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)

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

Recently, a homologue of the small subunit of mammalian ribonucleotide reductase (RNR) was discovered, called p53R2. Unlike the well characterized S phase-specific RNR R2 protein, the new form was induced in response to DNA damage by the p53 protein. Because the R2 protein is specifically degraded in late mitosis and absent in G0/G1 cells, the induction of the p53R2 protein may explain how resting cells can obtain deoxyribonucleotides for DNA repair. However, no direct demonstration of RNR activity of the p53R2 protein was presented and furthermore, no corresponding RNR large subunit was identified. In this study we show that recombinant, highly purified human and mouse p53R2 proteins contain an iron-tyrosyl free radical center, and both proteins form an active RNR complex with the human and mouse R1 proteins. UV irradiation of serum-starved, G0/G1-enriched mouse fibroblasts, stably transformed with an R1 promoter-luciferase reporter gene construct, caused a 3-fold increase in luciferase activity 24 h after irradiation, paralleled by an increase in the levels of R1 protein. Taken together, our data indicate that the R1 protein can function as the normal partner of the p53R2 protein and that an R1-p53R2 complex can supply resting cells with deoxyribonucleotides for DNA repair.
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PMID:Mammalian p53R2 protein forms an active ribonucleotide reductase in vitro with the R1 protein, which is expressed both in resting cells in response to DNA damage and in proliferating cells. 1151 26

p53R2 is a recently cloned gene that functions in p53-induced DNA repair. In the 5'-untranslated region of the p53R2 gene two direct tandem 8 bp repeats are located. Within the region of these 8 bp direct repeats we have detected the insertion of an additional repeat. In order to determine a possible association of this novel polymorphism with any cancer or population, we carried out genotyping of 843 European and Asian controls and patients with various cancer types. In addition, 26 cancer cell lines were included in the study. No significant difference in polymorphic frequency could be demonstrated for any of the cancer types, although the allelic frequency in melanoma patients was lower than in controls (chi(2) = 3.28; P = 0.07; OR = 0.32; 95% CI 0.07-1.26). A significantly higher frequency of the polymorphism was detected in the compiled Caucasian individuals compared with Asians (chi(2) = 9.19; P = 0.002; OR = 3.13; 95% CI 1.39-7.43). In one tumour cell line we observed two extra inserted copies of the 8 bp repeat. The functional effect of the insertion polymorphism on the p53R2 gene transcription remains to be determined.
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PMID:Polymorphic insertion of additional repeat within an area of direct 8 bp tandem repeats in the 5'-untranslated region of the p53R2 gene and cancer risk. 1168 47

A recently identified ribonucleotide reductase (RR), p53R2, is directly regulated by p53 for supplying nucleotides to repair damaged DNA. We examined the role of this p53R2-dependent pathway for DNA synthesis in a p53-regulated cell cycle checkpoint, comparing it to R2-dependent DNA synthesis. The elevation of DNA synthesis activity through RR in response to gamma-irradiation was closely correlated with the level of expression of p53R2 but not of R2. The p53R2 product accumulated in nuclei, whereas R2 levels in cytoplasm decreased. We found a point mutation of p53R2 in cancer cell line HCT116, which resulted in loss of RR activity. In those cells, DNA damage-inducible apoptotic cell death was enhanced through transcriptional activation of p53AIP1. The results suggest that p53R2-dependent DNA synthesis plays a pivotal role in cell survival by repairing damaged DNA in the nucleus and that dysfunction of this pathway might result in activation of p53-dependent apoptosis to eliminate dangerous cells.
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PMID:p53R2-dependent pathway for DNA synthesis in a p53-regulated cell cycle checkpoint. 1171 58

p53R2, a recently identified putative tumor suppressor located at 8q23.1, encodes a protein with striking similarity to a small subunit of ribonucleotide reductase. p53R2 is directly induced by wild-type p53 and involved in the p53 checkpoint for repair of damaged DNA, raising the possibility that mutational inactivation of p53R2 may contribute to the development and progression of human malignancies. To explore the p53R2's candidacy for a suppressor in gastric tumorigenesis, we examined the expression and mutation status of p53R2 in 166 gastric specimens including 90 primary adenocarcinomas and 15 cell lines. In response to genotoxic damages, p53R2 transcription was clearly activated in wild-type but not mutant-type p53-carrying cells while basal expression of p53R2 in undamaged cells showed no association with the mutational status of p53. Host cell reactivation assay revealed that p53R2 enhances DNA repair efficiency and plays a role in the p53-mediated repair of damaged DNA, whereas no significant effect of p53R2 on cell growth and apoptosis was detected in flow cytometry and [(3)H]thymidine incorporation assays. p53R2 transcript was expressed in all normal and tumor tissues and its expression levels were not significantly different between normal and malignant carcinoma tissues. p53R2 expression showed no correlation with stage, grade and histological types of tumors. Moreover, no tumor-specific reduction of p53R2 was detected in 30 matched sets. Mutational analysis of p53R2 in 105 carcinomas including 15 cell lines also failed to detect any evidences for genomic deletion or somatic mutations leading to amino acid substitutions or frameshift whereas 31% (28 of 90) of the same primary tumors showed p53 alterations. Whereas 82% (23 of 28) of the mutant p53-carrying primary tumors expressed abnormally low p21(Waf1), no association of p53R2 expression with the p53 status was recognized, suggesting that basal transcription of p53R2 is regulated through the p53-independent mechanism. Collectively, our study indicates that although p53R2 is induced in a p53-dependent manner and involved the p53-mediated DNA repair in gastric epithelial cells, it is not a critical target of genetic inactivation in gastric tumorigenesis.
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PMID:Expression and mutation analyses of P53R2, a newly identified p53 target for DNA repair in human gastric carcinoma. 1192 Jun 41

