UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Loss of cell cycle control and acquisition of chromosomal rearrangements such as gene amplification often occur during tumor progression, suggesting that they may be correlated. We show here that the wild-type p53 allele is lost when fibroblasts from patients with the Li-Fraumeni syndrome (LFS) are passaged in vitro. Normal and LFS cells containing wild-type p53 arrested in G1 when challenged with the uridine biosynthesis inhibitor PALA and did not undergo PALA-selected gene amplification. The converse occurred in cells lacking wild-type p53 expression. Expression of wild-type p53 in transformants of immortal and tumor cells containing mutant p53 alleles restored G1 control and reduced the frequency of gene amplification to undetectable levels. These studies reveal that p53 contributes to a metabolically regulated G1 check-point, and they provide a model for understanding how abnormal cell cycle progression leads to the genetic rearrangements involved in tumor progression.
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PMID:Wild-type p53 restores cell cycle control and inhibits gene amplification in cells with mutant p53 alleles. 152 30

To answer the question whether the level of p53 expression also reflects the status of a cell, with reference to transformation and genome stability, we have examined, by immunocytochemistry, the presence of p53 protein in a number of cell types including human diploid cells, Chinese hamster embryonal cells at different passages and gene amplified and/or transformed Chinese hamster cell lines. Primary human fibroblasts at early passage (LEO) and an established, non transformed, Chinese hamster cell line at early passage (CHEF/18) did not show any detectable p53 expression, either nuclear or cytoplasmic. All transformed human (Raji) and Chinese hamster cell lines (CHO, V79, V79/B7) showed a nuclear expression of p53, although at different intensities. Two cell lines selected from V79/B7 for their resistance to phosphonacetyl-L-aspartate or methotrexate and previously shown to bear gene amplification, showed p53 expression. In PALA L cells p53 expression was nuclear as in other positive cell lines tested, while in MTX M cells it was cytoplasmic. CHEF/18 cells at late passage in culture showed the typical behaviour of transformed cells and p53 was detected in several cells. Moreover, when transformed CHO cells were treated with compounds known to induce reverse transformation, both the disappearance of hallmarks of transformed phenotype and p53 reduction were observed. These results indicate a strong association within the same cell type between p53 expression and transformed status.
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PMID:p53 expression in normal versus transformed mammalian cells. 758 48

In vitro exposure of tumorigenic cell lines to the chemotherapeutic agent PALA (N-(phosphonoacetyl)-L-aspartate) usually results in cell death (shown here to be apoptosis), followed by clonal growth of rare survivors. On the other hand, normal diploid cells respond to PALA by arresting in G1 and G2 of the cell cycle. It was previously suggested that growth control mechanisms might exist to prevent cells from entering S phase under toxic conditions and that genes involved in such mechanisms were mutated or deleted in tumor cells. Interestingly, the tumor suppressor gene p53, a putative G1 control gene, was shown to mediate PALA-induced growth arrest. However, growth arrest occurs in cells that lack wild-type p53, suggesting that other genes are involved as well. To identify these genes, we have generated whole cell hybrids between mouse melanoma and normal human fibroblast cells. At early passage, a whole cell hybrid (BHF12) responds to PALA with growth arrest, while at later passage, the same hybrid undergoes apoptosis. To determine which human chromosomes are required for the PALA-induced growth arrest phenotype, we isolated subclones of the hybrid and tested them for their PALA response. FISH (fluorescence in situ hybridization) and PCR (polymerase chain reaction) amplification have been used to identify the human chromosome content of BHF12 and its subclones. Several human chromosomes, in addition to chromosome 17 (the location of p53), are consistently associated with the growth arrest phenotype.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Identification of chromosomes implicated in suppression of apoptosis in somatic cell hybrids. 765 40

