UNIPROT:P04637 - FACTA Search

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

L1210 cell lines, selected for resistance to deoxyadenosine due to the loss of allosteric inhibition of ribonucleotide reductase by dATP, had altered steady-state levels of the mRNAs for c-myc, fos, and p53. Wild-type L1210 cells had constitutive steady-state levels of c-myc and p53 with little or no fos mRNA. Two different deoxyadenosine-resistant cell lines (Y8 and ED2) had elevated steady-state levels of c-myc and fos but essentially no p53 mRNA. Hydroxyurea-resistant L1210 cells had the same levels of c-myc, fos, and p53 as the wild-type cells. There was no amplification of the gene for c-myc in the Y8 or ED2 cell lines. The half-life for c-myc mRNA was essentially the same in the wild-type and the Y8 and ED2 cells. Nuclear runoff experiments showed that the rates of transcription for c-myc in the Y8 and ED2 cells were elevated and could account for the increased steady-state levels of c-myc in these two cell lines. The transcription rate for p53 mRNA was not decreased in the Y8 and ED2 cells and therefore did not account for the loss of the steady-state levels of p53 in the cells. Cycloheximide treatment of the Y8 and ED2 cells resulted in a marked increase in the steady-state p53 mRNA level, indicating that a protein which was rapidly turned over was responsible for the extremely short half-life of p53 mRNA in these two cell lines.
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PMID:Altered steady-state levels of the messenger RNAs for c-myc and p53 in L1210 cell lines resistant to deoxyadenosine. 155 Nov 29

Ribonucleotide reductase is a highly regulated, cell cycle-controlled activity that plays an important role in DNA synthesis and repair. Recent studies have shown that elevated expression of the rate-limiting R2 component of ribonucleotide reductase increases Raf-1 protein activation and mitogen-activated protein kinase activity and acts as a novel malignancy determinant in cooperation with activated oncogenes like H-ras. We show that hydroxyurea-resistant mouse L cells with elevated R2 gene expression and increased ribonucleotide reductase activity exhibit significantly decreased sensitivities to the chemotherapeutic compounds N-(phosphonacetyl)-L-aspartate (PALA) and methotrexate (MTX). Furthermore, BALB/c 3T3 cells containing a retroviral expression vector encoding the R2 sequence also showed decreased sensitivity to PALA and MTX when compared to cells containing the same vector but without the R2 coding region. Colonies that developed in the presence of PALA or MTX contained amplifications of the CAD or dihydrofolate reductase genes and exhibited wild-type p53 function as determined in sequence-specific p53 binding activity assays. NIH-3T3 cells containing the R2 retroviral expression vector also showed significantly decreased sensitivity to hydroxyurea and MTX but not to PALA. Furthermore, NIH-3T3 cells transfected with a vector containing the R2 sequence in antisense orientation exhibited increased sensitivity to hydroxyurea, PALA, and MTX. Similarly, mouse 10T1/2 cells that are highly transformed and drug resistant due to alterations in H-ras and a mutant oncogenic form of p53 exhibited significant increases in sensitivity to hydroxyurea, PALA, and MTX when transfected with a vector containing the R2 sequence in antisense orientation and compared to cells containing the same vector without the antisense sequence. These results indicate that altered expression of the R2 component is capable of significantly modifying drug sensitivity properties of tumor cells. We hypothesize that this occurs, at least in part, through a mechanism of increased genetic instability that is independent of direct p53 mutation or loss and involves R2 stimulation of the mitogen-activated protein kinase signal pathway.
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PMID:Ribonucleotide reductase R2 gene expression and changes in drug sensitivity and genome stability. 935 52

