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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The deoxyadenosine-resistant mouse leukemia L1210 cell line (Y8) has previously been shown to have phenotypic differences that appear to be unrelated to the altered properties observed at the level of ribonucleotide reductase (RR). One of these changes is that the Y8 cells do not express
p53
. In response to DNA damaging agents, x-irradiation and doxorubicin, both the parental wild-type L1210 (WT) and Y8 cells undergo G2/M arrest, which is consistent with cells lacking wild-type
p53
function. However, Y8 cells are much more sensitive to apoptosis induced by these agents than WT cells. Previous studies have also shown that expression of certain genes involved in cell cycle regulation is different between WT and Y8 cells. Recent evidence suggests that a serine/threonine kinase is involved in the divergent cellular responses of these cells. In the present study, the effects of roscovitine, a cyclin-dependent kinase inhibitor, were examined on the WT and Y8 cells. The WT cells blocked in G2/M, whereas Y8 cells became apoptotic. Apoptosis induced by roscovitine in the Y8 cells was mediated by a caspase-3-like activity. NF kappa B was activated to a much greater extent by roscovitine in the WT cells than in Y8 cells. The data also indicate that cyclin B1/cdc2 plays a role in the divergent
p53
-independent G2/M block and apoptotic responses of the WT and Y8 cells, respectively. Several key factors such as cathepsin B, caspase-1, release of cytochrome c into the cytosol, TNF-alpha signaling, FasL/Fas signaling, c-myc overexpression, and
E2F-1
overexpression and induction were shown not to be involved in the apoptotic pathway(s) in the Y8 cells.
...
PMID:Enhanced roscovitine-induced apoptosis is mediated by a caspase-3-like activity in deoxyadenosine-resistant mouse leukemia L1210 cells. 1113 34
Cytokine receptors activate signals that regulate the transcription factor
E2F-1
, which then coordinates the expression of genes essential for DNA synthesis and cell cycle progression. Overexpression of
E2F-1
most often induces S-phase entry followed by apoptosis, but in some cell types it leads to continuous proliferation and transformation. Here, it is shown that constitutive expression of
E2F-1
promotes cytokine-independent proliferation in the murine pro-B cell line BaF-B03. There was no enhancement of apoptosis following cytokine withdrawal in these cells, despite the presence of intact
p53
-dependent apoptotic pathways. Notwithstanding the continuous presence of
E2F-1
, the cell cycle-dependent expression of cyclin A, cyclin B1, cyclin D1, cyclin E, and proliferating-cell nuclear antigen was restored with a pattern equivalent to that associated with cytokine stimulation. These findings provide evidence that, in the absence of cytokine, constitutive expression of
E2F-1
can promote cell cycle progression and prevent apoptosis.
...
PMID:Overexpression of E2F-1 leads to cytokine-independent proliferation and survival in the hematopoietic cell line BaF-B03. 1113 65
DAP kinase is a pro-apoptotic calcium-regulated serine/threonine kinase, whose expression is frequently lost in human tumours. Here we show that DAP kinase counteracts oncogene-induced transformation by activating a p19ARF/
p53
-dependent apoptotic checkpoint. Ectopic expression of DAP kinase suppressed oncogenic transformation of primary embryonic fibroblasts by activating
p53
in a p19ARF-dependent manner. Consequently, the fibroblasts underwent apoptosis, characterized by caspase activation and DNA fragmentation. In response to c-Myc or
E2F-1
, the endogenous DAP kinase protein was upregulated. Furthermore, functional or genetic inactivation of the endogenous DAP kinase reduced the extent of induction of p19ARF/
p53
and weakened the subsequent apoptotic responses to c-Myc or
E2F-1
. These results establish a role for DAP kinase in an early apoptotic checkpoint designed to eliminate pre-malignant cells during cancer development.
...
