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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Exposure to short-wavelength UV light (UVC) strongly induces
p53
expression. In human RKO colorectal carcinoma cells, this increase was not due to elevated
p53 mRNA
abundance, cytoplasmic export of
p53 mRNA
, or UVC-triggered stabilization of the
p53 protein
. Instead,
p53
translation was potently enhanced after UVC irradiation. The 3' UTR of
p53
was found to be a target of the
RNA-binding protein
HuR in a UVC-dependent manner in vitro and in vivo. HuR-overexpressing RKO cells displayed elevated
p53
levels, whereas cells expressing reduced HuR showed markedly diminished
p53
abundance and
p53
translation. Our results demonstrate a role for HuR in binding to the
p53 mRNA
and enhancing its translation.
...
PMID:RNA-binding protein HuR enhances p53 translation in response to ultraviolet light irradiation. 1282 81
A recent analysis of gene expression in renal cell carcinoma cells led to the identification of mRNAs whose translation was dependent on the presence of the von Hippel-Lindau (VHL) tumor suppressor gene product, pVHL. Here, we investigate the finding that pVHL-expressing RCC cells (VHL(+)) exhibited elevated levels of polysome-associated
p53 mRNA
and increased
p53 protein
levels compared with VHL-defective (VHL(-)) cells. Our findings indicate that
p53
translation is specifically heightened in VHL(+) cells, given that (i)
p53 mRNA
abundance in VHL(+) and VHL(-) cells was comparable, (ii)
p53
degradation did not significantly influence
p53
expression, and (iii)
p53
synthesis was markedly induced in VHL(+) cells. Electrophoretic mobility shift and immunoprecipitation assays to detect endogenous and radiolabeled
p53
transcripts revealed that the
RNA-binding protein
HuR, previously shown to regulate mRNA turnover and translation, was capable of binding to the 3' untranslated region of the
p53 mRNA
in a VHL-dependent fashion. Interestingly, while whole-cell levels of HuR in VHL(+) and VHL(-) cells were comparable, HuR was markedly more abundant in the cytoplasmic and polysome-associated fractions of VHL(+) cells. In keeping with earlier reports, the elevated cytoplasmic HuR in VHL(+) cells was likely due to the reduced AMP-activated kinase activity in these cells. Demonstration that HuR indeed contributed to the increased expression of
p53
in VHL(+) cells was obtained through use of RNA interference, which effectively reduced HuR expression and in turn caused marked decreases in
p53
translation and
p53
abundance. Taken together, our findings support a role for pVHL in elevating
p53
expression, implicate HuR in enhancing VHL-mediated
p53
translation, and suggest that VHL-mediated
p53
upregulation may contribute to pVHL's tumor suppressive functions in renal cell carcinoma.
...
PMID:Influence of the RNA-binding protein HuR in pVHL-regulated p53 expression in renal carcinoma cells. 1451 80
The
p53 tumor suppressor protein
is a homotetrameric transcription factor whose gene is mutated in nearly half of all human cancers. In an unrelated screen of RNA/protein interactions using the yeast three-hybrid system, we inadvertently detected
p53
interactions with several different RNAs. A literature review revealed previous reports of both sequence-specific and -non-specific interactions between
p53
and RNA. Using yeast three-hybrid selections to identify preferred RNA partners for
p53
, we failed to identify primary RNA sequences or obvious secondary structures required for
p53
binding. The cationic
p53
C-terminus was shown to be required for RNA binding in yeast. We show that while
p53
strongly discriminates between certain RNAs in the yeast three-hybrid assay, the same RNAs are bound equally by
p53
in vitro. We further show that the
p53
RNA-binding preferences in yeast are mirrored almost exactly by a recombinant tetrameric form of the HIV-1 nucleocapsid (NC) protein thought to be a sequence-nonspecific
RNA-binding protein
. However, the possibility of specific RNA binding by
p53
could not be ruled out because
p53
and HIV-1 NC displayed certain differences in RNA-binding preference. We conclude that (1)
p53
binds RNA in vivo, (2) RNA binding by
p53
is largely sequence-nonspecific in the yeast nucleus, (3) some structure-specific RNA binding by
p53
cannot be ruled out, and (4) caution is required when interpreting results of RNA screens in the yeast three-hybrid system because sequence-dependent differences in RNA folding and display can masquerade as sequence-dependent differences in protein recognition.