The rat cell line REF52 is not permissive for gene amplification. Simian virus 40 tumor (T) antigen converts these cells to a permissive state, as do dominant negative mutants of p53, suggesting that the effect of T antigen is due mainly to its ability to bind to p53. To manipulate permissivity, we introduced a temperature-sensitive mutant of T antigen (tsA58) into REF52 cells and selected for resistance to N-(phosphonacetyl)-L-aspartate (PALA). Most freshly isolated PALA-resistant colonies, each of approximately 200 cells, selected at a permissive temperature, arrested when shifted to a nonpermissive temperature. Growth arrest was stable, with no evidence of apoptosis, as long as T antigen was absent but was reversed when T antigen was restored. In contrast, PALA-resistant clones grown to approximately 10(7) cells at a permissive temperature did not arrest when shifted to a nonpermissive temperature. All PALA-resistant clones examined had amplified carbamoyl-phosphate synthetase-aspartate transcarbamoylase-dihydroorotase (CAD) genes, present in structures consistent with a mechanism involving bridge-breakage-fusion (BBF) cycles. We propose that p53-mediated growth arrest operates only early during the complex process of gene amplification, when newly formed PALA-resistant cells contain broken DNA, generated in BBF cycles. During propagation under permissive conditions, the broken DNA ends are healed, and, even though the p53-mediated pathway is still intact at a nonpermissive temperature and the cells contain amplified DNA, they are not arrested in the absence of broken DNA. The data support the hypothesis that BBF cycles are an important mechanism of amplification and that the broken DNA generated in each cycle is a key signal that regulates permissivity for gene amplification.
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PMID:p53-dependent growth arrest of REF52 cells containing newly amplified DNA. 772 43

Amplification in rodent cells usually involves bridge-breakage-fusion (BBF) cycles initiated either by end-to-end fusion of sister chromatids, or by chromosome breakage. In contrast, in human cells, resistance to the antimetabolite N-(phosphonacetyl)-L-aspartate (PALA) can be mediated by several different mechanisms that lead to overexpression of the target enzyme carbamyl-P synthetase, aspartate transcarbamylase, dihydro-orotase (CAD). Mechanisms involving BBF cycles account for only a minority of CAD amplification events in the human fibrosarcoma cell line HT 1080. Here, formation of a 2p isochromosome and overexpression of CAD by other types of amplification events (and even without amplification) are much more prevalent. Broken DNA is recognized by mammalian cells with intact damage-recognition pathways, as a signal to arrest or to die. Loss of these pathways by, for example, loss of p53 or pRb tumour suppressor function, or by increased expression of ras and myc oncogenes, causes non-permissive rat and human cells to become permissive both for amplification and for other manifestations of DNA damage. In cells that are already permissive, amplification can be stimulated by overexpressing oncogenes such as c-myc or ras, or by damaging DNA in a variety of ways. To supplement genetic analysis of amplification in mammalian cells, an amplification selection has been established in Schizosaccharomyces pombe. Selection with LiCl yields cells with amplified sod2 genes in structures related to those observed in mammalian cells. The effect on amplification in S. pombe can now be tested for any mutation in a gene involved in repair of damaged DNA or in normal cellular responses to DNA damage.
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PMID:Regulation and mechanisms of gene amplification. 774 53

The tumor suppressor protein p53 serves as a critical regulator of a G1 cell cycle checkpoint and of apoptosis following exposure of cells to DNA-damaging agents. The mechanism by which DNA-damaging agents elevate p53 protein levels to trigger G1/S arrest or cell death remains to be elucidated. In fact, whether damage to the DNA template itself participates in transducing the signal leading to p53 induction has not yet been demonstrated. We exposed human cell lines containing wild-type p53 alleles to several different DNA-damaging agents and found that agents which rapidly induce DNA strand breaks, such as ionizing radiation, bleomycin, and DNA topoisomerase-targeted drugs, rapidly triggered p53 protein elevations. In addition, we determined that camptothecin-stimulated trapping of topoisomerase I-DNA complexes was not sufficient to elevate p53 protein levels; rather, replication-associated DNA strand breaks were required. Furthermore, treatment of cells with the antimetabolite N(phosphonoacetyl)-L-aspartate (PALA) did not cause rapid p53 protein increases but resulted in delayed increases in p53 protein levels temporally correlated with the appearance of DNA strand breaks. Finally, we concluded that DNA strand breaks were sufficient for initiating p53-dependent signal transduction after finding that introduction of nucleases into cells by electroporation stimulated rapid p53 protein elevations. While DNA strand breaks appeared to be capable of triggering p53 induction, DNA lesions other than strand breaks did not. Exposure of normal cells and excision repair-deficient xeroderma pigmentosum cells to low doses of UV light, under conditions in which thymine dimers appear but DNA replication-associated strand breaks were prevented, resulted in p53 induction attributable to DNA strand breaks associated with excision repair. Our data indicate that DNA strand breaks are sufficient and probably necessary for p53 induction in cells with wild-type p53 alleles exposed to DNA-damaging agents.
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PMID:DNA strand breaks: the DNA template alterations that trigger p53-dependent DNA damage response pathways. 811 14

