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)

Functional wild-type p53 is required for human diploid fibroblasts (HDF) to enter an irreversible growth arrest known as replicative senescence. Experimentally, abrogation of p53 function by expression of human papillomavirus type 16 E6 or disruption of a key downstream effector p21 by homologous recombination both extended HDF life span. However, although sufficient to extend life span, p21 down-regulation is not necessary, because expression of a dominant-negative mutant p53 (143(ala)) extends life span without apparently decreasing p21 expression. Given the importance of p53 in cellular senescence and the general assumption that p21 may be the sole mediator of its action in this process, we have investigated how abrogation of p53 function can overcome senescence without lowering expression of p21. We have found up-regulated levels of the cyclin-dependent kinase 2 (cdk2) protein in HDF expressing 143(ala) mutant p53 as compared to senescent controls, together with an increase in p21-free cdk2 which, in conjunction with cyclin E, is able to form an active kinase which can phosphorylate the retinoblastoma protein. However, forced overexpression of cdk2 in near-senescent HDF failed to restore cdk2-associated kinase activity. Our data suggest that p53-mediated senescence depends on factor(s) other than p21 which modulate formation of cyclin E-cdk2 complexes.
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PMID:Mutant p53 can delay growth arrest and loss of CDK2 activity in senescing human fibroblasts without reducing p21(WAF1) expression. 1270 18

Phenylacetate is a differentiation agent and has anticancer activity with relatively low toxicity. In the present study, we examined the anticancer effect of six synthetic phenylacetate derivatives in human lung cancer cells in our search for more effective phenylacetate analogous. Results showed that the antiproliferative effects of these synthetic compounds were stronger than those of phenylacetate, and that N-butyl-2-(2-fluorolphenyl)acetamide (SCK6) is the most potent compound. To address the mechanism of the antiproliferative effect of SCK6, cell cycle analysis was performed. Result showed that SCK6 (1 mM) induced G(1) arrest in CH27 cells. Western blot analysis of G(1) phase regulatory proteins demonstrated that the protein levels of cyclin-dependent kinase 2 (Cdk2), Cdk4, Cyclin E and Cyclin D3 were decreased after treatment with SCK6 but not those of Cdk6, Cyclin D1 and D2. In contrast, SCK6 increased the protein levels of p53 and p21(CIP1/WAF1). Data from in situ terminal transferase-mediated dUTP-fluorescensin nick end-labeling (TUNEL) assay and DNA fragmentation analysis demonstrated that SCK6 induced apoptotic cell death in CH27 cells. This SCK6-induced apoptosis was accompanied by a downregulation of Bcl-2 protein and activation of the caspase-9 cascade. Overexpression of Bcl-2 by adeno-Bcl-2 vector infection significantly inhibited SCK6-induced apoptosis. Moreover, treatment with caspase inhibitors also markedly reduced cell death induced by SCK6. Taken together, these results suggest that downregulation of G(1)-associated Cdks and cyclins and upregulation of p53 and p21(CIP1/WAF1) may contribute to SCK6-mediated G(1)-phase arrest. Furthermore, the decrease in Bcl-2 and the activation of caspase-9/caspase-3 may be the effector mechanism through which SCK6 induces apoptosis.
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PMID:A phenylacetate derivative, SCK6, inhibits cell proliferation via G1 cell cycle arrest and apoptosis. 1270 52

