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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The carboxyl terminus of
p53
is a target of a variety of signals for regulation of
p53
DNA binding. Growth suppressor c-Abl interacts with
p53
in response to DNA damage and overexpression of c-Abl leads to G(1) growth arrest in a
p53
-dependent manner. Here, we show that c-Abl binds directly to the carboxyl-terminal regulatory domain of
p53
and that this interaction requires tetramerization of
p53
. Importantly, we demonstrate that c-Abl stimulates the DNA-binding activity of wild-type
p53
but not of a carboxyl-terminally
truncated p53
(p53Delta363C). A deletion mutant of c-Abl that does not bind to
p53
is also incapable of activating
p53
DNA binding. These data suggest that the binding to the
p53
carboxyl terminus is necessary for c-Abl stimulation. To investigate the mechanism for this activation, we have also shown that c-Abl stabilizes the
p53
-DNA complex. These results led us to hypothesize that the interaction of c-Abl with the C terminus of
p53
may stabilize the
p53
tetrameric conformation, resulting in a more stable
p53
-DNA complex. Interestingly, the stimulation of
p53
DNA-binding by c-Abl does not require its tyrosine kinase activity, indicating a kinase-independent function for c-Abl. Together, these results suggest a detailed mechanism by which c-Abl activates
p53
DNA-binding via the carboxyl-terminal regulatory domain and tetramerization.
...
PMID:Stimulation of p53 DNA binding by c-Abl requires the p53 C terminus and tetramerization. 1062 29
GM1492 human diploid skin fibroblasts derived from a patient with Bloom's syndrome (BS), lack detectable
p53 mRNA
and protein as shown by Northern and Western blotting, and express an increased RecA-like activity. Here we demonstrate that the
p53
gene is grossly intact in GM1492 cells according to Southern blotting. DNA sequencing did not reveal any mutations in the promoter region of
p53
. A highly sensitive RT-PCR produced a
p53
cDNA fragment that was shorter than expected. DNA sequence analysis of
p53
cDNA showed that exon 6 was missing, explaining the shorter PCR product. Furthermore, sequencing of genomic DNA revealed a base substitution at the nucleotide preceding the AG splice acceptor site of intron 5. The omission of exon 6 creates a frameshift at the junction of exons 5 and 7, and a premature stop codon in exon 7. The aberrant transcript is predicted to encode a
truncated p53
protein containing 189 amino acid residues. Moreover, Western blotting demonstrated elevated HsRAD51 protein levels in GM1492 cells. The lack of sufficient levels of wild-type
p53
and increased levels of HsRad51 protein may contribute to the elevated RecA-like activity in the GM1492 fibroblasts.
...
PMID:p53 splice acceptor site mutation and increased HsRAD51 protein expression in Bloom's syndrome GM1492 fibroblasts. 1076 46
The ability of Mdm2 to inhibit the activities of a C-terminal
truncated p53
mutant,
p53
-Delta30, which can bind Mdm2 but is resistant to Mdm2-mediated protein degradation was investigated. The inhibitory function of an Mdm2 mutant, Mdm2-Delta(222-437), which can bind
p53
but is defective in targeting
p53
for degradation was also studied. We have demonstrated that targeting
p53
for degradation is the most effective way for Mdm2 to inhibit the apoptotic function of
p53
. However, we have also shown that Mdm2 can inhibit the transactivation function of
p53
without targeting it for degradation, although Mdm2 releases the transrepression ability of
p53
mainly by targeting it for degradation. The ability of Mdm2 to inhibit the apoptotic function of
p53
was linked to its ability to inhibit the transrepression but not the transactivation function of
p53
. Furthermore, we have demonstrated that the transrepression function of
p53
was specific to
p53
-induced apoptosis and was not simply a result of cell death.
...
PMID:Mdm2 inhibits the apoptotic function of p53 mainly by targeting it for degradation. 1098 Jan 97
We have examined the ability of gamma-irradiation and bleomycin to induce apoptosis in a model system consisting of cell lines derived from naturally occurring human head-and-neck squamous-cell carcinomas with contrasting
p53
status and expression levels of pro- and anti-apoptotic molecules. Following exposure to gamma-irradiation (20 Gy) or bleomycin (3.5 microM) for 0 to 96 hr, cells expressing either transcriptionally inactive mutant p53 (HN6) or a
truncated p53
molecule (HN19) underwent apoptosis, as assessed by fluorescence-activated cell sorting and terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling, in contrast to cells that express wild-type
p53
(HN30), suggesting that apoptosis induced by these agents occurs by
p53
-independent mechanisms. Apoptosis in HN6 and HN19 cells was preceded by a G(2)/M cell-cycle block, as analyzed by DNA content and BrdU staining. In contrast, HN30 cells remained blocked in both G(1) and G(2)/M and failed to re-enter the cell cycle. Levels of Bcl-2 were elevated in 3 of 10 cell lines, and only marginal differences were observed for Bcl-x(L). Pro-apoptotic proteins bax and Bcl-x(S) were detectable in normal keratinocytes and 4 tumor cell lines. Bax-delta (16 kDa) was highly represented in normal keratinocytes, and levels of bak were variable between cell lines. Elevated expression of Bcl-2 failed to protect HN19 cells from either gamma-irradiation or bleomycin-induced apoptosis. Our data support the existence of
p53
- and Bcl-2-independent pathways regulating apoptosis in keratinocytes and suggest that efficacy of either radiotherapy or bleomycin treatment for oral squamous-cell neoplasms may not, therefore, be influenced solely by endogenous
p53
status.