The tumor suppressor gene product, p53, appears to be a significant participant in signaling pathways that mediate cellular responses to cytotoxic stresses. In particular, p53 appears to be a critical determinant of whether the cell lives or dies and how it progresses through the cell cycle after the cytotoxic exposure. Many of the molecular details for these signaling pathways remain to be elucidated, and whether all cytotoxic signals utilize the same pathway to increase p53 expression is not clear. Here, we demonstrate the existence of cell types in which the induction of p53 and associated G1 arrest by the antimetabolite, N-(phosphonoacetyl)-L-aspartate (PALA), is defective, whereas p53 induction and G1 arrest induced by ionizing radiation are intact. These observations demonstrate the existence of genetic defects that can alter p53 induction and associated cellular outcomes after some, but not all, cytotoxic insults and suggest distinct pathways of p53 induction by PALA and ionizing radiation.
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PMID:Separate pathways for p53 induction by ionizing radiation and N-(phosphonoacetyl)-L-aspartate. 870 3

Abnormalities in the p53 tumor suppressor gene have been shown to affect cellular processes related to cell cycle control and gene amplification. In this study we compare the status and function of wild-type p53 in MCF-7 breast cancer cells with sublines selected for resistance to chemotherapeutic agents having different mechanisms of action. Sublines that were resistant to melphalan, pyrazafurin, mitoxantrone, etoposide and PALA all retained expression of wild-type p53. Methotrexate-resistant MCF-7 cells were unusual heterozygotes that expressed a wild-type and dominant, in-frame p53 deletion mutant and the doxorubicin-resistant cells expressed only mutant p53. Analysis of the G1 checkpoint after treatment with ionizing radiation revealed that the pyrazafurin-, melphalan- and mitoxantrone-resistant cells arrested strongly in G1. The etoposide- and PALA-resistant cells had an intermediate G1 arrest phenotype and the methotrexate- and doxorubicin-resistant cells had a minimal G1 arrest phenotype. mRNA and protein analyses of downstream effector genes, including P21CIP1/Waf1, mdm2, Gadd 45 and the retinoblastoma protein, did not entirely differentiate sublines having a strong versus intermediate G1 arrest phenotype. Neither the p53 status nor the strength of the G1 arrest could be correlated with cell survival after ionizing radiation. When drug-sensitive MCF-7 cells were treated with the same chemotherapeutic agents, p53 and p21CIP1/Waf1 levels increased between 2- and 14-fold. Together these data suggest that other cellular factors likely play a role in overcoming the inhibitory effects of ionizing radiation on p53 in drug-resistant breast cancer cells.
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PMID:Drug-resistant breast cancer cells frequently retain expression of a functional wild-type p53 protein. 870 43

