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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ribonucleotide reductase catalyzes the production of deoxyribonucleoside diphosphates, the precursors of deoxyribonucleoside triphosphates for DNA synthesis. Mammalian ribonucleotide reductase (RNR) is a tetramer consisting of two non-identical homodimers, R1 and either R2 or
p53R2
, which are considered to be involved in DNA replication and repair, respectively. We have demonstrated that DNA damage by doxorubicin and cisplatin caused a steady elevation of the R2 protein in
p53
(-/-) HCT-116 human colon carcinoma cells but induced degradation of the protein in
p53
(+/+) cells. To evaluate the involvement of R2 in response to DNA damage,
p53
(-/-) HCT-116 cells were stably transfected with an expression vector transcribing short hairpin/short interference RNA directed against R2 mRNA. Stably transfected clones exhibited a pronounced reduction of the R2 protein with no change in the cellular growth rate. Furthermore, short interference RNA-mediated reduction of the R2 protein caused a marked increase in sensitivity to the DNA-damaging agent cisplatin as well as to the RNR inhibitors Triapine and hydroxyurea. Ectopic expression of
p53R2
partially reversed the cytotoxicity of cisplatin but not that of RNR inhibitors to R2 knockdown cells. The increase in sensitivity to cisplatin and RNR inhibitors was correlated with the suppression of dATP and dGTP levels caused by stable expression of R2-targeted short interference RNA. These results indicated that DNA damage resulted in elevated levels of the R2 protein and dNTPs and, consequently, enhanced the survival of
p53
(-/-) HCT-116 cells. The findings provide evidence that R2-RNR can be employed to supply dNTPs for the repair of DNA damage in cells with an impaired
p53
-dependent induction of
p53R2
.
...
PMID:Stable suppression of the R2 subunit of ribonucleotide reductase by R2-targeted short interference RNA sensitizes p53(-/-) HCT-116 colon cancer cells to DNA-damaging agents and ribonucleotide reductase inhibitors. 1509 5
Abstract Using RT-PCR, we examined expression of the ribonucleotide reductase R2 subunit (RNR-R2) in Aedes albopictus mosquito cells after treatment with ultraviolet light (UV). In control cells, a predominant band at 1.2 kb corresponded to the full-length cDNA. A smaller 650 bp band was unique to UV-treated cells. Sequence analysis showed that the 650 bp band encoded a protein with an internal deletion of 179 amino acids, relative to Ae. albopictus RNR-R2. The N-terminal twenty amino acids were identical between AalRNR-R2 and AalDeltaR2; downstream of the deletion, the proteins differed at only four residues. In AalDeltaR2, the internal deletion spanned five residues critical to RNR-R2 enzymatic activity, including a key tyrosine residue that generates an essential free radical. The full-length 46 kDa and truncated 25 kDa RNR-R2 proteins were shown to be expressed on Western blots, and to differ in their subcellular localization. Similarly, expression of the two proteins was differentially regulated during the cell cycle, and expression of AalDeltaR2 predominated after UV treatment. AalDeltaR2 resembled a human RNR-R2 variant called
p53R2
, which was induced by agents that damage DNA. As was the case with
p53R2
and its antisense RNA, levels of AalDeltaR2 were diminished after treatment of mosquito cells with RNAi corresponding to
p53
from Drosophila melanogaster. Examination of the AalRNR-R2 homologue in the Anopheles gambiae genome suggested that AalDeltaR2 resulted from precise splicing between Exons 1, 4 and 5, eliminating Exons 2 and 3. The likelihood that AalDeltaR2 is a non-enzymatic, functional participant in DNA metabolism is suggested by enhancement of DNA repair in an in vitro system and by the presence of a similar gene (rnr4) in yeast.
...