...
PMID:Recognition of RNA by the p53 tumor suppressor protein in the yeast three-hybrid system. 1658 6
Polyamines are essential for maintaining normal intestinal epithelial integrity, an effect that relies, at least in part, on their ability to keep low levels of nucleophosmin (NPM) and
p53
mRNAs. The
RNA-binding protein
HuR associates with the
p53 mRNA
, as reported previously, and with the NPM mRNA, computationally predicted to be a target of HuR. Here, we show that HuR binds the NPM and
p53
3'-untranslated regions and stabilizes these mRNAs in polyamine-depleted intestinal epithelial cells. Depletion of cellular polyamines by inhibiting ornithine decarboxylase with alpha-difluoromethylornithine dramatically enhanced the cytoplasmic abundance of HuR, whereas ectopic ornithine decarboxylase overexpression decreased cytoplasmic HuR; neither intervention changed whole-cell HuR levels. HuR was found to specifically bind the 3'-untranslated regions of NPN and
p53
mRNAs. HuR silencing rendered the NPM and
p53
mRNAs unstable and prevented increases in NPM and
p53 mRNA
and protein in polyamine-deficient cells. These results indicate that polyamines modulate cytoplasmic HuR levels in intestinal epithelial cells, in turn controlling the stability of the NPM and
p53
mRNAs and influencing NPM and
p53 protein
levels.
...
PMID:Polyamine depletion increases cytoplasmic levels of RNA-binding protein HuR leading to stabilization of nucleophosmin and p53 mRNAs. 1669 Jun 10
Manganese superoxide dismutase (MnSOD) is a primary antioxidant enzyme necessary for the survival of aerobic life. Previously, we demonstrated that specificity protein 1 (Sp1) is essential for the basal transcription of the MnSOD gene. We also identified nucleophosmin (NPM), an
RNA-binding protein
, as an important co-activator of NF-kappaB in the induction of MnSOD by cytokine and tumor promoter. Here, using chromatin immunoprecipitation (ChIP) analysis, we demonstrate that Sp1 and NPM interact in vivo to enhance NF-kappaB-mediated MnSOD induction. Interaction between NPM and Sp1 or NF-kappaB at the promoter and enhancer of the MnSOD gene in vivo were verified by the presence of the PCR products from the promoter and enhancer elements in the ChIP assay. Unexpectedly, we also found
p53
, another transcription factor, to be a component of the complex detected by ChIP assay. The presence of
p53
in this transcription complex was verified by immunoprecipitation of
p53
proteins with antibody to Sp1 in nuclear extracts. Using a vector expressing full-length
p53
cDNA, we demonstrated that
p53
overexpression suppresses MnSOD mRNA and protein levels. Consistent with the negative role of
p53
in the expression of the MnSOD gene, expression of small interfering RNA for
p53
leads to an increase of MnSOD mRNA and protein levels. Using ChIP assays and immunoprecipitation, we further demonstrated that
p53
interacts with Sp1 to suppress both the constitutive and 12-O-tetradecanoylphorbol-13-acetate-stimulated expression of the MnSOD gene. Inhibition of the MnSOD gene by
p53
was abolished when Sp1 sites on the MnSOD promoter were mutated or when the Sp1 protein was reduced by siRNA approaches. Because expression of MnSOD protects against cell death, our findings reveal a previously unrecognized mechanism of
p53
-mediated cell death and demonstrate an intricate relationship between the positive and negative control of MnSOD expression.
...