Recent studies have implicated nucleotides in diverse and unexpected functions related to p53 levels, p53-dependent G0/G1 cell cycle arrest, and the role of dATP in the activation of the caspase-induced apoptosis. Using deoxyadenosine-resistant L1210 cells (ED2 and Y8) that had ribonucleotide reductase that was not sensitive to inhibition by dATP and also exhibited other metabolic alterations, the properties of these cells with respect to the role(s) of nucleotides in these functions were explored. In the ED2 and Y8 cells that did not express p53 protein, the pools of UTP, CTP, ATP, and GTP were markedly decreased. The decreased cellular levels of UTP and CTP did not result in these cells being more sensitive to either PALA or acivicin. The ED2 and Y8 cells did not block in G0/G1 in response to PALA treatment even though the basal cellular concentrations of UTP and CTP were reduced 50 to 80%. While it has been shown that dATP in combination with cytochrome c is involved in the apoptotic pathway, the concentration of exogenous deoxyadenosine required to induce apoptosis in the parental L1210 cells was far in excess of the concentration required to inhibit cell growth. Deoxyadenosine did not cause an increase in apoptosis in the deoxyadenosine-resistant Y8 cells. These data suggest that the new roles ascribed to nucleotides may be specific for the particular cell type under very specific conditions.
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PMID:Cellular responses in mouse leukemia L1210 cells made resistant to deoxyadenosine. 973 Nov 98

Effects of drug treatment with antimetabolites on a human colon cancer cell line, SW480, were studied. Cells were treated with 10 microM of 5-fluorouracil (5FU), an inhibitor of pyrimidine synthesis, or 1000 microM of hydroxyurea (HU), an inhibitor of both purine and pyrimidine syntheses, or the combination. Recombinant alpha-2a-interferon (IFN), 500 U/mL, also was employed, as this augments the effects of both antimetabolites in vitro and in vivo. The predominant effect of this combination was to block cells in early S phase as measured by 5-bromo-2'-deoxyuridine (BrdUrd) incorporation. By 24 hr, 86% of the cells had accumulated in S phase, but failed to progress to G2/M. This was accompanied by an early, rapid decline in all four deoxyribonucleoside triphosphates (dNTPs) by 38-86% at 4-24 hr. Despite these effects, expression of the G1/S transition state enzyme, ribonucleotide reductase (RR), increased at 24 hr as measured by a 3 to 5-fold increase in mRNA levels for the M2 subunit, in the absence of a measurable effect on protein levels. The rise in levels of RR mRNA and the continued progression of cells into S phase were associated with a synergistic inhibition of cell cycle proliferation resulting from treatment with the three-drug combination. This suggests that in the presence of antimetabolite-induced depletion of dNTPs, SW480 cells, which lack a normal p53 gene, will proceed into S phase, and that this is associated with a rise in expression of the G1/S transition state enzyme, RR. Cells arrested in S phase by a p53-independent mechanism will undergo a synergistic enhancement of cell death.
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PMID:Effects of perturbations of pools of deoxyribonucleoside triphosphates on expression of ribonucleotide reductase, a G1/S transition state enzyme, in p53-mutated cells. 1007 25

The deoxyadenosine-resistant mouse leukemia L1210 cell line (Y8) has previously been shown to have phenotypic differences that appear unrelated to the altered properties observed at the level of ribonucleotide reductase (RR). In response to various stress factors, the parental wild-type (WT) L1210 cell line undergoes cell cycle arrest; Y8 cells become apoptotic. These responses are p53-independent. Cell cycle regulation also appears different between the two cell lines, suggesting that Y8 cells are more apoptotic because of alterations in their cell cycle compared to WT cells. In order to study the relationships between cell cycle regulation and apoptosis, the effects of 2-aminopurine (2-AP), wortmannin, and PD98059, were studied on WT and Y8 cells. 2-AP induced G2/M block in both WT and Y8 cells with differences in G0/G1 and S phase contents between the two cell lines. Wortmannin induced G0/G1 block in Y8 cells, while exhibiting no effect on WT cells. PD98059 had no effect on the cell cycle of either WT or Y8 cells. In response to each inhibitor, Y8 cells underwent apoptosis to a much greater extent than the parental WT cell line. These data suggest that the specific pathways that converge on the cell cycle are altered and may be involved in the differences between a tumor cell to block in cell cycle or to undergo apoptosis.
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PMID:Altered sensitivity of deoxyadenosine-resistant mouse leukemia L1210 cells to various kinase inhibitors. 1036 49