Terfenadine (TF), a highly potent histamine H1 receptor antagonist, has been shown to exert no significant central nervous system side effects in clinically effective doses. In this study, we demonstrated that TF induced significant growth inhibition of human cancer cells, including Hep G2, HT 29, and COLO 205 cells, through induction of G(0)/G(1) phase cell-cycle arrest. The minimal dose of TF induced significant G(0)/G(1) arrest in these cells was 1-3 microM. The protein levels of p53, p21/Cip1, and p27/Kip1 were significantly elevated, whereas the kinase activities of cyclin-dependent kinase 2 (CDK2) and CDK4 were inhibited simultaneously in the TF-treated cells. On the other hand, significant apoptosis, but not G(0)/G(1) arrest, was induced in the HL 60 (p53-null) or Hep 3B (with deleted p53) cells when treated with TF (3-5 microM). To clarify the roles of p21/Cip1 and p27/Kip1 protein expression, which was involved in G(0)/G(1) arrest and apoptosis induced by TF in human cancer cells, antisense oligodeoxynucleotides (ODNs) specific to p21/Cip1 and p27/Kip1 were used, and the expression of the p21/Cip1 and p27/Kip1 were monitored by immunoblotting analysis. Our data demonstrated that the percentage of the apoptotic cells detected by annexin V/PI analysis in the TF-treated group was clearly attenuated by pretreatment with p27/Kip1-specific ODNs. These results indicated that p27/Kip1 (but not p21/Cip1) protein indeed played a critical role in the TF-induced apoptosis. We also demonstrated that the TF-induced G(0)/G(1) cell-cycle arrest effect was not reversed by TF removal, and this growth inhibition lasted for at least 7 d. Importantly, the occurrence of apoptosis and cell growth arrest was not observed in the TF-treated normal human fibroblast, even at a dose as high as 25 microM. Our study showed the molecular mechanisms for TF-induced cell growth inhibition and the occurrence of apoptosis in human cancer cells.
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PMID:Molecular mechanisms of G0/G1 cell-cycle arrest and apoptosis induced by terfenadine in human cancer cells. 1272 Feb 99

Cell growth control by interferons (IFNs) involves up-regulation of the tumor suppressor interferon regulatory factor 1 (IRF1). To exert its anti-proliferative effects, this factor must ultimately control transcription of several key genes that regulate cell cycle progression. Here we show that the G1/S phase-related cyclin-dependent kinase 2 (CDK2) gene is a novel proliferation-related downstream target of IRF1. We find that IRF1, but not IRF2, IRF3, or IRF7, selectively represses CDK2 gene transcription in a dose- and time-dependent manner. We delineate the IRF1-responsive repressor element between nt -68 to -31 of the CDK2 promoter. For comparison, the tumor suppressor p53 represses CDK2 promoter activity independently of IRF1 through sequences upstream of nt -68, and the CDP/cut/Cux1 homeodomain protein represses transcription down-stream of -31. Thus, IRF1 repression represents one of three distinct mechanisms to attenuate CDK2 levels. The -68/-31 segment lacks a canonical IRF responsive element but contains a single SP1 binding site. Mutation of this element abrogates SP1-dependent enhancement of CDK2 promoter activity as expected but also abolishes IRF1-mediated repression. Forced elevation of SP1 levels increases endogenous CDK2 levels, whereas IRF1 reduces both endogenous SP1 and CDK2 protein levels. Hence, IRF1 represses CDK2 gene expression by interfering with SP1-dependent transcriptional activation. Our findings establish a causal series of events that functionally connect the anti-proliferative effects of interferons with the IRF1-dependent suppression of the CDK2 gene, which encodes a key regulator of the G1/S phase transition.
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PMID:The tumor suppressor interferon regulatory factor 1 interferes with SP1 activation to repress the human CDK2 promoter. 1273 45

A study was made of the effect of activated oncogene N-RAS on the function of tumor suppressor p53 and the proliferating ability of rat embryo fibroblasts REF52. The proliferation rate and the portion of S-phase cells increased in the first three days of N-RAS expression. After 5-7 days, the p53 function was enhanced, as manifest in increased p53 lifespan and nuclear content and induced transcription of p53-responsive genes. In particular, Cdk2 p21WAF1/CIP1, an inhibitor of cyclin-dependent kinase 2, was produced to a higher level and arrested the cell cycle in G1. Cells with abrogated or dramatically inhibited N-RAS expression were generated at this stage. Having a selective advantage, these cells gradually displaced N-RAS-expressing cells arrested in G1, so that one month after oncogene induction the culture mostly consisted of morphologically normal, actively proliferating Res-negative cells. Neither cell cycle arrest nor reversion to the normal phenotype were observed in N-RAS expressing cells devoid of the p53 function. Thus, p53 prevented stable N-RAS-induced transformation of REF52 cells, arresting the cell cycle and expediting revertant selection.
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PMID:[The protective role of p53 in Ras-induced transformation of REF52 cells]. 1281 53

