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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Progression through the cell cycle and redirection of cells towards programmed cell death (apoptosis) are tightly inter-related processes. However the requirement for tissue and cell type specificity suggests that a wide variety of mechanisms are used to achieve the same purpose. To examine this issue, we investigated cell cycle (c-myc,
p53
, p21/WAF) and apoptosis related (bcl-2, bcl-X(L), bax-alpha) gene expression in two cell lines of very different origin under proliferating and apoptosis-inducing conditions. Transformed human osteosarcoma cells (MG63) and non-transformed human kidney embryonal fibroblasts (293-0) were kept in culture in medium containing 10% FCS and growth arrest was induced by the addition of 50 ng/ml colcemid. Colcemid treatment caused growth arrest and elevated expression of
cyclin B1
protein in both cell lines. Apoptosis was significantly elevated in both cell lines after colcemid exposure for at least one cell cycle. However the pattern of expression of cell cycle and apoptosis related genes, determined by RT-PCR, was quite different between the two cell lines during exponential growth and cell cycle arrest. Colcemid treatment did not markedly influence c-myc,
p53
and p21/WAF expression in MG63 cells but did suppress c-myc and increase p21/WAF in 293-0 cells. Furthermore colcemid treated MG63 cells exhibited elevated bcl-2 and bax-alpha expression while similar treatment of 293-0 cells resulted in decreased bcl-X(L) and slightly increased bax-alpha expression. While growth arrest and apoptosis were induced in both MG63 and 293 cells following colcemid treatment, the differences in gene expression suggest that the mechanism by which these cells determine cell fate is quite different and may determine the sensitivity of different cell populations to anti-neoplastic drug therapy. The distinct patterns of gene expression should be carefully defined before mechanisms of apoptotic cell death are studied.
...
PMID:Expression of apoptosis and cell cycle related genes in proliferating and colcemid arrested cells of divergent lineage. 1072 74
Defects in cell cycle checkpoints can lead to chromosome abnormality, aneuploidy, and genomic instability, all of which can contribute to tumorigenesis. Recent studies and data presented in this study indicate that cells with compromised G1 checkpoint endoreduplicate and become polyploid in response to microtubule inhibitors. Previous studies have shown that polyploid cells are unstable and lose chromosomes randomly to give aneuploidy. In this study, we show that endoreduplication and polyploidation can be prevented by inhibiting the cyclin-dependent kinases (Cdks) by flavopiridol, a synthetic flavone presently undergoing phase II clinical trials. In our initial studies, we treated MCF-7 cells with paclitaxel, which results in the arrest of cells in G1 with 4n DNA content (pseudo G1). This was coincident with increased
p53
and p21 protein expression and decreased cyclin E/Cdk2 kinase activity. In contrast, G1 checkpoint-compromised MDA-MB-468 (
p53
-/- and pRb-/-) and p21-/- HCT116 do not arrest in the pseudo G1 state after exposure to microtubule inhibitors and enter in the S phase with 4n DNA content. More than 60% of MDA-MB-468 cells accumulate with >4n DNA content after 72 h of nocodazole treatment. The MPM-2 labeling showed that 8n cells also undergo mitosis. These cells display deregulated and persistent activation of cyclin E/Cdk2 and
cyclin B1
/cdc2 kinase activity. Administration of flavopiridol after mitotic block results in the arrest of cells in the pseudo G1 state and the dramatic decrease in cells containing >4n DNA content in MDA-MB-468 cells. The cyclin E/Cdk2 and
cyclin B1
/cdc2 kinase activities remained low after exit from mitosis. Furthermore, pRb was hypophosphorylated after the addition of flavopiridol in p21-deficient HCT116 cells, indicating the arrest of cells at the pseudo G1 state. Based on these studies, we propose that flavopiridol preserves the genomic stability by preventing endoreduplication and polyploidy and thus has the potential to be used as a chemopreventive agent to prevent the occurrence of neoplasia.
...