The lung is a very common site for primary cancer and metastatic disease. Advances in tumor biology have provided insight into the sequence of genetic alterations leading to tumor and metastasis formation in the lung. In this review we address two genetic alterations, the dominant ras oncogene and the p53 tumor suppressor gene, which are commonly found in lung cancer and pulmonary metastases. We discuss their specific roles in tumor development, invasion, metastasis formation, and their potential prognostic utility. In addition, we will discuss the concept of a novel modulator gene, ribonucleotide reductase, and review its role in the control of metastasis formation.
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PMID:Molecular genetic analysis of primary lung cancer and cancer metastatic to the lung. 1036 61

The p53 gene is frequently inactivated in human cancers. Here we have isolated a p53-inducible gene, p53R2, by using differential display to examine messenger RNAs in a cancer-derived human cell line carrying a highly regulated wild-type p53 expression system. p53R2 contains a p53-binding sequence in intron 1 and encodes a 351-amino-acid peptide with striking similarity to the ribonucleotide reductase small subunit (R2), which is important in DNA synthesis during cell division. Expression of p53R2, but not R2, was induced by ultraviolet and gamma-irradiation and adriamycin treatment in a wild-type p53-dependent manner. Induction of p53R2 in p53-deficient cells caused G2/M arrest and prevented cells from death in response to adriamycin. Inhibition of endogenous p53R2 expression in cells that have an intact p53-dependent DNA damage checkpoint reduced ribonucleotide reductase activity, DNA repair and cell survival after exposure to various genotoxins. Our results indicate that p53R2 encodes a ribonucleotide reductase that is directly involved in the p53 checkpoint for repair of damaged DNA. The discovery of p53R2 clarifies a relationship between a ribonucleotide reductase activity involved in repair of damaged DNA and tumour suppression by p53.
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PMID:A ribonucleotide reductase gene involved in a p53-dependent cell-cycle checkpoint for DNA damage. 1071 25

Many p53-inducible genes have been identified that might play a role in mediating the various downstream activities of p53. We have identified a close relative of ribonucleotide reductase, recently named p53R2, as a p53-inducible gene, and show that this gene is activated by several stress signals that activate a p53 response, including DNA damaging agents and p14(ARF). p53R2 expression was induced by p53 mutants that are defective for the activation of apoptosis, but retain cell cycle arrest function, although no induction of p53R2 was seen in response to p21(WAF1/CIP1)-mediated cell cycle arrest. Several isoforms of the p53 family member p73 were also shown to induce p53R2 expression. Transient ectopic expression of either wild type p53R2 or p53R2 targeted to the nucleus, did not significantly alter cell cycle progression in unstressed cells. The identification of this gene as a p53 target supports a direct role for p53 in DNA repair, in addition to inhibition of growth of damaged cells. Oncogene (2000) 19, 4283 - 4289
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PMID:A ribonucleotide reductase gene is a transcriptional target of p53 and p73. 1098 Jun 2