In normal cells in which DNA has been damaged, p53 induces the expression of p21(Waf1/Cip1); p21, in turn, binds to cyclin-dependent kinase 2 (cdk2) and inhibits its function. Inhibition of cdk2 results in cell cycle arrest in G(0)-G(1). Although p53 is transcriptionally active and induces p21 expression in neuroblastoma (NB) cells, the G(0)-G(1) checkpoint is attenuated. Here we report that the mechanism that mediates this defect in NB cells is the inability of p21 to bind to, or inhibit the activity of cdk2. However, when recombinant p21 protein was added to NB cell extracts in vitro, the protein inhibited the activity of cdk2. This finding suggests that endogenous p21 protein in NB cells is inactive and may be bound either to a protein complex or in a conformation that precludes its binding to cdk2. The dysfunction of p21 in NB cells represents a novel mechanism by which the G(0)-G(1) cell cycle checkpoint can be inactivated. This mechanism may be important in regulating the growth of NB and potentially other types of tumors. Cdk inhibitors currently being developed for clinical use may be useful therapy for tumors such as NB in which endogenous cdk inhibitors are defective.
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PMID:P21Waf1/Cip1 dysfunction in neuroblastoma: a novel mechanism of attenuating G0-G1 cell cycle arrest. 1283 82

Two groups of prolactinomas were identified, one slowly proliferating and responsive to bromocriptine and one fast proliferating and bromocriptine resistant. Nerve growth factor (NGF) inhibits proliferation of bromocriptine-resistant cells by mechanisms that are still unclear. The tumor suppressor p53 is one of the key regulators of cell proliferation and in most tumors, but not pituitary adenomas, it is inactivated by genomic mutations. Here we investigated whether in prolactinoma cell lines NGF influences cell cycle-related pathways involving p53. By using conformation-specific antibodies and immunocytochemistry we found that in bromocriptine-resistant cells p53 adopts a mutant conformation that precludes its nuclear translocation and transcriptional activity. NGF administration to these cells refolds p53 into wild-type tertiary structure, promotes its nuclear translocation, and restores its DNA-binding activity as demonstrated by the transcriptional activation of p21Cip1/WAF1 and the resulting down-regulation of different cyclins and cyclin-dependent kinase 2. Inactivation of trkA, but not of p75NTR, and wortmannin prevented NGF-induced p53 nuclear translocation. Thus, in prolactinoma cells p53 is inactivated by conformational mutation and cytoplasmic segregation. This defect is reversible because NGF reconstitutes active p53 in these cells. This effect of NGF is exclusively mediated by trkA through activation of phosphatidylinositol-3-kinase and may be related to its growth-inhibitory action.
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PMID:Nerve growth factor restores p53 function in pituitary tumor cell lines via trkA-mediated activation of phosphatidylinositol 3-kinase. 1452 55

The cyclin-dependent kinase inhibitor p21, a major transcriptional target of the tumor suppressor p53, plays a critical role in cell cycle arrest in G1 and G2 after DNA damage. It was previously shown that in some human cell lines when S phase is arrested, p53 is transcriptionally impaired such that some p53 targets including p21 are only weakly induced. We show here that during S phase arrest proteasome-mediated turnover of p21 is significantly increased in a manner that is independent of p53. It is well established that p21 can interact both with cyclin-dependent kinase complexes and with proliferating cell nuclear antigen (PCNA). Interestingly, the scant amount of p21 detected during S phase block cannot fully saturate cyclin A-cyclin-dependent kinase 2 complexes and does not interact detectably with PCNA. Importantly, DNA elongation assays in isolated nuclei show that the C terminus of p21 containing the PCNA-binding domain effectively blocks this process. This implies that p21 down-regulation could be an essential requirement for efficient restart of DNA synthesis. In line with this, only cells expressing low levels of p21 immediately progress through the cell cycle upon release from S phase arrest, whereas the remaining few high p21 producing cells move much more slowly through S. Thus, p21 down-regulation is multiply determined and is required for the reversibility of the arrest in S phase.
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PMID:Decreased p21 levels are required for efficient restart of DNA synthesis after S phase block. 1459 17