...
PMID:Induction of apoptosis in head-and-neck squamous carcinoma cells by gamma-irradiation and bleomycin is p53-independent. 1107 42
Mouse temperature-sensitive
p53
(Val-135) accumulates in the nucleus and acts as a "wild-type" at 32 degrees C while it is sequestered in the cytoplasm at 37 degrees C. The cytoplasmic
p53
(Val-135) relocalized into the nucleus upon inhibition of the nuclear export at 37 degrees C, whereas a mutation in a major bipartite nuclear localization signal (NLS) caused constitutive cytoplasmic localization, indicating that it shuttled between the cytoplasm and the nucleus by its own nuclear export signal and NLS rather than tethered to cytoplasmic structures. Although the full-length
p53
(Val-135) did not bind the import receptor at 37 degrees C, a C-terminally
truncated p53
(Val-135) lacking residues 326-390 did bind it. Molecular chaperones such as Hsc70 were associated with
p53
(Val-135) at 37 degrees C but not at 32 degrees C. When the nuclear export was blocked by leptomycin B, only a fraction lacking Hsc70 was specifically accumulated in the nucleus. Immunodepletion of Hsc70 from the reticulocyte lysate caused
p53
(Val-135) to bind the import receptor. This binding was blocked by supplying the cell extract containing Hsc70 but not by the addition of recombinant Hsc70 alone. We suggest that the association with the Hsc70-containing complex prevents the NLS from the access of the import receptor through the C-terminal region of
p53
(Val-135) at 37 degrees C, whereas its dissociation at 32 degrees C allows rapid nuclear import.
...
PMID:A role for Hsc70 in regulating nucleocytoplasmic transport of a temperature-sensitive p53 (p53Val-135). 1129 31
Nonsense-mediated mRNA decay (NMD) is a conserved surveillance mechanism that eliminates imperfect mRNAs that contain premature translation termination codons (PTCs) and code for nonfunctional or potentially harmful polypeptides. We show that a novel phosphatidylinositol 3-kinase-related protein kinase, hSMG-1, is a human ortholog of a product of Caenorhabditis elegans smg-1, one of seven smg genes involved in NMD. hSMG-1 phosphorylates hUPF1/SMG-2 in vivo and in vitro at specific serine residues in SQ motifs. hSMG-1 can associate with hUPF1/SMG-2 and other components of the surveillance complex. In particular, overexpression of a kinase-deficient point mutant of hSMG-1, hSMG-1-DA, results in a marked suppression of the PTC-dependent beta-globin mRNA degradation; whereas that of wild-type hSMG-1 enhances it. We also show that inhibitors of hSMG-1 induce the accumulation of
truncated p53
proteins in human cancer cell lines with
p53
PTC mutation. Taken together, we conclude that hSMG-1 plays a critical role in NMD through the direct phosphorylation of hUPF1/SMG-2 in the evolutionally conserved mRNA surveillance complex.
...
PMID:Human SMG-1, a novel phosphatidylinositol 3-kinase-related protein kinase, associates with components of the mRNA surveillance complex and is involved in the regulation of nonsense-mediated mRNA decay. 1154 79
Oligonucleotides offer the potential to manipulate gene expression in targeted cells which might be exploitable for therapeutic benefit. The effects of combining a phosphorothioate oligonucleotide OL(1)
p53
, which transiently down-regulates
p53
levels, with an anthracycline, Idarubicin, on the growth of wild-type
p53
WMN gene-expressing lymphoma cells was evaluated. Fluorescent OL(1)
p53
, was used to demonstrate oligonucleotide uptake and retention by the WMN cells. Uptake was maximal at 24 hours and compared to baseline (0 hours) increasing apoptotic cells were evident in WMN cells treated with OL(1) (1 microM) alone and in combination with Idarubicin (0.2 nM) for 24 to 48 hours. In cells treated with OL(1)
p53
and Idarubicin,
truncated p53
message of a predicted 201 base pair length based on RNAase H cleavage of the OL(1)
p53
-
p53 mRNA
heteroduplex was detected after 7 hours of incubation. The message for
p53
was transiently downregulated as detected by RT-PCR analysis at 24 hours, and protein levels transiently reduced at 36 hours, as shown by a quantitative Western blot. Corresponding to these events, the growth of WMN cells ceased after 48 hours in the concurrent presence of OL(1)
p53
and Idarubicin and, the lymphoma cells were dead after 72 hours. No reduction in hematopoietic colony forming cell capacity of similarly treated hematopoietic progenitor cells harvested from cytokine-mobilized blood by apheresis was observed. Therefore, synergistic cytotoxicity of Idarubicin for lymphoma cells treated with an oligonucleotide targeting
p53
message was demonstrated at oligonucleotide and Idarubicin concentrations which were minimally toxic to hematopoietic progenitor cells. This approach offers new opportunities for purging of lymphoma cells from hematopoietic harvests and systemic lymphoma therapy.
