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)

Cell cycle checkpoints are safeguards that ensure the initiation of downstream events only after completion of upstream processes. The tumor suppressors p53 and pRb prevent initiation of a second round of replication in response to spindle inhibitors, but it has yet to be proven that this is a mitotic checkpoint response. We show that asynchronous human fibroblasts arrest in G1 with 4 N DNA content after nocodazole treatment, whereas isogenic p53- and pRb-deficient fibroblasts rereplicate. Importantly, nocodazole elicits a reversible arrest in G0-G1 synchronized normal human fibroblasts but not in isogenic p53-deficient derivatives. Furthermore, the G1 cyclin-dependent kinase inhibitors p21 and p16 also play critical roles in limiting rereplication. Hence, p53 and pRb are required during G1 to prevent entry into a replicative cycle and appear to provide a connection between the structural integrity of the microtubules and the cell cycle machinery in interphase cells.
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PMID:p53 and pRb prevent rereplication in response to microtubule inhibitors by mediating a reversible G1 arrest. 945 79

In this study, we investigated the molecular basis of the ability of staurosporine to induce G1 arrest in murine embryonic fibroblasts (MEFs). We used MEFs from transgenic mice lacking several negative regulators of the G1/S phase transition including cells from mice lacking p53, p21, retinoblastoma (Rb), or p16 genes. We found that p53 function was not essential for staurosporine-induced G1 arrest. In contrast, MEFs from mice lacking Rb genes showed approximately a 70% reduced capacity to arrest in the G1 phase following staurosporine treatment. In support of a role for Rb in staurosporine-induced G1 arrest, rat embryonic fibroblasts stably overexpressing cyclin D1/Cdk4(R24C) exhibited approximately a 50% reduced G1 arrest response to staurosporine. The role of Rb in determining the degree of staurosporine-induced G1 arrest did not depend on the function of the cyclin-dependent kinase inhibitors p16 or p21 because MEFs lacking either of these genes were still capable of undergoing G1 arrest following staurosporine exposure. Our studies provide evidence of an important role for the Rb protein in determining the degree of staurosporine-induced G1 arrest in the first cell cycle.
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PMID:An important role for the retinoblastoma protein in staurosporine-induced G1 arrest in murine embryonic fibroblasts. 946 60

A unique feature of p21 that distinguishes it from the other cyclin-dependent kinase (CDK) inhibitors is its ability to associate with the proliferating cell nuclear antigen (PCNA), an auxiliary factor for DNA polymerases delta and epsilon. While it is now well established that inhibition of cyclin/CDK complexes by p21 can result in G1 cell cycle arrest, the consequences of p21/PCNA interaction on cell cycle progression have not yet been determined. Here, we show, using a tetracycline-regulated system, that expression of wild-type p21 in p53-deficient DLD1 human colon cancer cells inhibits DNA synthesis and causes G1 and G2 cell cycle arrest. Similar effects are observed in cells expressing p21CDK-, a mutant impaired in the interaction with CDKs, but not in cells expressing p21PCNA-, a mutant deficient for the interaction with PCNA. Analysis of cells treated with a p21-derived PCNA-binding peptide provides additional evidence that the growth inhibitory effects of p21 and p21CDK result from their ability to bind to PCNA. Our results suggest that p21 might inhibit cell cycle progression by two independent mechanisms, inhibition of cyclin/CDK complexes, and inhibition of PCNA function resulting in both G1 and G2 arrest.
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PMID:p21 binding to PCNA causes G1 and G2 cell cycle arrest in p53-deficient cells. 946 56

p21waf1 has been shown to mediate the p53-dependent growth arrest induced by DNA-damaging agents. Several functions have been ascribed to p21waf1 that could be involved in this growth arrest. For one, p21waf1 is an efficient inhibitor of cyclin-dependent kinases (CDKs). Also, p21waf1 can interact with proliferating cell nuclear antigen (PCNA), and as such inhibit in vitro DNA-replication. Finally, p21waf1 has been reported to inhibit stress-activated protein kinases (SAPKs). In order to study these multiple functions of p21waf1 we have established U2OS-derived cell lines, in which the expression of p21waf1 can be regulated by the concentration of tetracycline in the culture medium. We observed a virtually complete, but reversible inhibition of cell growth upon induction of p21waf1-expression. Both [3H]thymidine-incorporation and CDK2-activity were strongly inhibited by p21waf1. Upon induction of p21waf1 cells accumulated with a 2N or 4N DNA content suggesting events in G1 and G2 can be inhibited by p21waf1. Indeed, kinase activity associated with cyclin B was reduced dramatically upon induction of p21waf1, although cyclin B continues to be expressed. In contrast, p21waf1 does not seem to inhibit the function of PCNA in ongoing DNA replication, since cells expressing high levels of p21waf1 apparently progressed normally through S-phase. Also, the activity of SAPKs was not substantially affected by the high levels of p21waf1. We conclude that, at least in these U2OS-derived cells, p21waf1 functions as an inhibitor of CDK-activity in G1 and G2, but not as an inhibitor of PCNA or SAPKs.
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PMID:p21waf1 can block cells at two points in the cell cycle, but does not interfere with processive DNA-replication or stress-activated kinases. 948 32