PMID:The mosquito ribonucleotide reductase R2 gene: ultraviolet light induces expression of a novel R2 variant with an internal amino acid deletion. 1515 24
The
p53
family regulates cell-cycle arrest, triggers apoptosis or is involved in repair of DNA damage. In the present study, we analysed the expression of some
p53
family proteins and their responses to chemoradiation therapy (CRT) in cases of oesophageal squamous cell carcinoma (ESCC). We immunohistochemically investigated the relationship between
p53
,
p53R2
, and p21 expression in biopsy specimens of untreated primary tumours and their clinical and histological responses to CRT in 62 patients with ESCC. Chemoradiation therapy consisted of 5-fluorouracil plus cisplatin and 40 Gy of radiation. The rates of clinical and histological responses (complete or partial) to CRT were 71.0% (clinical) and 52.8% (histological). The rate of positive expression was 43.5% for
p53
, 37.1% for
p53R2
, and 54.8% for p21 expression. Statistically significant correlations were found between
p53
or
p53R2
expression and favourable response to CRT (P=0.0001 or 0.041 clinical, P=0.016 or 0.0018 histological, respectively). Furthermore, in
p53
-negative tumours, CRT was more effective in tumours with
p53R2
negative expression than those with
p53R2
positive expression (P=0.0014). We demonstrated that the negative expression of
p53
and
p53R2
expression was closely related to the effect of CRT and should predict the CRT outcome in patients with ESCC.
...
PMID:The predictive value of p53, p53R2, and p21 for the effect of chemoradiation therapy on oesophageal squamous cell carcinoma. 1565 47
p53
-Related genes, p73 and p63, encode 2 classes of proteins, TA-p73/p63 and DeltaN-p73/p63. TA-p73/p63 demonstrate
p53
-like properties including gene transactivation and cell death promotion, whereas DeltaN-p73/p63 lack these
p53
-like functions. Although
p53
-deficient cancer cells are often less responsive to chemotherapy, they are not completely drug resistant, suggesting that other apoptotic pathways are at work. Here, we compared for the first time to our knowledge p73 and p63 activation in various breast cancer (BC) cell lines after Adriamycin (ADR) treatment, an agent considered as mandatory in breast cancer chemotherapy. Our study was carried out using 1
p53
-proficient BC cell line (MCF7 cells) and 3 BC cell lines deficient in
p53
response (MCF7/ADR(IGR), MDA-MB157 and T47D) after ADR-induced genotoxic stress. We report that in cells with no
p53
response after ADR treatment, TAp73, but not TAp63 or DeltaN-p73/p63, may replace
p53
in triggering not only apoptosis but also cell cycle arrest or DNA repair effectors such as p21, GADD45, 14-3-3sigma and
p53R2
. We also demonstrate that TAp73 siRNA inhibits the accumulation of TAp73 in response to ADR treatment in MDA-MB157 cells and confers protection against ADR. ADR-induced downregulation of the DeltaNp73 isoform in the T47D cell line with nonfunctional mutant p53 further supports anti-apoptotic function of the isoform antagonistic to both
p53
and TA-p73/p63. Exogenous TAp73 and DeltaNp73 overexpression in
p53
-response-deficient cell lines further confirms these results. cDNA microarray techniques demonstrated that the cellular response induced by p73 during ADR treatment could involve specific genes.
...
PMID:P73 functionally replaces p53 in Adriamycin-treated, p53-deficient breast cancer cells. 3284 91
We have previously demonstrated that c-Myc impairs
p53
-mediated apoptosis in K562 human leukemia cells, which lack ARF. To investigate the mechanisms by which c-Myc protects from
p53
-mediated apoptosis, we used K562 cells that conditionally express c-Myc and harbor a temperature-sensitive allele of
p53
. Gene expression profiles of cells expressing wild-type conformation
p53
in the presence of either uninduced or induced c-Myc were analysed by cDNA microarrays. The results show that multiple p53 target genes are downregulated when c-Myc is present, including p21WAF1, MDM2, PERP, NOXA, GADD45, DDB2, PIR121 and
p53R2
. Also, a number of genes that are upregulated by c-Myc in cells expressing wild-type conformation
p53
encode chaperones related to cell death protection as HSP105, HSP90 and HSP27. Both downregulation of p53 target genes and upregulation of chaperones could explain the inhibition of apoptosis observed in K562 cells with ectopic c-Myc. Myc-mediated impairment of
p53
transactivation was not restricted to K562 cells, but it was reproduced in a panel of human cancer cell lines derived from different tissues. Our data suggest that elevated levels of Myc counteract
p53
activity in human tumor cells that lack ARF. This mechanism could contribute to explain the c-Myc deregulation frequently found in cancer.