...
PMID:Oligonucleotide enhanced cytotoxicity of Idarubicin for lymphoma cells. 1169 7
The mutational status of the tumor suppressor gene
TP53
is often examined by immunohistochemistry. We compared the incidence of
TP53
mutations in 12 permanent squamous cell carcinoma lines of the head and neck with the immunohistochemical staining obtained with two different antibodies. The mutational status of the
TP53
gene was assessed by sequencing the complete coding frame of the
TP53
mRNA. All 12 tumor cell lines had
TP53
mutations. Six of them showed missense mutations and five had premature stop codons caused either by splicing mutations or nonsense mutations or by exon skipping. One tumor cell line was heterozygous, with a truncating splicing mutation and an additional missense mutation located on different alleles. In one case, an in-frame insertion of 23 extra codons was found. All missense mutations were positive in immunhistochemistry and Western blotting. The
truncated p53
was not immunohistochemically detected in three cases with the DO-7 antibody and in five cases with the G59-12 antibody, giving false-negative results in 25% or 40%, respectively, of all tumor cell lines examined. We conclude that splicing mutations are common in squamous cell carcinoma lines and that the incidence of
p53
inactiviation by erroneous splicing is higher than yet reported. Sequencing of only the exons of
TP53
may miss intronic mutations leading to missplicing and may therefore systematically underestimate the
TP53
mutation frequency.
...
PMID:Splicing mutations in TP53 in human squamous cell carcinoma lines influence immunohistochemical detection. 1179 38
The immediate-early (IE) protein BICP0 of bovine herpesvirus-1 (BHV-1) may have other functions besides transactivation of viral promoters. Recently, we observed that BICP0, delivered to cultured cells by a helpervirus-free amplicon system, forms spherical or doughnut-like structures in which the
tumor suppressor protein p53
is sequestered. The objective was to determine whether BICP0 and
p53
interact physically, we used both yeast and mammalian two-hybrid systems. As a bait plasmid, pVA3 which encodes a hybrid protein consisting of the Gal4 DNA binding domain fused to murine
p53
was used. The BICP0 gene or its truncated versions were inserted into the prey plasmid pGAD424. Bait and prey plasmids were cotransformed into yeast strain Y153, which has LacZ and HIS3 reporter genes under the control of Gal4 upstream activating sequence. After 4-6 days, colonies were stained for beta-galactosidase activity. In the mammalian two-hybrid system, pM-53 was used as a bait where
truncated p53
fused to Gal4 DNA binding domain is expressed. The BICP0 gene was cloned into prey plasmid pVP16. The interaction between
p53
and SV40 T-antigen was evaluated as a positive control in both systems. Neither full-length BICP0 nor its truncated derivatives induced beta-galactosidase activity in yeast whereas the positive control turned blue under the same conditions. The mammalian two-hybrid system, in which chloramphenicol acetyltransferase (CAT) activity was used as a reporter, also failed to show an interaction between these two proteins. Co-localization of
p53
with BICP0 in spherical structures is unlikely to result from a direct physical interaction between these two proteins. Mediation by additional cellular proteins may be required.
...
PMID:Search for physical interaction between BICP0 of bovine herpesvirus-1 and p53 tumor suppressor protein. 1188 93
The human leukemia K562 cell line does not express wild-type
p53 protein
. Due to the loss of one
p53
allele and an insertion mutation in exon 5 of the other allele resulting in a frameshift mutation, K562 cells express a
truncated p53
protein of 148 amino acids. A human leukemia phorbol ester-resistant subline, K562/TPA, is cross-resistant to some anticancer agents. A remarkable difference in cell cycle progression at G1/S phase was observed in the synchronised K562/TPA cells as compared with K562 cells. Southern blot and DNA sequence analysis revealed no mutation in exon 5 of the
p53
gene in K562/TPA cells. p21Cip1 expression was also restored in K562/TPA cells confirming that the reversal of this
p53
gene mutation restored wild-type
p53
function in these cells. This is a unique report describing reversal of
p53
gene mutation by drugs. This was associated with the expression of wild-type
p53 mRNA
and protein in K562/TPA cells. The K562/TPA cell line may provide a very useful tool for the investigation of the relationship between
p53
status and chemosensitization.
...
PMID:Restoration of p53 gene function in 12-O-tetradecanoylphorbor 13-acetate-resistant human leukemia K562/TPA cells. 1246 88
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