PMID:Flavopiridol, a cyclin-dependent kinase inhibitor, prevents spindle inhibitor-induced endoreduplication in human cancer cells. 1074 17
Cell cycle growth arrest is an important cellular response to genotoxic stress. Gadd45, a
p53
-regulated stress protein, plays an important role in the cell cycle G(2)-M checkpoint following exposure to certain types of DNA-damaging agents such as UV radiation and methylmethane sulfonate. Recent findings indicate that Gadd45 interacts with Cdc2 protein and inhibits Cdc2 kinase activity. In the present study, a series of Myc-tagged Gadd45 deletion mutants and a Gadd45 overlapping peptide library were used to define the Gadd45 domains that are involved in the interaction of Gadd45 with Cdc2. Both in vitro and in vivo studies indicate that the interaction of Gadd45 with Cdc2 involves a central region of the Gadd45 protein (amino acids 65-84). The Cdc2-binding domain of Gadd45 is also required for Gadd45 inhibition of Cdc2 kinase activity. Sequence analysis of the central Gadd45 region reveals no homology to inhibitory motifs of known cyclin-dependent kinase inhibitors, indicating that the Cdc2-binding and -inhibitory domains on Gadd45 are a novel motif. The peptide containing the Cdc2-binding domain (amino acids 65-84) disrupted the Cdc2-
cyclin B1
protein complex, suggesting that dissociation of this complex results from a direct interaction between the Gadd45 and Cdc2 proteins. GADD45-induced cell cycle G(2)-M arrest was abolished when its Cdc2 binding motif was disrupted. Importantly, a short term survival assay demonstrated that GADD45-induced cell cycle G(2)-M arrest correlates with GADD45-mediated growth suppression. These findings indicate that the cell cycle G(2)-M growth arrest mediated by GADD45 is one of the major mechanisms by which GADD45 suppresses cell growth.
...
PMID:The GADD45 inhibition of Cdc2 kinase correlates with GADD45-mediated growth suppression. 1074 92
Genistein, a natural isoflavonoid phytoestrogen, is a strong inhibitor of protein tyrosine kinase and DNA topoisomerase II activities. Genistein has been shown to have anticancer proliferation, differentiation and chemopreventive effects. In the present study, we have addressed the mechanism of action by which genistein suppressed the proliferation of
p53
-null human prostate carcinoma cells. Genistein significantly inhibited the cell growth, which effect was reversible, and induced dendrite-like structure. The inhibitory effects of genistein on cell growth proliferation were associated with a G2/M arrest in cell cycle progression concomitant with a marked inhibition of
cyclin B1
and an induction of Cdk inhibitor p21 (WAF1/CIP1) in a
p53
-independent manner. Following genistein treatment of cells, an increased binding of p21 with Cdk2 and Cdc2 paralleled a significant decrease in Cdc2 and Cdk2 kinase activity with no change in Cdk2 and Cdc2 expression. Genistein also induced the activation of a p21 promoter reporter construct, utilizing a sequence distinct from the
p53
-binding site. Analysis of deletion constructs of the p21 promoter indicated that the response to genistein could be localized to the 300 base pairs proximal to the transcription start site. These data suggest that genistein may exert a strong anticarcinogenic effect, and that this effect possibly involves an induction of p21, which inhibits the threshold kinase activities of Cdks and associated cyclins, leading to a G2/M arrest in the cell cycle progression.
...