...
PMID:Inhibitory effect of c-Myc on p53-induced apoptosis in leukemia cells. Microarray analysis reveals defective induction of p53 target genes and upregulation of chaperone genes. 1585 24
The
p53R2
gene encodes the ribonucleotide reductase (RR) small subunit 2 homologue, and is induced by several stress signals activating
p53
, such as DNA-damaging agents. The
p53R2
gene product causes an increase in the deoxynucleotide triphosphate (dNTP) pool in the nucleus, which facilitates DNA repair and synthesis. We hypothesized that
p53R2
would be a good molecular target for cancer gene therapy. In this study, three human oral cancer cell lines (SAS, HSC-4 and Ca9-22), a human breast cancer cell line MCF-7, and a normal human fibroblast cell line NHDF were tested. We silenced the expression of
p53R2
with the highly specific post-transcriptional suppression of RNA interference (RNAi). We investigated
p53R2
expression with the reverse transcription-polymerase chain reaction (RT-PCR) and Western blotting. The sensitivity to anticancer agents was evaluated by a 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay. The expression of
p53R2
showed no association with the mutational status of
p53
. The cancer cell lines with higher
p53R2
expression were more resistant to 5-FU. RNAi-mediated
p53R2
reduction selectivity inhibited growth and enhanced chemosensitivity in cancer cell lines but not in normal fibroblasts. These results suggest that basal transcription of
p53R2
could be associated with the sensitivity to anticancer agents. Moreover, we assessed the possibility that
p53R2
would be a good molecular target, and report that RNAi targeting of
p53R2
could be useful for oral cancer gene therapy.
...
PMID:Silencing of the p53R2 gene by RNA interference inhibits growth and enhances 5-fluorouracil sensitivity of oral cancer cells. 1589 Feb 38
With ulcerative colitis (UC)-associated tumorigenesis,
p53
gene alteration is considered to be a key event. To clarify whether the
p53
-checkpoint is operating in foci of inflammation and that its disruption is a feature of UC-associated neoplasms, the present immunohistochemical study was conducted. Since accumulation of butyric acid with active UC is associated with apoptosis, effects of in vitro exposure of newly established UC-cancer derived cell lines to organic acids were also assessed. The regulatory subunit of ribonucleotide reductase,
p53R2
, was found to be localized with
p53
in situ, and levels of
p53
, phospho-
p53
,
p53R2
and inducible nitric oxide synthase were significantly intercorrelated. However,
p53R2
expression was clearly reduced with progression through UC-associated dysplasia to carcinoma, demonstrating an inverse relation with
p53
overexpression. In vitro treatment with butyrate or propionic acid, but not succinic acid, elicited a positive response in the
p53
-
p53R2
system. Moreover,
p53
-dependent DNA repair, investigated by radioactive nucleotide incorporation, was induced by butyric acid and inhibited by short-interfering
p53
and
p53R2
RNAs. Therefore, it was concluded that the
p53
-
p53R2
-dependent DNA repair system is constitutively stimulated by butyric acid, which accumulates in UC inflammatory lesions. Since failure of the
p53
-G(1) checkpoint may cause dysfunction of repair under the influence of butyrate, gene alterations may increase and spread through the genome, leading to tumorigenesis.
...