p53 is one of the most important regulators of cell proliferation and differentiation and of programmed cell death, triggering growth arrest and/or apoptosis in response to different cellular stress signals. The sequence-specific DNA-binding function of p53 protein can be activated by several different stimuli that modulate the C-terminal domain of this protein. The predominant mechanism of activation of p53 sequence-specific DNA binding is phosphorylation at specific sites. For example, phosphorylation of p53 by PKC (protein kinase C) occurs in undamaged cells, resulting in masking of the epitope recognized by monoclonal antibody PAb421, and presumably promotes steady-state levels of p53 activity in cycling cells. In contrast, phosphorylation by cdk2 (cyclin-dependent kinase 2)/cyclin A and by the protein kinase CK2 are both enhanced in DNA-damaged cells. We determined whether one mechanism to account for this mutually exclusive phosphorylation may be that each phosphorylation event prevents modification by the other kinase. We used non-radioactive electrophoretic mobility shift assays to show that C-terminal phosphorylation of p53 protein by cdk2/cyclin A on Ser315 or by PKC on Ser378 can efficiently stimulate p53 binding to DNA in vitro, as well as binding of the monoclonal antibody Bp53-10, which recognizes residues 371-380 in the C-terminus of p53. Phosphorylation of p53 by CK2 on Ser392 induces its DNA-binding activity to a much lower extent than phosphorylation by cdk2/cyclin A or PKC. In addition, phosphorylation by CK2 strongly inhibits PKC-induced activation of p53 DNA binding, while the activation of p53 by cdk2/cyclin A is not affected by CK2. The presence of CK2-mediated phosphorylation promotes PKC binding to its docking site within the p53 oligomerization domain, but decreases phosphorylation by PKC, suggesting that competition between CK2 and PKC does not rely on the inhibition of PKC-p53 complex formation. These results indicate the crucial role of p53 C-terminal phosphorylation in the regulation of its DNA-binding activity, but also suggest that antagonistic relationships exist between different stress signalling pathways.
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PMID:Activation of the DNA-binding ability of latent p53 protein by protein kinase C is abolished by protein kinase CK2. 1464 Sep 83

Bortezomib (PS-341, Velcade) is a dipeptidyl boronic acid inhibitor of the 20S proteasome that was developed as a therapeutic agent for cancer. Here, we investigated the effects of bortezomib on the growth of human 253JB-V bladder cancer cells. Although the drug did not stimulate significant increases in levels of apoptosis, it inhibited cell growth in a concentration-dependent fashion and augmented the growth inhibitory effects of gemcitabine in vitro. These effects were associated with accumulation of p53 and p21 and suppression of cyclin-dependent kinase 2 activity. Bortezomib also inhibited secretion of the proangiogenic factors matrix metalloproteinase-9, interleukin-8 (IL-8), and vascular endothelial growth factor (VEGF). In vivo studies with 253JB-V tumors growing in nude mice demonstrated that bortezomib (1 mg/kg) did not inhibit tumor growth when it was delivered as a single agent, although it reduced tumor microvessel density and inhibited expression of VEGF and IL-8. However, combination therapy with bortezomib plus gemcitabine produced synergistic tumor growth inhibition associated with strong suppression of tumor cell proliferation. Together, our results demonstrate that bortezomib has significant antiproliferative activity in aggressive bladder cancer cells, which is best exploited within the context of combination chemotherapy.
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PMID:The proteasome inhibitor bortezomib synergizes with gemcitabine to block the growth of human 253JB-V bladder tumors in vivo. 1502 48


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