PMID:DAP kinase activates a p19ARF/p53-mediated apoptotic checkpoint to suppress oncogenic transformation. 1114 19
The ARF gene (p19(ARF) in mouse and p14(ARF) in man) has become a central actor of the cell cycle regulation process as it participates to the ARF-MDM2-
p53
pathway and the Rb-
E2F-1
pathway. By use of immunoprecipitation and Western blotting (IP/WB), we now show that ARF physically associates with topoisomerase I (Topo I). ARF-Topo I immune complexes were detected in SF9 insect cells infected with recombinant baculoviruses encoding the two genes as well as in 293 cells that express endogenously these proteins. Preparations of a GST-ARF recombinant protein stimulated the DNA relaxation activity of Topo I but, in contrast, had no effect on the decatenation activity of Topo II. The Topo I stimulation was also detected in cell extracts of SF9 cells expressing both proteins. A confocal microscopy study indicated that part of ARF and Topo I colocalized in the granular component structure of the nucleolus. As a whole, our data indicate that Topo I is a new partner of ARF and suggest that ARF is involved in cell reactions that require Topo I.
...
PMID:Human ARF protein interacts with topoisomerase I and stimulates its activity. 1131 11
E2F-1
induces
p53
accumulation and
E2F-1
and
p53
form a physical complex, which affects the ability of
E2F-1
to activate transcription. We mapped the domains on
E2F-1
that interact with
p53
and found two
p53
-binding domains. To understand the functional consequences of the
E2F-1
/
p53
association on
p53
activities we identified the domains of
E2F-1
that were responsible for the accumulation of
p53
. Unexpectedly, we found that the
E2F-1
transactivation domain was dispensable for
p53
induction. By contrast, further deletion of the DP-1 interaction/'marked' box domain eliminated
p53
accumulation. Radiolabeling pulse/chase analysis demonstrated that
E2F-1
caused post-translational stabilization of
p53
. Although
E2F-1
caused the stabilization of
p53
,
E2F-1
expression impaired
p53
-dependent transactivation. Thus, the
E2F-1
:
p53
interaction may provide a checkpoint function to inactivate overactive
E2F-1
, but the association may also inactivate
p53
transactivation to allow cell cycle progression.
...
PMID:E2F-1 induces the stabilization of p53 but blocks p53-mediated transactivation. 1131 26
Mutations of the retinoblastoma tumor suppressor, pRb, or its cyclin-cyclin-dependent kinase (CDK) regulatory kinases or CDK inhibitors, allows unrestrained E2F activity, leading to unregulated cell cycle progression. However, overexpression of
E2F-1
also sensitizes cells to apoptosis, suggesting that targeting this pathway may be of therapeutic benefit. Enforced expression of
E2F-1
in interleukin-3-dependent myeloid cells led to preferential sensitivity to the topoisomerase II inhibitor, etoposide, which was independent of
p53
accumulation. Pretreatment of the
E2F-1
-expressing cells with ICRF-193, a second topoisomerase II inhibitor that does not cause DNA damage, protected these cells against etoposide-induced apoptosis. However, ICRF-193 cooperated with other DNA-damaging agents to induce apoptosis. Enforced expression of
E2F-1
led to accumulation of
p53 protein
. An
E2F-1
mutant that is defective in inducing cell cycle progression also induced
p53
, suggesting that
p53
was responding directly to E2F, and not to secondary events caused by inappropriate cell cycle progression (i.e., DNA damage). Thus, topoisomerase II inhibition and DNA damage cooperate to selectively induce apoptosis in cells that have mutations in the pRb pathway.
...
PMID:Topoisomerase IIalpha mediates E2F-1-induced chemosensitivity and is a target for p53-mediated transcriptional repression. 1132 40
Members of the E2F family of transcription factors play an important role in regulating the cell cycle, and their activity is often perturbed during the development of human malignancies. More recent work has shown that
E2F-1
regulates apoptosis as well as proliferation, in part by stabilizing the
p53 tumor suppressor
, an important mediator of apoptosis. This has led to the suggestion that
E2F-1
may function as a tumor surveillance mechanism, detecting aberrant proliferation and engaging apoptotic pathways to protect the organism from developing tumors.
...