Anti-idiotype (anti-Id) antibody can induce tumor dormancy in a murine B lymphoma, BCL1, by its ability to induce cell cycle arrest and apoptosis (negative signaling). In human B lymphoma, there is accumulating evidence that the antitumor effect of anti-Id or several other B cell-reactive antibodies relates to their ability to act as agonists rather than conventional effector antibodies. In this study, we sought to elucidate the role of cyclins, cyclin-dependent kinases (CDKs), and their inhibitors in anti-IgM-induced cell cycle arrest to better understand the mechanisms underlying cancer dormancy. To accomplish this, we have performed in vitro studies with a human lymphoma cell line (Daudi) because its response to anti-Id (or anti-IgM) is similar to that of a BCL1 cell line, more reagents are available, and the results would be particularly pertinent to therapy of human B cell lymphomas. Our results show that cross-linking of membrane IgM on Daudi cells induces an arrest late in G1 and prevents pRb from becoming phosphorylated. The G1 arrest is correlated with an induction of the CDK inhibitor p21 and reduced CDK2 activity, although the level of CDK2 protein was not changed. Coprecipitation of CDK2 with p21 in anti-IgM-treated cells and the unchanged level of cyclin E suggest that p21 is responsible for the reduction of CDK2 activity and therefore blockade of the cell cycle. The induction of p21 was not accompanied by changes in p53 levels. As a result of the G1 block, cyclin A levels sharply declined by 24 h after anti-IgM treatment. There was no evidence for involvement of CDK4 or CDK6 in the blockade. These results provide evidence that membrane IgM cross-linking on Daudi cells induces expression of p21 and a subsequent inhibition of the cyclin E-CDK2 kinase complex resulting in a block to pRb phosphorylation and cell cycle arrest late in G1.
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PMID:Cancer dormancy: role of cyclin-dependent kinase inhibitors in induction of cell cycle arrest mediated via membrane IgM. 948 22

A431 cells hyperproduce EGF receptors and possess inactive p53 proteins. It has been suggested that a cyclin-dependent kinase (CDK) inhibitor p21/WAF1 plays a crucial role in the EGF-induced cell-cycle arrest of A431 cells. Here, we investigated the role of WAF1 gene transcription in the EGF-induced cell-cycle arrest by transfecting the 18-mer antisense oligonucleotide which corresponds to the 5' region of WAF1 gene (AS/WAF1). When A431 cells were treated with EGF, a cascade of responses were observed, including immediate hyperphosphorylation of EGF receptor on tyrosine residues, accumulation of WAF1 mRNA and p21/WAF1 protein, dephosphorylation of RB protein which is a substrate of CDK-cyclin, and cell-cycle arrest. In the presence of AS/WAF1, EGF induced the tyrosine-phosphorylation of EGF receptor, but WAF1 mRNA was reduced to a half; accumulation of p21/WAF1 protein and its downstream responses were no longer observed; A431 cells grew continuously. Thus, the transfection of antisense efficiently prevented A431 cells from the EGF-induced arrest. These observations suggest that p21/WAF1 protein is a major effector molecule of the EGF-mediated cell-cycle arrest of A431 cells.
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PMID:Antisense oligonucleotide of WAF1 gene prevents EGF-induced cell-cycle arrest in A431 cells. 948 44

Oncoprotein MDM2 inhibits p53-dependent cell cycle arrest and apoptosis. MDM2-overexpressing human cancer cell lines (n = 3) were found to be resistant to growth inhibition after infection by p53-expressing adenovirus (Ad-p53), as compared to low MDM2-expressing tumors (n = 3), in vitro. The growth of MDM2-overexpressing tumors, however, was inhibited by p21-expressing adenovirus (Ad-p21) infection, and the cyclin-dependent kinase-inhibitory region of p21 was sufficient to bypass the MDM2-p53 feedback loop. The phosphorylation state of Rb correlated with the response to either p53 or p21 gene therapy. MDM2-overexpressing cancer cells infected by Ad-p21 also developed a quiescent large-cell morphology. The results suggest that MDM2-mediated resistance to p53 may be bypassed by p21 and that the Rb phosphorylation state may predict the effects on growth after Ad-p53 or Ad-p21 infection.
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PMID:Bypass of abnormal MDM2 inhibition of p53-dependent growth suppression. 951 79