We determined inactivation of the CDKN2A (p16(INK4a) and p14(ARF)) gene in 21 cases of oesophageal squamous cell carcinoma (OSCC). The tumours were also analysed for mutations in exons 5-8 and allelic losses in the p53 gene. In addition, we screened the CDKN2B (p15 INK4b), CDKN2C (p18 INK4c), CDK4 and p53R2 genes for mutations in the tumour tissues. Besides concomitant alterations in the CDKN2A and p53 loci in more than half of the cases, our results showed that in 18 OSCC (86%) the CDKN2A (p16(INK4a) and p14(ARF) ) gene was affected through mutations, homozygous/hemizygous deletions and promoter hypermethylation. Eight out of 10 tumours with mutations or promoter hypermethylation specific to the CDKN2A/p16 INK4a gene showed loss of the wild-type allele. One tumour with a single base deletion in the N-terminus (codon 8) of the CDKN2A/p16(INK4a) gene carried a novel germ-line mutation or a rare polymorphism (Ile51Met) in exon 2 of the CDK4 gene. Promoter hypermethylation in the CDKN2A/p14 ARF gene was detected in 11 tumours. In the p53 gene 15 mutations were detected in 14 tumours. We detected an inverse relationship between CDKN2A/p16 INK4a inactivation and frequency of loss of heterozygosity at the p53 locus (OR 0.09, 95% CI 0.01-0.98; Fisher exact test, P-value approximately 0.03). Screening of nine exons of the p53R2 [Human Genome Organisation (HUGO) official name RRM2B] gene resulted in identification of a novel polymorphism in the 5' untranslated region, which was detected in four cases. Our results suggest that the CDKN2A (p16(INK4a) and p14(ARF) ) and p53 genes involved in the two cell cycle pathways are major and independent targets of inactivation in OSCC.
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PMID:Genetic status of cell cycle regulators in squamous cell carcinoma of the oesophagus: the CDKN2A (p16(INK4a) and p14(ARF) ) and p53 genes are major targets for inactivation. 1196 Sep 18

The pathway leading to BRCA1-dependent tumor suppression is not yet clear but appears to involve activities in DNA repair as well as gene transcription. Moreover, it has been shown that BRCA1 can regulate p53-dependent transcription. Because BRCA1 overexpression stabilizes wild-type p53 but does not lead to apoptosis of most cell lines, we investigated the selectivity of BRCA1 for p53-dependent target gene activation. We find that BRCA1-stabilized p53 regulates transcription of DNA repair and growth arrest genes while p53 stabilized by DNA-damaging agents induces a wide array of genes, including those involved in apoptosis. This differential expression profile was reflected in the treatment outcome--apoptosis following DNA damage and growth arrest after expression of BRCA1. Depletion of BRCA1 in wild-type-p53-expressing cells abolished the induction of such repair genes as p53R2, while the expression of PIG3, an apoptosis-inducing gene, was still induced. BRCA1 also conferred diminished cell death in a p53-dependent manner in response to adriamycin compared to that conferred by controls. These results suggest that BRCA1 selectively coactivates the p53 transcription factor towards genes that direct DNA repair and cell cycle arrest but not towards those that direct apoptosis.
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PMID:BRCA1 directs a selective p53-dependent transcriptional response towards growth arrest and DNA repair targets. 1202 39

p14(ARF), a product of the INK4A/ARF locus, induces p53 upregulation by neutralizing the effects of MDM2, a transcriptional target of p53 that antagonizes its function. Here we report that adenovirus-mediated p14(ARF) gene transfer leads to the accumulation of ectopically transduced p53 and to apoptosis in human cancer cells. We constructed an adenoviral vector expressing p14(ARF) (Ad-ARF) and examined its synergistic effect with p53-expressing adenovirus (Ad5CMV-p53 or Ad-p53) in human lung and esophageal cancer cells. Simultaneous Ad-ARF and Ad-p53 infection increased p53 protein levels not only in a wild-type p53-expressing cell line, but also in cell lines with deleted p53. This resulted in a significant in vitro cytotoxicity compared with Ad-p53 infection alone. Coinfection of Ad-ARF and Ad-p53 also resulted in an increase in expression of p53-inducible genes, including p21(WAF-1/Cip1), p53R2, and Noxa. In addition, the growth of human lung cancer tumors subcutaneously implanted into nu/nu mice was inhibited significantly by intratumoral injection with Ad-ARF and Ad-p53. Our data demonstrate that overexpression of ectopic p14(ARF) may render cells more sensitive to p53-mediated apoptosis, an outcome that has important implications for the treatment of human cancers.
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PMID:Adenovirus-mediated p14ARF gene transfer cooperates with Ad5CMV-p53 to induce apoptosis in human cancer cells. 1216 19

The human expressed sequence tag (EST) database provides a wealth of resources, which can be used to rapidly screen for potential polymorphisms in proteins of physiological interest. The human p53R2 gene, a recently identified ribonucleotide reductase, plays an important role in DNA repair and is involved in the pathway of p53 activity in response to the presence of DNA damage. On the basis of the alignment of human EST sequences, we identified three candidate polymorphisms at nt 2752, 2759 and 4696 in the 3'-untranslated region of the p53R2 gene. The presence of these polymorphisms was confirmed in a Caucasian population (n = 82) by allele-specific PCR and PCR/restriction fragment length polymorphism analyses. The rare allele frequency at position 4696 (15.5%) is higher than either rare allele frequency at position 2752 or 2759 (6 and 6%). Our results suggest that the human EST data may serve as a valuable source for the rapid identification of genetic variation.
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PMID:The discovery and confirmation of single nucleotide polymorphisms in the human p53R2 gene by EST database analysis. 1220 22

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