PMID:E2F-1 induced apoptosis. 1138 66
Recently, it has been demonstrated that Etoposide, a topoisomerase II inhibitor, can induce apoptosis in MDM2-overexpressing tumor cells by inhibition of MDM2 synthesis. We have previously shown that
E2F-1
overexpression induces apoptosis of MDM2-overexpressing sarcoma cells, which is related to the inhibition of MDM2 expression. Therefore, the present study was designed to investigate the in vitro and in vivo effect of combined treatment of adenovirus-mediated
E2F-1
and topoisomerase II inhibitors on the growth inhibition and apoptosis in human sarcoma cells. Two human sarcoma cell lines, OsACL and U2OS, were treated with topoisomerase II inhibitors (Etoposide and Adriamycin), alone or in combination with adenoviral vectors expressing beta-galactosidase (Ad-LacZ) or
E2F-1
(Ad-
E2F-1
).
E2F-1
expression was confirmed by Western blot analysis. Ad-
E2F-1
gene transfer at a low dose (multiplicity of infection, 2) markedly increased the sensitivity of human sarcoma cells to topoisomerase II inhibitor treatment. This cooperative effect of
E2F-1
and topoisomerase II inhibitors was less marked in SAOS-2 cells (
p53
and pRb null). Topoisomerase II inhibitors also cooperated with
E2F-1
overexpression to enhance tumor cell killing in an in vivo model using xenografts in nude mice. When combined with Adriamycin or Etoposide,
E2F-1
adenovirus therapy resulted in approximately 95% and 85% decrease in tumor size, respectively, compared to controls (P<.05). These results suggest a new chemosensitization strategy that is effective in MDM2-overexpressing tumors and may have clinical utility.
...
PMID:Additive effect of adenovirus-mediated E2F-1 gene transfer and topoisomerase II inhibitors on apoptosis in human osteosarcoma cells. 1139 76
Current therapies for glioblastoma multiforme are ineffective. Therefore, novel therapies that target specific differences between normal and malignant cells are urgently needed. Abnormalities of cell-cycle related genes are a common feature of cancer in general and astrocytic tumors in particular. The role of these proteins is to help to regulate cell proliferation, differentiation and apoptosis. Restoring wild-type activity of critical regulators of the cell cycle to astrocytic tumors generally results in modification of the growth properties, and often the viability, of the cancer cells. Transfer of
p53
induces growth arrest and, more importantly, apoptosis. Restoration of the Rb pathway results in either reversible growth arrest or senescence. Expression of
E2F-1
induces transient increase of proliferation followed by massive apoptosis. Overexpression of MMAC/PTEN arrests cell cycle progression in G1 and promotes anoikis. Current knowledge of the functions of these cell-cycle controllers can be used to design small peptides and drugs to induce cell-cycle related anti-cancer effect. Inactivation of the
p53
and Rb pathways in cancer cells is also being used to engineer mutant viruses that are able to replicate exclusively in cancer cells.
...
PMID:Delivery of cell cycle genes to block astrocytoma growth. 1140 98
A number of non-virally and non-chemically immortalized chicken embryo fibroblast (CEF) cells have been established recently in continuous cell culture. All immortal CEF cells tested showed common genetic alterations in the expression patterns of
p53
and
E2F-1
mRNA and protein which were down- and up-regulated, respectively. The biological effects of differentially regulated
p53
and
E2F-1
were determined by reporter gene transcriptional activity assays, DNA binding assays, and Northern blot analysis of the expression patterns of down-stream genes. In addition, expression of most of the cyclin genes was up-regulated in immortal CEF cells, which may be associated with the rapid cell division rates and serum-independent growth patterns seen in immortal CEF cells. The telomeric lengths and chromosome integrity were maintained in all immortal CEF cell lines without detectable telomerase activity. Although the functional inactivations of the
p53
and Rb regulatory pathways are known to be common events for cellular immortalization, the genetic changes leading to alteration of
p53
and
E2F-1
function through transcriptional and post-transcriptional regulation seem to be unique in immortal CEF cells.
...
PMID:Alterations in p53 and E2F-1 function common to immortalized chicken embryo fibroblasts. 1142 Jun 79
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