PMID:p53-independent induction of p21 (WAF1/CIP1), reduction of cyclin B1 and G2/M arrest by the isoflavone genistein in human prostate carcinoma cells. 1076 3
The
p53
gene plays an important role in the regulation of cell-cycle progression and apoptosis. Recent studies have implicated
p53
in determining cell fate, and shown that
p53
status is associated with cellular sensitivity to anticancer agents. However, the role of
p53
in paclitaxel-induced cytotoxicity remains unclear. Here we show that the induction of exogenous wild-type (wt)
p53
genes in
p53
-null human NSCLC H358 cells via transient gene transfection with cationic liposome-wt
p53
complexes resulted in a typical senescence-like phenotype. In short, cell growth was reduced, homeostasis occurred, cell morphology became enlarged and flat, the cell cycle was arrested at G1 phase,
cyclin B1
and cdc2 expression was down-regulated, and DNA synthesis was suppressed. The sensitivity of wt
p53
-transfected cells (H358/
p53
) to paclitaxel was approximately 3-fold lower than that of H358 cells. Paclitaxel treatment gradually and significantly blocked cell-cycle progression at G2/M phase and increased the accumulation of
cyclin B1
and cdc2 in H358 cells. In contrast, the same treatment slightly arrested the cell cycle at G2/M phase and slightly elevated
cyclin B1
expression in H358/
p53
cells. The rate of uptake and efflux of paclitaxel was not significantly different between H358 and H358/
p53
cells, indicating that the reduction in cellular sensitivity caused by
p53
transfection was not due to alterasion in intracellular drug concentration. Together, our findings suggest that the induction of exogenous wt
p53
gene expression in cells lacking
p53
function can trigger the senescence program and that loss of sensitivity to paclitaxel by
p53
-transfected cells may be associated, at least in part, with the induction of a senescence-like phenotype.
...
PMID:Induction of senescence-like phenotype and loss of paclitaxel sensitivity after wild-type p53 gene transfection of p53-null human non-small cell lung cancer H358 cells. 1081 Mar 42
The effects of exposure to high and very low fluence alpha-particles on the G1 checkpoint were investigated in human diploid fibroblasts irradiated and released from density-inhibited confluent cultures by the use of the cumulative labeling index method. Transient and permanent arrests in G1 occurred in fibroblast populations exposed to mean doses as low as 1 cGy, suggesting that nontraversed bystander cells may contribute to the low dose response. In cells exposed to high fluences, the G1 checkpoint is at least as extensive as in gamma-irradiated cells. In contrast to gamma-irradiated cells, neither repair of potentially lethal damage nor a reduction in the fraction of cells transiently or permanently arrested in G1 were observed in cells held in confluence for 6 h after alpha-particle irradiation. Studies with isogenic wild-type,
p53
-/-, and p21Waf1-/- mouse embryo fibroblasts exposed to either gamma or alpha-particle radiation revealed a total lack of G1 arrest in either
p53
-/- or p21waf1-/- cells, indicating that the G1 checkpoint in wild-type cells is
p53
-dependent and that p21Wf1 fully mediates the role of
p53
in its induction. In contrast to human cells, mouse embryo fibroblasts do not undergo a permanent G1 arrest. Except under conditions favoring potentially lethal damage repair, a comparable expression pattern of
p53
, p21Waf1, and other cell cycle-regulated proteins (pRb, p34cdc2, and
cyclin B1
) was observed in alpha-particle or gamma-irradiated human fibroblasts.
...
PMID:High and low fluences of alpha-particles induce a G1 checkpoint in human diploid fibroblasts. 1082 33
In the present study, we investigated the role of
p53
in G(2) checkpoint function by determining the mechanism by which
p53
prevents premature exit from G(2) arrest after genotoxic stress. Using three cell model systems, each isogenic, we showed that either ectopic or endogenous
p53
sustained a G(2) arrest activated by ionizing radiation or adriamycin. The mechanism was p21 and retinoblastoma protein (pRB) dependent and involved an initial inhibition of
cyclin B1
-Cdc2 activity and a secondary decrease in
cyclin B1
and Cdc2 levels. Abrogation of p21 or pRB function in cells containing wild-type
p53
blocked the down-regulation of
cyclin B1
and Cdc2 expression and led to an accelerated exit from G(2) after genotoxic stress. Thus, similar to what occurs in p21 and
p53
deficiency, pRB loss can uncouple S phase and mitosis after genotoxic stress in tumor cells. These results indicate that similar molecular mechanisms are required for
p53
regulation of G(1) and G(2) checkpoints.
...