We have studied the role of the oxygen-dependent pyrimidine metabolism in the regulation of cell cycle progression under moderate hypoxia in human cell lines containing functional (T-47D) or non-functional (NHIK 3025, SAOS-2) retinoblastoma gene product (pRB). Under aerobic conditions, pRB exerts its growth-regulatory effects during early G1 phase of the cell cycle, when all pRB present has been assumed to be in the underphosphorylated form and bound in the nucleus. We demonstrate that pRB is dephosphorylated and re-bound in the nucleus in approximately 90% of T-47D cells located in S and G2 phases under moderately hypoxic conditions. Under these conditions, no T-47D cells entered S-phase, and no progression through S-phase was observed. Progression of cells through G2 and mitosis seems independent of their functional pRB status. The p21WAF1/CIP1 protein level was significantly reduced by moderate hypoxia in p53-deficient T-47D cells, whereas p16(INK4a) was not expressed in these cells, suggesting that the hypoxia-induced cell cycle arrest is independent of these cyclin-dependent kinase inhibitors. The addition of pyrimidine deoxynucleosides did not release T-47D cells, containing mainly underphosphorylated pRB, from the cell cycle arrest induced by moderate hypoxia. However, NHIK 3025 cells, in which pRB is abrogated by expression of the HPV18 E7 oncoprotein, and SAOS-2 cells, which lack pRB expression, continued cell cycle progression under moderate hypoxia provided that excess pyrimidine deoxynucleosides were present. NHIK 3025 cells express high levels of p16INK4a under both aerobic and moderately hypoxic conditions, suggesting that the inhibitory function of p16(INK4a) would not be manifested in such pRB-deficient cells. Thus, pRB, a key member of the cell cycle checkpoint network, seems to play a major role by inducing growth arrest under moderate hypoxia, and it gradually overrides hypoxia-induced suppression of pyrimidine metabolism in the regulation of progression through S-phase under such conditions.
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PMID:The retinoblastoma protein-associated cell cycle arrest in S-phase under moderate hypoxia is disrupted in cells expressing HPV18 E7 oncoprotein. 952 26

The cyclin-dependent kinase inhibitor p21(WAF1/CIP1/SDI1/CAP20) exists in normal human fibroblasts in a quaternary complex with a cyclin, a cyclin-dependent kinase, and proliferating cell nuclear antigen. A model was proposed in which, during p53-mediated suppression of cell proliferation following treatment with 254 nm UV radiation (UVC), the enhanced expression of p21 might inhibit DNA replication by virtue of its interactions with proliferating cell nuclear antigen. To test this model, we examined the mechanisms of inhibition of DNA replication in diploid human fibroblasts that express human papillomavirus type 16 E6, which inactivates p53. E6-expressing cells were defective in G1 checkpoint responses of induction of p21 and G1 arrest after ionizing radiation-induced damage to DNA. Accordingly, E6-expressing cells were resistant to inactivation of single-cell colony formation by ionizing radiation. E6 cells also displayed normal S-phase checkpoint responses of inhibition and recovery of replicon initiation following exposure to ionizing radiation and normal ability to bypass pyrimidine dimers during DNA replication soon after UVC irradiation (i.e., postreplication repair). However, DNA replication 6 h after UVC exposure was significantly inhibited in E6 cells in comparison to isogenic controls. This failure to maintain DNA replication in S-phase cells was associated with enhanced sensitivity to inactivation of single-cell colony formation by UVC. These results indicate that the p53-induced p21 pathway is not involved in the immediate S-phase responses to radiation-induced DNA damage of inhibition of replicon initiation and translesion bypass. However, our results demonstrate that p53 and, conceivably, p21 contribute to the ability of normal human fibroblasts to sustain DNA replication activity and form colonies following UVC irradiation.
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PMID:p53-dependent signaling sustains DNA replication and enhances clonogenic survival in 254 nm ultraviolet-irradiated human fibroblasts. 958 44

In recent two years, a group of protein factors have been found to combine with the cyclin-dependent kinases (CDKs) and block the activation of cyclin/CDK complexes. They are named CDK inhibitors (CKIs) as p21, p16, p15, p27 and CDI1. The p21 and p27 have certain homology and can inhibit the activity of multiple CDKs; p16 and p15 have higher homology and can specifically combine with CDK4 and CDK6; and the combination specificity of CDI1 needs further research. The expression of p21 is regulated positively by p53. TGF-beta can upregulate the expression of p15 and the inhibitory activity of p27. The above findings demonstrate that CKIs are not only the regulators of CDKs' activity but also the direct linkers between cancer inhibitors and cell-cycle regulation.
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PMID:[Cyclin-dependent kinase inhibitors in mammal cells]. 959 31


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