PMID:Specificity protein 1-dependent p53-mediated suppression of human manganese superoxide dismutase gene expression. 1674 Jun 34
Cytoplasmic polyadenylation element-binding protein (CPEB) is a sequence-specific
RNA-binding protein
that promotes polyadenylation-induced translation. While a CPEB knockout (KO) mouse is sterile but overtly normal, embryo fibroblasts derived from this mouse (MEFs) do not enter senescence in culture as do wild-type MEFs, but instead are immortal. Exogenous CPEB restores senescence in the KO MEFs and also induces precocious senescence in wild-type MEFs. CPEB cannot stimulate senescence in MEFs lacking the tumor suppressors
p53
, p19ARF, or p16(INK4A); however, the mRNAs encoding these proteins are unlikely targets of CPEB since their expression is the same in wild-type and KO MEFs. Conversely, Ras cannot induce senescence in MEFs lacking CPEB, suggesting that it may lie upstream of CPEB. One target of CPEB regulation is myc mRNA, whose unregulated translation in the KO MEFs may cause them to bypass senescence. Thus, CPEB appears to act as a translational repressor protein to control myc translation and resulting cellular senescence.
...
PMID:Control of cellular senescence by CPEB. 1701 32
p21, a cyclin-dependent kinase inhibitor, is transcriptionally regulated by the
p53
family to induce cell cycle arrest. p21 is also regulated post-transcriptionally upon DNA damage in a
p53
-dependent manner, but the mechanism is uncertain. Here, we found that RNPC1, an
RNA-binding protein
and a target of the
p53
family, is required for maintaining the stability of the basal and stress-induced p21 transcript. Specifically, we showed that RNPC1 is induced by the
p53
family and DNA damage in a
p53
-dependent manner. The RNPC1 gene encodes at least two alternative spliced isoforms, RNPC1a and RNPC1b, both of which contain an intact RNA recognition motif. Interestingly, we found that RNPC1a, but not RNPC1b, induces cell cycle arrest in G1, although both isoforms are expressed in the nucleus and cytoplasm. In addition, we found that while both isoforms directly bind to the 3' untranslated region in p21 transcript, only RNPC1a is able to stabilize both the basal and stress-induced p21 transcripts. Conversely, RNPC1a knockdown destabilizes p21 transcript. Finally, we found that RNPC1a is required to maintain the stability of p21 transcript induced by
p53
.
...
PMID:RNPC1, an RNA-binding protein and a target of the p53 family, is required for maintaining the stability of the basal and stress-induced p21 transcript. 1705 Jun 75
Unr (upstream of N-ras) is a cytoplasmic
RNA-binding protein
involved in the regulation of messenger RNA stability and internal initiation of translation. We have used Unr-deficient murine embryonic stem (ES) cells to analyse Unr role in cell proliferation and response to stress. Disruption of both unr gene copies had no effect on ES cell proliferation. However, after ionizing radiation (IR), clonogenic survival of unr(-/-) ES cells was approximately 3-fold enhanced as compared to unr(+/+) cells. We further determined that IR-induced apoptosis was decreased in unr(-/-) ES cells, and that reintroduction of the unr gene in unr(-/-) cells restored normal IR-induced apoptosis. Three pro-apoptotic genes,
p53
, caspase-3 and Gadd45gamma, were downregulated in unr(-/-) ES cells, indicating that Unr, as other cytoplasmic RNA-binding proteins, regulates a complex genetic program, promoting cell death after IR. In contrast, in the human hepatoma cell line HuH7, Unr knockdown using unr-specific small interfering RNAs induced apoptosis, both in untreated and gamma-irradiated cells. Thus, our results establish that Unr acts as a positive or negative regulator of cell death, depending on the cell type. Manipulating the level of Unr may constitute a specific approach to sensitize cancer cells to anticancer treatments.
...