PMID:Disruption of the p53-p53r2 DNA repair system in ulcerative colitis contributes to colon tumorigenesis. 1620 88
p53R2
, which encodes a subunit of ribonucleotide reductase, is activated by DNA damage induced by gamma-ray and ultraviolet irradiation, and also by genotoxic chemicals such as adriamycin. For the purpose of constructing an easy-operating genotoxicity test system using human cell lines, we developed a
p53R2
-dependent luciferase reporter gene assay, and demonstrated dose-dependent luminescence caused by adriamycin in two human cell lines that express wild-type
p53
, MCF-7 and HepG2. The performance of this assay system was evaluated with 80 chemicals including those known in the Ames test as genotoxic or non-genotoxic. When the luciferase activity of cells treated with the test sample was over 200% to that of control cells in a dose-dependent increasing manner, the sample was judged positive as a genotoxic chemical. Forty of 43 Ames-positive chemicals induced luciferase activity in this assay system. Eight Ames-negative chemicals also induced luciferase activity. These eight chemicals are genotoxic in other in vitro test systems using mammalian cells. It is suggested that this assay system can be applied to rapid screening of chemicals for potential human genotoxicity.
...
PMID:Genotoxicity test system based on p53R2 gene expression in human cells: examination with 80 chemicals. 1623 44
The
p53 protein
has been implicated in multiple cellular responses related to DNA damage. Alterations in any of these cellular responses could be related to increased genomic instability. Our previous study has shown that mutations in
p53
lead to hypermutability to ionizing radiation. To investigate further how
p53
is involved in regulating mutational processes, we used 8K cDNA microarrays to compare the patterns of gene expression among three closely related human cell lines with different
p53
status including TK6 (wild-type
p53
), NH32 (
p53
-null), and WTK1 (mutant p53). Total RNA samples were collected at 1, 3, 6, 9, and 24 h after 10 Gy gamma-irradiation. Template-based clustering analysis of the gene expression over the time course showed that 464 genes are either up or downregulated by at least twofold following radiation treatment. In addition, cluster analyses of gene expression profiles among these three cell lines revealed distinct patterns. In TK6, 165 genes were upregulated, while 36 genes were downregulated. In contrast, in WTK1 75 genes were upregulated and 12 genes were downregulated. In NH32, only 54 genes were upregulated. Furthermore, we found several genes associated with DNA repair namely
p53R2
, DDB2, XPC, PCNA, BTG2, and MSH2 that were highly induced in TK6 compared to WTK1 and NH32.
p53R2
, which is regulated by the
tumor suppressor p53
, is a small subunit of ribonucleotide reductase. To determine whether it is involved in radiation-induced mutagenesis,
p53R2
protein was inhibited by siRNA in TK6 cells and followed by 2 Gy radiation. The background mutation frequencies at the TK locus of siRNA-transfected TK6 cells were about three times higher than those seen in TK6 cells. The mutation frequencies of siRNA-transfected TK6 cells after 2 Gy radiation were significantly higher than the irradiated TK6 cells without
p53R2
knock down. These results indicate that
p53R2
was induced by
p53 protein
and is involved in protecting against radiation-induced mutagenesis.
...
PMID:Transcriptional responses to ionizing radiation reveal that p53R2 protects against radiation-induced mutagenesis in human lymphoblastoid cells. 1624 78
One protein central in the response of human keratinocytes to ultraviolet B damage is
p53
. By transactivating genes involved in either cell cycle arrest or DNA repair,
p53
has a leading role in the recovery from this damage. Considering this role, we wished to investigate whether the triggering of a
p53
-dependent gene program by repetitive ultraviolet B (UVB) exposure can induce an adaptive response in human skin cells. In particular, we examined two
p53
-target genes, p21/WAF1 and
p53R2
, with a crucial role in
p53
-induced cell cycle arrest and
p53
-induced DNA repair respectively. Exposure to a mild UVB dose was able to induce an adaptive response in human keratinocytes, leading to increased survival of cells that maintain their capacity to repair DNA damage upon exposure to apoptotic doses of UVB. Our study indicates that this adaptation response is only achieved if the interval between subsequent UVB insults allows sufficient time for the
p53
-induced protective gene program to be induced. Our results also demonstrate that small but quickly recurring UVB exposures are as harmful as one intense, continual exposure to UVB irradiation. Future research will be oriented toward investigating alternative ways to induce an adaptive response without pre-exposing the cells to UV.
...
PMID:A low UVB dose, with the potential to trigger a protective p53-dependent gene program, increases the resilience of keratinocytes against future UVB insults. 1629 80
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