PMID:p53 regulation of G(2) checkpoint is retinoblastoma protein dependent. 1082 86
Monocrotaline pyrrole (MCTP) causes cyto- and karyomegaly and persistent cell cycle arrest in the G2 stage of the cell cycle in cultured bovine pulmonary artery endothelial cells. To better characterize the cell cycle regulatory mechanisms of this process as well as determine whether this process would occur in cells of human origin, we treated human pulmonary artery endothelial cell (HPAEC) cultures with MCTP and determined, by flow cytometry, the expression of
cyclin B1
and
p53
in conjunction with DNA content. We also validated by Western blots that the persistence of cdc2 in its inactivated phosphorylated state, previously described in bovine cell cultures, occurred in HPAEC. Alterations in
p53
, cyclin A,
cyclin B1
, and cdc25c expression were also examined in Western blots of treated HPAEC extracts. The response of HPAEC to MCTP was compared with that of adriamycin and nocodazole, agents known to cause cell cycle alterations. Results of these experiments demonstrate that HPAEC treated with MCTP develop a population of cells in G2 that has increased
cyclin B1
expression. These cells express increased amounts of cdc2 but not cdc25c. The ratio of inactive triphosphorylated cdc2 to the active monophosphorylated form increased moderately from control cultures in contrast to predominance of the active form in nocodazole-treated cultures. In addition, a second population of cells expressing
cyclin B1
had continued incorporation of BrdU and DNA content consistent with 8 N chromosomes. A similar 8 N cell population was evident in nocodazole-treated cells but these cells had both
cyclin B1
positive and negative components. Compared with adriamycin, a known inducer of
p53
, MCTP-treated HPAEC expressed
p53
only at high concentrations and
p53
expression was not coordinated with G2 arrest or polyploidy. We conclude that HPAEC treated with low concentrations of MCTP develop G2 arrest in association with persistent
cyclin B1
expression, failure to completely activate cdc2, and continued DNA synthesis through a pathway that is unrelated to altered expression of
p53
.
...
PMID:DNA damage cell checkpoint activities are altered in monocrotaline pyrrole-induced cell cycle arrest in human pulmonary artery endothelial cells. 1089 48
We investigated the effect of an acidic environment on the radiation-induced G2/M arrest and apoptosis using RKO.C human colorectal cancer cells expressing wild-type
p53
and RC10.1 cells, a subline of RKO.C cells deficient in
p53
as well as p53+/+ MEFs and
p53
-/- MEFs (mouse embryonic fibroblasts). The cells were irradiated with 4 Gy or 12 Gy of gamma-rays in pH 7.5 medium or pH 6.6 medium.
p53
accentuated the progression of cells from radiation-induced G2/M arrest to apoptosis and the pH 6.6 environment suppressed the progression of cells through G2/M-phase to apoptosis after irradiation. Further analysis indicated that the radiation-induced G2/M arrest was due mainly to G2 arrest in both pH 7.5 and pH 6.6. Therefore, it was concluded that
p53
enhances, and an acidic environment suppresses, the exit of cells from radiation-induced G2 arrest by altering
cyclin B1
-Cdc2 kinase activity.
...
PMID:Cell cycle progression and apoptosis after irradiation in an acidic environment. 1091 47
A novel gene, Reprimo, in which induction in cells exposed to X-irradiation is dependent on
p53
expression, has been isolated. Ectopic
p53
expression results in the induction of its mRNA. Reprimo is a highly glycosylated protein and, when ectopically expressed, it is localized in the cytoplasm and induces G(2) arrest of the cell cycle. In the arrested cells, both Cdc2 activity and nuclear translocation of
cyclin B1
are inhibited, suggesting the involvement of Reprimo in the Cdc2.
cyclin B1
regulation pathway. Thus, Reprimo may be a new member involved in the regulation of
p53
-dependent G(2) arrest of the cell cycle.
...
PMID:Reprimo, a new candidate mediator of the p53-mediated cell cycle arrest at the G2 phase. 1093 Apr 22
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