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: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Aberrations in centrosome numbers have long been implicated in aneuploidy and tumorigenesis, but their origins are unknown. Here we have examined how overexpression of Aurora-A kinase causes centrosome amplification in cultured cells. We show that excess Aurora-A does not deregulate centrosome duplication but gives rise to extra centrosomes through defects in cell division and consequent tetraploidization. Over expression of other mitotic kinases (Polo-like kinase 1 and Aurora-B) also causes multinucleation and concomitant increases in centrosome numbers. Absence of a p53 checkpoint exacerbates this phenotype, providing a plausible explanation for the centrosome amplification typical of p53-/- cells. We propose that errors during cell division, combined with the inability to detect the resulting hyperploidy, constitute a major cause for numerical centrosome aberrations in tumors.
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PMID:Aurora-A overexpression reveals tetraploidization as a major route to centrosome amplification in p53-/- cells. 1184 97

Polo-like kinase 1 (Plk1) has an important role in the regulation of M phase of the cell cycle. In addition to its cell cycle-regulatory function, Plk1 has a potential role in tumorigenesis. Here we found for the first time that Plk1 physically binds to the tumor suppressor p53 in mammalian cultured cells, and inhibits its transactivation activity as well as its pro-apoptotic function. During the cisplatin-induced apoptosis in human neuroblastoma SH-SY5Y cells, the expression level of Plk1 was significantly decreased both at mRNA and protein levels, whereas cisplatin treatment caused a remarkable stabilization of p53. Systematic immunoprecipitation analyses using a series of deletion mutants of p53 revealed that a sequence-specific DNA-binding region of p53 is required and sufficient for the physical interaction with Plk1. The ectopically overexpressed Plk1 was co-localized with the endogenous p53 in mammalian cell nucleus, as shown by confocal laser microscopy. Expression of exogenous Plk1 and p53 in p53-deficient lung carcinoma H1299 cells greatly decreased the p53-mediated transcription from the p53-responsive p21(WAF1), MDM2, and BAX promoters, whereas the kinase-deficient mutant form of Plk1 failed to reduce the transcriptional activity of p53. Consistent with the luciferase reporter analysis, Plk1 had an ability to block the p53-dependent induction of the endogenous p21(WAF1). In addition, Plk1 inhibited the pro-apoptotic function of p53 in H1299 cells. Intriguingly, Plk1-mediated repression of p53 was attenuated with ATM. Thus, our present findings strongly suggest that p53 is a critical target of Plk1, and its function is abrogated through the physical interaction with Plk1.
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PMID:Polo-like kinase 1 (Plk1) inhibits p53 function by physical interaction and phosphorylation. 1502 21

Tumor cell cycle arrest at the cell cycle G2/M boundary after ionizing radiation involves inhibition of the Polo-like kinase 1 (Plk1). We recently found that the mechanism comprised repression of its gene, PLK, mediated by the tumor-suppressor protein BRCA1. In the present study we examined the regulatory responses on PLK and cell cycle phases in breast carcinoma cell lines exposed to various modes of therapeutic irradiation. The tumor cells, harboring different DNA damage checkpoint defects, were irradiated with either a single dose of 8.0 Gy or fractionated doses accumulating to 8.0 Gy. In the BRCA1-/- HCC1937 cell line both radiation regimens caused moderate repression of PLK mRNA expression, whereas the reconstituted wild-type (wt) BRCA1 genotype of the HCC1937/BRCA1wt cell line was associated with significant down-regulation of PLK mRNA expression after irradiation. In contrast to the HCC1937 cell lines, the MCF7/LCC2 cells displayed the characteristic wt TP53 constitution of persistent, radiation-induced CDKN1A mRNA expression (encoding the G1 cell cycle inhibitor p21(Waf1/Cip1/Sdi1)). The regulatory effects on PLK in the MCF7/LCC2 cells, however, were identical to those in the HCC1937/BRCA1wt cell line. Moreover, whereas neither HCC1937 cell line displayed G1/S cell cycle arrest after irradiation but, instead, an apparent accumulation of G2/M-phase cells, the radiation-induced delay at the G1/S boundary seemed to be superior to arrest at the G2/M transition in the MCF7/LCC2 cell line. Since the down-regulation of PLK mRNA expression by ionizing radiation was identical in the wt TP53 MCF7/LCC2 cell line and the TP53-mutated BRCA1-/- HCC1937 cell line reconstituted with wt BRCA1, we conclude that this regulatory effect solely requires an intact G2 checkpoint effector mechanism.
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PMID:Ionizing radiation inhibits the PLK cell cycle gene in a G2 checkpoint-dependent manner. 1516 Sep 94