PMID:Unr, a cytoplasmic RNA-binding protein with cold-shock domains, is involved in control of apoptosis in ES and HuH7 cells. 1708 13
Maintenance of intestinal mucosal epithelial integrity requires polyamines that modulate the expression of various genes involved in cell proliferation and apoptosis. Recently, polyamines were shown to regulate the subcellular localization of the
RNA-binding protein
HuR, which stabilizes its target transcripts such as nucleophosmin and
p53
mRNAs. The activating transcription factor-2 (ATF-2) mRNA encodes a member of the ATF/CRE-binding protein family of transcription factors and was computationally predicted to be a target of HuR. Here, we show that polyamines negatively regulate ATF-2 expression posttranscriptionally and that polyamine depletion stabilizes ATF-2 mRNA by enhancing the interaction of the 3'-untranslated region (UTR) of ATF-2 with cytoplasmic HuR. Decreasing cellular polyamines by inhibiting ornithine decarboxylase (ODC) with alpha-difluoromethylornithine increased the levels of ATF-2 mRNA and protein, whereas increasing polyamines by ectopic ODC overexpression repressed ATF-2 expression. Polyamine depletion did not alter transcription via the ATF-2 gene promoter but increased the stability of ATF-2 mRNA. Increased cytoplasmic HuR in polyamine-deficient cells formed ribonucleoprotein complexes with the endogenous ATF-2 mRNA and specifically bound to 3'-UTR of ATF-2 mRNA on multiple nonoverlapping 3'-UTR segments. Adenovirus-mediated HuR overexpression elevated ATF-2 mRNA and protein levels, whereas HuR silencing rendered the ATF-2 mRNA unstable and prevented increases in ATF-2 mRNA and protein. Furthermore, inhibition of ATF-2 expression prevented the increased resistance of polyamine-deficient cells to apoptosis induced by treatment with tumor necrosis factor-alpha and cycloheximide. These results indicate that polyamines modulate the stability of ATF-2 mRNA by altering cytoplasmic HuR levels and that polyamine-modulated ATF-2 expression plays a critical role in regulating epithelial apoptosis.
...
PMID:Polyamines regulate the stability of activating transcription factor-2 mRNA through RNA-binding protein HuR in intestinal epithelial cells. 1780 13
Polyamines are required for maintenance of intestinal epithelial integrity, and a decrease in cellular polyamines increases the cytoplasmic levels of
RNA-binding protein
HuR stabilizing
p53
and nucleophosmin mRNAs, thus inhibiting IEC (intestinal epithelial cell) proliferation. The AMPK (AMP-activated protein kinase), an enzyme involved in responding to metabolic stress, was recently found to be implicated in regulating the nuclear import of HuR. Here, we provide evidence showing that polyamines modulate subcellular localization of HuR through AMPK-regulated phosphorylation and acetylation of Impalpha1 (importin alpha1) in IECs. Decreased levels of cellular polyamines as a result of inhibiting ODC (ornithine decarboxylase) with DFMO (D,L-alpha-difluoromethylornithine) repressed AMPK activity and reduced Impalpha1 levels, whereas increased levels of polyamines as a result of ODC overexpression induced both AMPK and Impalpha1 levels. AMPK activation by overexpression of the AMPK gene increased Impalpha1 but reduced the cytoplasmic levels of HuR in control and polyamine-deficient cells. IECs overexpressing wild-type Impalpha1 exhibited a decrease in cytoplasmic HuR abundance, while cells overexpressing Impalpha1 proteins bearing K22R (lacking acetylation site), S105A (lacking phosphorylation site) or K22R/S105A (lacking both sites) mutations displayed increased levels of cytoplasmic HuR. Ectopic expression of these Impalpha1 mutants also prevented the increased levels of cytoplasmic HuR following polyamine depletion. These results indicate that polyamine-mediated AMPK activation triggers HuR nuclear import through phosphorylation and acetylation of Impalpha1 in IECs and that polyamine depletion increases cytoplasmic levels of HuR as a result of inactivation of the AMPK-driven Impalpha1 pathway.
...
PMID:Polyamines modulate the subcellular localization of RNA-binding protein HuR through AMP-activated protein kinase-regulated phosphorylation and acetylation of importin alpha1. 1791 21
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