer cell line MCF-7 this simultaneous overexpression is due to a defect in their ubiquitin-mediated proteolysis. The F-box protein Skp2 is a component of an SCF ubiquitin ligase complex and can associate with cyclin D1 and the cdk inhibitor p21 (Zhong-Kang et al., 1998). We extend this observation and show that cyclin D3 can also associate with Skp2 suggesting that cyclins D1, D3 and p21 may share the same SCF complex. In agreement with this hypothesis we report here that in primary breast cancers and in MCF-7 cells where cyclins D1 and D3 are elevated the level of p21 is also elevated. Further, we demonstrate that the turnover of p21 protein is reduced in MCF-7 cells. We show that p21 is active as a cdk inhibitor in this cell line but that the presence of elevated levels of cyclin D3 titrates p21 away from cyclin D1-cdk4/6 complexes and cdk2 complexes resulting in increased kinase activities. Our results suggest that a defect in the SCF complex may occur in 15-20% of breast cancers and that the resulting coordinated elevation of cyclins D1 and D3 overcomes the inhibition of cell cycle progression by p21. We propose that in the context of cyclins D1 and D3 overexpression, p21 may promote cell cycle progression.
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PMID:Inhibitory effect of p21 in MCF-7 cells is overcome by its coordinated stabilization with D-type cyclins. 1059 47

Alterations in the functions of vascular endothelial cells (ECs) induced by fluid shear stress may play a pivotal role in both the development and prevention of vascular diseases. We found that DNA synthesis of bovine aortic and human umbilical vein ECs, determined by [(3)H]thymidine incorporation, was inhibited by steady laminar shear stress (5 and 30 dyne/cm(2)). This growth inhibition due to shear stress was associated with suppression of cell transition from the G(1) to S phase of the cell cycle. Therefore, we studied G(1)-phase events to find the molecules responsible for this cell cycle arrest. Shear stress inhibited the phosphorylation of a retinoblastoma protein (pRb) and the activity of cyclin-dependent kinase (cdk) 2 and cdk4, which phosphorylate pRb. The level of cdk inhibitor p21(Sdi1/Cip1/Waf1) protein, but not that of p27(Kip1), increased as a result of shear stress, and the amount of p21 protein associated with cdk2 also increased, although the protein level of cdk2 was unchanged. Shear stress markedly elevated the mRNA level of p21, and this elevation in mRNA faded after the release of cells from shear stress, concomitant with a recovery of DNA synthesis. These results suggest that steady laminar shear stress induces cell cycle arrest by upregulating p21. Derangement of the steady laminar flow may release cells from this inhibition and induce cell proliferation, which, in turn, may cause atherosclerosis through the induction of EC stability disruption.
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PMID:Laminar shear stress inhibits vascular endothelial cell proliferation by inducing cyclin-dependent kinase inhibitor p21(Sdi1/Cip1/Waf1) 1066 2

Defects in cell cycle checkpoints can lead to chromosome abnormality, aneuploidy, and genomic instability, all of which can contribute to tumorigenesis. Recent studies and data presented in this study indicate that cells with compromised G1 checkpoint endoreduplicate and become polyploid in response to microtubule inhibitors. Previous studies have shown that polyploid cells are unstable and lose chromosomes randomly to give aneuploidy. In this study, we show that endoreduplication and polyploidation can be prevented by inhibiting the cyclin-dependent kinases (Cdks) by flavopiridol, a synthetic flavone presently undergoing phase II clinical trials. In our initial studies, we treated MCF-7 cells with paclitaxel, which results in the arrest of cells in G1 with 4n DNA content (pseudo G1). This was coincident with increased p53 and p21 protein expression and decreased cyclin E/Cdk2 kinase activity. In contrast, G1 checkpoint-compromised MDA-MB-468 (p53-/- and pRb-/-) and p21-/- HCT116 do not arrest in the pseudo G1 state after exposure to microtubule inhibitors and enter in the S phase with 4n DNA content. More than 60% of MDA-MB-468 cells accumulate with >4n DNA content after 72 h of nocodazole treatment. The MPM-2 labeling showed that 8n cells also undergo mitosis. These cells display deregulated and persistent activation of cyclin E/Cdk2 and cyclin B1/cdc2 kinase activity. Administration of flavopiridol after mitotic block results in the arrest of cells in the pseudo G1 state and the dramatic decrease in cells containing >4n DNA content in MDA-MB-468 cells. The cyclin E/Cdk2 and cyclin B1/cdc2 kinase activities remained low after exit from mitosis. Furthermore, pRb was hypophosphorylated after the addition of flavopiridol in p21-deficient HCT116 cells, indicating the arrest of cells at the pseudo G1 state. Based on these studies, we propose that flavopiridol preserves the genomic stability by preventing endoreduplication and polyploidy and thus has the potential to be used as a chemopreventive agent to prevent the occurrence of neoplasia.
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PMID:Flavopiridol, a cyclin-dependent kinase inhibitor, prevents spindle inhibitor-induced endoreduplication in human cancer cells. 1074 17