Polo-like kinase 1 (Plk1) is an important regulator of several events during mitosis. Recent reports show that Plk1 is involved in both G2 and mitotic DNA damage checkpoints. Ataxia telangiectasia mutated kinase (ATM) is an important enzyme involved in G2 phase cell cycle arrest following interphase DNA damage, and inhibition of Plk1 by DNA damage during G2 occurs in an ATM-/ATM-Rad3-related kinase (ATR)-dependent fashion. However, it is unclear how Plk1 is regulated in response to M phase DNA damage. We found that treatment of mitotic cells with DNA damaging agents inhibits Plk1 activity primarily through dephosphorylation of Plk1, which occurred in both p53 wild-type and mutant cells. Inhibition of Plk1 is not prevented by caffeine pretreatment that inhibits ATM activity and also occurs in ATM mutant cell lines. Furthermore, ATM mutant cell lines, unlike wild-type cells, fail to arrest after mitotic DNA damaging treatments. The phosphatidylinositol 3-kinase (PI3K) inhibitor, LY294002, reduces Plk1 dephosphorylation following mitotic DNA damaging treatments, suggesting that the PI3K pathway may be involved in regulating Plk1 activity. Earlier studies showed that inhibition of Plk1 by G2 DNA damage occurs in an ATM-dependent fashion. Our results extend the previous studies by showing that ATM is not required for dephosphorylation and inhibition of Plk1 activity following mitotic DNA damage, and also suggest that Plk1 is not a principal regulator or mediator of the mitotic DNA damage response.
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PMID:Polo-like kinase 1 inactivation following mitotic DNA damaging treatments is independent of ataxia telangiectasia mutated kinase. 1528 Apr 49

Polo-like kinase 1 (Plk1) is required for multiple stages of mitosis and is up-regulated in many human malignancies. We depleted Plk1 expression using small interfering RNA (siRNA) and showed defects in bipolar spindle formation and cytokinesis, growth inhibition, and apoptosis induction in human cancer cell lines. To our surprise, depletion of Plk1 in normal human cells did not result in obvious cell cycle defects, and did not induce significant inhibition of cell growth for at least two cell cycles. In addition, Plk1 siRNA inhibited colony formation in soft agar and tumorigenesis in a HT1080 xenograft model in a dose-dependent manner. Analysis with isogenic pairs of cell lines, differing in p53 status, revealed that Plk1 depletion preferentially induced mitotic arrest, aneuploidy, and reduced cell survival in the p53-defective cell lines. No obvious defects were observed in most p53 wild-type cells during the first few cell cycles. In addition, long-term survival studies revealed that p53 facilitates survival upon Plk1 depletion. Therefore, short-term inhibition of Plk1 can kill tumor cells while allowing normal cells to survive. These data validate the episodic inhibition of Plk1 as a very useful approach for cancer treatment.
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PMID:Small interfering RNA-mediated Polo-like kinase 1 depletion preferentially reduces the survival of p53-defective, oncogenic transformed cells and inhibits tumor growth in animals. 1580 68

Ultraviolet (UV) irradiation can result in cell cycle arrest. The reactivation of Polo-like kinase 1 (Plk1) is necessary for cell cycle reentry. But the mechanism of how Plk1 regulates p53 in UV-induced mitotic arrest cells remained elusive. Here we find that UV treatment leads HEK293 cells to inverse changes of Plk1 and p53. Over-expression of Plk1 rescue UV-induced mitotic arrest cells by inhibiting p53 activation. Plk1 could also inhibit p53 phosphorylation at Ser15, thus facilitates its nuclear export and degradation. Further examination shows that Plk1, p53 and Cdc25C can form a large complex. Plk1 could bind to the sequence-specific DNA-binding domain of p53 and active Cdc25C by hyperphosphorylation. These results hypothesize that Plk1 and Cdc25C participate in recovery the mitotic arrest through binding to the different domain of p53. Cdc25C may first be actived by Plk1, and then its phosphatase activity makes p53 dephosphorylated at Ser15.
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PMID:Polo-like kinase 1 regulates mitotic arrest after UV irradiation through dephosphorylation of p53 and inducing p53 degradation. 1675 48

Polo-like kinases play crucial roles throughout mitosis. We previously reported that wortmannin potently inhibits Polo-like kinase 1 (Plk1). In this study, we show that wortmannin also strongly inhibits Polo-like kinase 3 (Plk3). To further characterize this inhibition, we identified the sites of labeling on Plk1 and Plk3 targeted by AX7503, a tetramethylrhodamine-wortmannin conjugate. AX7503 labeling on Plk1 and Plk3 was found to occur on a conserved ATP binding site residue. In addition, we show that wortmannin inhibits Plk3 activity in live cells at concentrations commonly used to inhibit the more well known targets of wortmannin, the phosphoinositide 3-kinases. Importantly, we found that inhibition of Plk3 by wortmannin lead to a decrease in phosphorylation of p53 on serine 20 induced by DNA damage, demonstrating the effect of wortmannin on a downstream Plk3 target. Taken together, our results suggest that wortmannin can affect multiple functions of Plk3 in cell cycle progression and at the DNA damage check point. The identification of the labeling sites of Plk1 and Plk3 by AX7503 may be useful in designing more effective compounds to target Polo-like kinases for cancer treatment and also may be useful for the structural study of Plk domains.
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PMID:Polo-like kinases inhibited by wortmannin. Labeling site and downstream effects. 1713 48