The purpose of this study was to analyse the proliferative fraction with the monoclonal antibody M1-R-R to M1-subunit ribonucleotide reductase and with MIB-1 to Ki-67 antigen in relation to p53 protein expression in fine needle aspirates from B-cell non-Hodgkin's lymphomas. One hundred and thirty-seven cases, previously diagnosed and sub-typed according to the Kiel classification and characterized by immunophenotyping, were included in the study. The M-1 subunit ribonucleotide reductase (M1-R-R), Ki-67 and p53 antigens were detected using monoclonal antibodies on stored cytospin preparations. There was a good correlation (r = 0.72) between Ki-67 and M1-R-R positive cell fraction in both high and low grade lymphomas. High-grade lymphomas had a median percentage of M1-R-R/MIB-1 positive cells of 53.0/73.0 for lymphoblastic, 61.0/52.0 for immunoblastic and 33.5/41.0 for centroblastic lymphomas, respectively. In low grade lymphomas figures of median percentage of M1-R-R/MIB-1 were 9.0/15.0 for centroblastic/centrocytic, 11.0/9.5 for chronic lymphocytic leukaemia, 16.0/27.0 for centrocytic and 12.0/9.0 for immunocytomas, respectively. The median percentages of M1-R-R/MIB-1 for high and low grade lymphomas were 37.0/50.5 and 11.0/12.0, respectively. In the p53 positive cases the proliferation rate as measured by staining for M1-R-R and MIB-1 was higher than in p53 negative cases, but the difference was not statistically significant. The results show that cytospin material obtained by fine needle aspiration and stored at -70 degrees C for years can be used reliably for both peroxidase-avidin-biotin and three-step alkaline phosphatase immunocytochemical staining. In addition, proliferation fraction determined by M1-R-R monoclonal antibody staining correlates well with that measured by an established marker for cell proliferation, the Ki-67 antibody. However, the proliferation fraction as measured by the two antibodies differs in the various subtypes of non-Hodgkin's lymphoma which indicates that they may contribute different prognostic information.
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PMID:Analysis of proliferating cell fraction determined by monoclonal antibody to M1-subunit ribonucleotide reductase and Ki-67 in relation to p53 protein expression in fine-needle aspirates from non-Hodgkin's lymphomas. 1101 56

Gemcitabine (2',2'-difluoro-2'-deoxycytidine; dFdCyd) has been shown to be a potent radiosensitizer in tumor cells both in vitro and in vivo. We evaluated the ability of dFdCyd to enhance the radiosensitivity of two human glioblastoma cell lines. The results demonstrated that U251 cells were more sensitive to the cytotoxicity of dFdCyd, and that dFdCyd was able to radiosensitize these cells. In contrast, D54 cells were more resistant to the cytotoxic effect of dFdCyd, and no radiosensitization occurred at any concentration of dFdCyd tested. Because radiosensitization by dFdCyd has been correlated with its ability to deplete dATP pools through inhibition of ribonucleotide reductase by dFdCyd diphosphate, we evaluated the metabolism of dFdCyd in both cell lines. At equitoxic concentrations of dFdCyd, both cell lines accumulated similar levels of the cytotoxic metabolite, dFdCyd triphosphate, as well as similar levels of dFdCyd monophosphate in DNA. In U251 cells, radiosensitizing concentrations of dFdCyd (10 or 25 nM; IC10 or IC50) depleted dATP by approximately 80% within 4 h. In contrast, 80 nM (IC50) was unable to deplete dATP by >30% within 4 h in D54 cells. Higher concentrations of dFdCyd or hydroxyurea, an inhibitor of ribonucleotide reductase that depleted dATP >90%, also did not produce radiosensitization in D54 cells. D54 cells were not resistant to radiosensitization because bromodeoxyuridine was able to induce radiosensitization. Because D54 cells express wild-type p53, whereas U251 cells express a mutant p53, the effect of dFdCyd and ionizing radiation on cell cycle progression was evaluated. Radiation alone produced a G1 block in D54 cells and a transient G2-M block in U251 cells. After a 24 h incubation with dFdCyd alone or in combination with ionizing radiation, U251 cells readily accumulated in S-phase, which remained elevated for at least 72 h, consistent with previous results in other mutant p53 cell lines. In addition, radiation enhanced the ability of dFdCyd to induce S-phase-specific cell death in U251 cells. In contrast, D54 cells showed a G1 block after dFdCyd and radiation exposure, with fewer cells in S-phase for at least 48 h after drug washout/irradiation. Furthermore, treatment with dFdCyd and/or radiation did not increase the amount of S-phase-specific cell death in D54 cells compared with control cells. These results suggest that the G1 block in D54 cells resulting from wild-type p53 induction prevented radiosensitization by dFdCyd.
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PMID:The role of cell cycle progression in radiosensitization by 2',2'-difluoro-2'-deoxycytidine. 1108 31

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