The evaluation of the protein binding partner(s) of biologically important proteins is currently an area of intense research, especially since the development of the yeast two-hybrid assay. However, not all protein-protein interactions uncovered by this assay are biologically relevant and another confirmatory assay must be performed. Ideally, this assay should be rapid, versatile and performed under conditions which mimic the 'normal' physiological state as closely as possible. Towards this goal, we have constructed two eukaryotic expression vectors that facilitate the purification of a protein of interest, along with any associated proteins, from mammalian cells. These vectors incorporate the following features: (i) a tetracycline-responsive promoter so that the level of protein production can be regulated; (ii) an N-terminal glutathione S-transferase tag or a triple repeat of the HA1 epitope, to facilitate purification of the protein either by glutathione affinity chromatography or immunoprecipitation, respectively, followed by a multiple cloning site; (iii) the gene for the enhanced green fluorescent protein (for detection of the presence of the fusion protein and subcellular localization); (iv) a puromycin marker for the selection of stable transformants; (v) a truncated EBNA protein and oriP sequence for episomal replication of the vector. These latter two features permit expansion of small cultures of transfected cells under puromycin selection, thereby increasing the amount of tagged protein that can be purified. We show that these vectors can be used to direct the doxycycline-inducible expression of tagged proteins and to recover tagged CIP1-p21 protein complexes from HeLa cells. Furthermore, we show that these tagged p21-purified complexes contain both cyclin A and Cdk2, which are known to interact with p21, but not beta-actin.
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PMID:Rapid purification of protein complexes from mammalian cells. 1087 84

Ceramide is known to induce pRb (retinoblastoma gene product) dephosphorylation through the activation of ceramide-activated protein phosphatase (CAPP) during G1 arrest, but other molecular mechanisms linked to regulation of pRb dephosphorylation during ceramide-induced G1 arrest are poorly understood. In this paper, we investigated whether p21, a cdk (cyclin-dependent kinase) inhibitor, is involved in the induction of pRb dephosphorylation during ceramide-induced G1 arrest. In SK-Hep-1 cells, the addition of ceramide resulted in pRb dephosphorylation and G1 arrest. The activity of cdk2 was inhibited in response to ceramide during this process. p21 protein and mRNA were remarkably induced, while the protein level of p53, known as a transcriptional activator of p21, was not elevated at the same condition. p21 induction was also observed in the Hep3B cells lacking a functional p53 after exposure to ceramide. Although p21 is induced in ceramide-treated Hep3B cells, Hep3B cells do not induce G1 arrest, because Hep3B cells are deficient in a functional pRb protein. To confirm that pRb is a critical target for the induction of G1 arrest by inhibiting cdk2 activity through p53-independent p21, pRb-expressing vector was transfected into Hep3B cells. After treatment with ceramide, pRb-expressing cells (pRb+/+), but not pRb-/- cells, were arrested in G1 phase. In pRb+/+ cells, ceramide-mediated G1 arrest was accompanied by the accumulation of hypophosphorylated pRb and p21 associated with cdk2. Together, these results suggest that p21, induced through p53-independent pathway, participates in the induction of pRb dephosphorylation by inhibiting cdk2 activity during ceramide-mediated G1 arrest in hepatocarcinoma cells.
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PMID:Induction of p53-independent p21 during ceramide-induced G1 arrest in human hepatocarcinoma cells. 1087 74


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