Here, we show that the anaplastic thyroid carcinoma (ATC) features the up-regulation of a set of genes involved in the control of cell cycle progression and chromosome segregation. This phenotype differentiates ATC from normal tissue and from well-differentiated papillary thyroid carcinoma. Transcriptional promoters of the ATC up-regulated genes are characterized by a modular organization featuring binding sites for E2F and NF-Y transcription factors and cell cycle-dependent element (CDE)/cell cycle gene homology region (CHR) cis-regulatory elements. Two protein kinases involved in cell cycle regulation, namely, Polo-like kinase 1 (PLK1) and T cell tyrosine kinase (TTK), are part of the gene set that is up-regulated in ATC. Adoptive overexpression of p53, p21 (CIP1/WAF1), and E2F4 down-regulated transcription from the PLK1 and TTK promoters in ATC cells, suggesting that these genes might be under the negative control of tumor suppressors of the p53 and pRB families. ATC, but not normal thyroid, cells depended on PLK1 for survival. RNAi-mediated PLK1 knockdown caused cell cycle arrest associated with 4N DNA content and massive mitotic cell death. Thus, thyroid cell anaplastic transformation is accompanied by the overexpression of a cell proliferation/genetic instability-related gene cluster that includes PLK1 kinase, which is a potential molecular target for ATC treatment.
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PMID:A cell proliferation and chromosomal instability signature in anaplastic thyroid carcinoma. 1798 89

As a consequence of multiple functions of p53, its activation in response to cytotoxic stress may have proapoptotic or protective effects depending on the nature of lesions. We have previously shown that mutational inactivation of p53 results in sensitization to paclitaxel. In this study, we used cyclic pifithrin-alpha, a transcriptional inhibitor of p53, to further investigate the relevance of p53 function in the response of tumor cells to microtubule inhibitors. Using drug concentrations causing only antiproliferative effects, the combination of antimicrotubule agents with subtoxic pifithrin-alpha doses resulted in increase of sensitivity of two wild type p53 cell lines, associated with a substantial M phase cell accumulation and marked sensitization to apoptosis. Pifithrin-alpha had no sensitizing effect in p53 defective cells or a marginal effect in normal human fibroblasts. The apoptotic response to the combination was concomitant with p21 down-regulation, Polo-like kinase 1 up-regulation, p34(cdc2) kinase dephosphorylation, and cdc25C phosphatase phosphorylation, supporting mitotic arrest. Sensitization to paclitaxel-induced apoptosis was also achieved by p53-siRNA transfection in wild type p53 H460 cells. Pifithrin-alpha did not enhance the apoptotic response after p53 down-regulation. The results support a protective role of the transcriptional activity of p53 in response to mitotic spindle damage. The inhibition of transcriptional activity of p53 may have therapeutic implications in the treatment of p53 wild type tumors with antimitotic agents.
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PMID:Cyclic pifithrin-alpha sensitizes wild type p53 tumor cells to antimicrotubule agent-induced apoptosis. 1851 95

Polo-like kinase 1 (Plk1) is overexpressed in tumor tissues and its expression level is tightly associated with the malignancy of tumors and prognosis of tumor patients. Thus, Plk1 is considered as one of the most attractive molecular targets for anticancer therapy. Recently, several small molecule inhibitors of Plk1 have been identified and characterized, and the first generation of Plk1 inhibitors has been investigated in clinical trials. However, the long-term effect of the downregulation of Plk1 on tumor cells has not yet been studied. In this work we have investigated the phenotype of HeLa cells, in which Plk1 is continuously downregulated by constitutive expression of shRNA. The data demonstrate that the long-term suppression of Plk1 increases the levels of cyclindependent kinase inhibitor p21(WAF1/CIP), which is partially induced by the elevated tumor suppressor p73 in p53-inactivated HeLa cells. The increased kinase inhibitor p21(WAF1/CIP1) localizes in both cyctoplasm as well as in nucleus and interacts directly with Cdk1/cyclin B1. Moreover, the knockdown of Plk1 leads to a decreased oncoprotein MDM2 and an elevated pro-apoptotic protein Bax in HeLa cells. Importantly, HeLa cells with reduced level of Plk1, which induces an increase of p21, p73 and Bax, are more sensitive to some chemotherapeutic agents, such as cisplatin.
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PMID:Long-term downregulation of Polo-like kinase 1 increases the cyclin-dependent kinase inhibitor p21(WAF1/CIP1). 1916 53


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