Genomic stability was investigated in Chinese hamster ovary (CHO) and human hepatocellular carcinoma HepG2 cells selected for growth in the presence of cytotoxic concentrations of N-(phosphonacetyl-L-asparate) (PALA). In CHO cells selected with 9 x LD50 PALA the carbamyl p-synthetase, aspartate transcarbamylase and dihydroorotase (CAD) gene complex was amplified two-fold while in HepG2 cells selected at comparable PALA concentrations a 7- to 10-fold increase in the CAD gene was observed. Concomitant with amplification of the CAD gene were increases in CAD mRNA and protein expression in both CHO and HepG2 cells. In long-term cultures of HepG2 cells the CAD gene underwent spontaneous amplification (5-fold) in the absence of PALA treatment with increasing passage number. In an attempt to define proteins and/or family of proteins that may either directly or indirectly influence DNA amplification potential through a mechanism of enhanced genomic instability, immobilized pH gradient-two-dimensional polyacrylamide gel electrophoresis (IPG 2-D PAGE) analysis of silver-stained nuclear cytoplasmic polypeptides concomitant with PALA resistance and CAD amplification was performed. Analysis of silver-stained polypeptides from 3 x LD50 PALA-selected CHO and HepG2 cells revealed no significant alterations in polypeptide expression. In CHO cells selected at 5 x and 7 x PALA LD50, and HepG2 cells selected at 5 x and 9 x PALA LD50, one subset of 4-8 polypeptides (pl: pI 7.2-7.6/36-38 kDa) were increased 2- to 3-fold in both 5 x and 7 x- and 5 x and 9 x LD50 PALA-selected CHO and HepG2, respectively, while five relatively neutral-to-basic, low M(r) polypeptides (p2: 18/7.30; p3: 16/7.00; p4: 14/7.00; p5: 14/7.40; and p6: 13.5/7.00) were markedly increased in CHO cells selected at 7 x LD50 PALA. In addition to these PALA-associated increases, four polypeptides (p7a: pI 6.50/40 kDa; p7b: 6.55/40; p7c: 6.60/40; and p7d: 6.65/40) were significantly increased in high-passage (p159) HepG2 cells undergoing spontaneous CAD gene amplification in the absence of PALA exposure. In CHO cells, polypeptides p7 a, b, d were increased while the expression of p7c (pI 6.60/40 kDa) was unaltered in 7 x LD50-treated CHO cells. Although neither the identity nor biological function of polypeptides 1-7 is known, a proposed mechanism involving interaction with certain growth regulatory proteins such as p53 for mediating genomic instability is given.
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PMID:Protein alterations associated with gene amplification in cultured human and rodent cells. 885 14

L1210 cell lines selected for resistance to deoxyadenosine exhibit altered steady-state levels of the mRNA for the early response genes and p53. In the deoxyadenosine-resistant cell lines (Y8 and ED2), the levels of the mRNAs for p53 and c-jun were markedly decreased while the steady-state levels for mRNAs for c-myc, c-fos and jun B were elevated in the Y-8 and ED2 cell lines. The levels of the mRNAs for PCNA and c-myb were the same in the wild type and mutant cell lines. The levels of the mRNAs for krox-24 were extremely low in the wild type and mutant cell lines. Cycloheximide (CHX) treatment of the cells resulted in the increase in the mRNA levels for c-jun, jun B, krox 24 and p53 in the Y-8 and ED2 cell lines. The time courses and the extents of the increases in the mRNA levels following CHX treatment were not the same for all of these mRNAs. The level of p53 RNA increased with no lag following CHX treatment while the levels of the mRNAs for c-myc, c-jun and krox-24 increased after a one-hour lag period. The level of the mRNA for p53 and c-myc increased 20- and 7-fold, respectively while the mRNA level for knox-24 increased 80-fold following CHX treatment. The Y8 and ED2 cell lines that lack steady-state levels of p53 show decreased sensitivity to cisplatin and increased frequency of gene amplification as measured by PALA resistance in a manner similar to other cell lines lacking p53. On the other hand, the ED2 and Y8 cell lines do not show a G1-block in response to PALA treatment. The cell lines appear to offer an experimental system in which to study the interactions between/among these early response genes and the p53-dependent and independent pathways.
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PMID:Deoxyadenosine-resistant mouse leukemia L1210 cell lines with alterations in early response genes and p53. 904 10

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