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)

Telomere shortening in telomerase-negative somatic cells leads to the activation of the TP53 protein and the elimination of potentially unstable cells. We examined the effect of TP53 gene expression on both telomere metabolism and chromosome stability in immortal, telomerase-positive cell lines. Telomere length, telomerase activity, and chromosome instability were measured in multiple clones isolated from three related human B-lymphoblast cell lines that vary in TP53 expression; TK6 cells express wild-type TP53, WTK1 cells overexpress a mutant form of TP53, and NH32 cells express no TP53 protein. Clonal variations in both telomere length and chromosome stability were observed, and shorter telomeres were associated with higher levels of chromosome instability. The shortest telomeres were found in WTK1- and NH32-derived cells, and these cells had 5- to 10-fold higher levels of chromosome instability. The primary marker of instability was the presence of dicentric chromosomes. Aneuploidy and other stable chromosome alterations were also found in clones showing high levels of dicentrics. Polyploidy was found only in WTK1-derived cells. Both telomere length and chromosome instability fluctuated in the different cell populations with time in culture, presumably as unstable cells and cells with short telomeres were eliminated from the growing population. Our results suggest that transient reductions in telomere lengths may be common in immortal cell lines and that these alterations in telomere metabolism can have a profound effect on chromosome stability.
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PMID:TP53-dependent chromosome instability is associated with transient reductions in telomere length in immortal telomerase-positive cell lines. 1117 Feb 80

We investigated the involvement of TP53 in apoptosis induced by fast neutrons in cells of three human B-lymphoblast cell lines derived from the same donor and differing in TP53 status: TK6 (wild-type TP53), WTK1 (mutant TP53) and NH32 (knockout TP53). Cells were exposed to X rays or to fast neutrons at doses ranging from 0.5 to 8 Gy. Apoptosis was determined by measurements of the sub-G0 /G1-phase DNA content and by the externalization of phosphatidylserine. Fast neutrons induced extensive apoptosis in TK6 cells, as shown by the formation of hypodiploid particles, the externalization of phosphatidylserine, and the activation of caspases. In contrast, cell death was triggered at a significantly lower rate in cells lacking functional TP53. However, TP53-independent cell death also expressed the morphological and biochemical hallmarks of apoptosis. Proliferation tests and clonogenic assays showed that fast neutrons can nevertheless kill WTK1 and NH32 cells efficiently. The absence of functional TP53 only delays radiation-induced cell death, which is also mediated by caspases. These results indicate that fast-neutron irradiation activates two pathways to apoptosis and that the greater relative biological effectiveness of fast neutrons reflects mainly an increase in clonogenic cell death.
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PMID:Involvement of TP53 in apoptosis induced in human lymphoblastoid cells by fast neutrons. 1189 47

The involvement of the tumor suppressor p53 gene in the sensitivity of many cell types towards low linear energy transfer (LET) radiation is now well established. However, little information is available on the relationship between p53 status of tumor cells and their ability to undergo apoptosis following exposure to high-LET radiation. Here we present the results of experiments carried out with the human lymphoblastoid cell line TK6 and its p53 knock-out counterpart NH32. Cells were irradiated at doses ranging from 0.25 to 8 Gy with fast neutrons (65 MeV), carbon ions (95 MeV/nucleon), and X rays (15 MV). For both cell lines, the occurrence of apoptosis, determined by the quantification of hypodiploid particles as well as the activation of several caspases, was compared with their sensitivity towards high-LET radiation. Results indicate that p53 is involved in the response of TK6 cells to fast neutrons and carbon ions, as measured by cell proliferation and occurrence of apoptosis. However, p53-deficient cells are still able to undergo apoptosis following irradiation. This suggests that heavy ions and fast neutrons induce cellular damage that is not under the control of p53. The involvement of executioner caspases in high-LET radiation induced apoptosis was also evaluated by use of specific inhibitors.
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PMID:Induction of apoptosis by high linear energy transfer radiation: role of p531. 1218 22

The global cellular response to UV-induced DNA damage has been analyzed in the p53-proficient human lymphoblastoid strain TK6 versus two isogenic derivatives wherein p53 activity was abrogated by diverse experimental approaches: (i) NH32, carrying a homozygous genetic knockout of p53; and (ii) TK6-5E, expressing the human papillomavirus E6 oncoprotein which binds and functionally inactivates p53 protein. Although widely employed as such, the extent to which intracellular E6 expression faithfully models the p53 deficient state still remains uncertain. Following irradiation with UV (either monochromatic 254 nm UV or broad-spectrum simulated sunlight), relative to wild-type TK6, p53-null NH32 exhibited virtually identical clonogenic survival and kinetics of G1-S progression but was nonetheless profoundly resistant to apoptosis. In addition, there were significant qualitative and quantitative differences between NH32 and TK6 with respect to UV mutagenesis at the endogenous hypoxanthine phosphoribosyltransferase (hprt) locus. However, important disparities were observed between genetically p53-deficient NH32 and E6-expressing TK6-5E regarding the manner in which they responded to UV-induced genotoxic stress in relation to wild-type TK6. Indeed, although NH32 and TK6-5E behaved similarly with respect to UV mutagenesis at the hprt locus, there were significant differences between these strains in clonogenic survival, apoptosis, and G1-S progression. Using a well-defined isogenic system, our data clearly reveal the influence of p53 inactivation on the global response of human cells to UV-induced DNA damage, and highlight an important caveat in the field of p53 biology by directly demonstrating that this influence varies substantially depending upon whether p53 function is abrogated genetically, or through E6 oncoprotein expression.
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PMID:Modulation of the DNA damage response in UV-exposed human lymphoblastoid cells through genetic-versus functional-inactivation of the p53 tumor suppressor. 1237 71

Targeted gene silencing in mammalian cells by RNA interference (RNAi) using small interfering RNAs (siRNAs) was recently described by Elbashir et al. (S. M. Elbashir et al., Nature (Lond.), 411: 494-498, 2001). We have used this methodology in several human cell strains to reduce expression of the Prkdc (DNA-PKcs) gene coding for the catalytic subunit of the DNA-dependent protein kinase (DNA-PKcs) that is involved in the nonhomologous end joining of DNA double-strand breaks. We have also demonstrated a radiosensitization for several phenotypic endpoints of radiation damage. In low-passage normal human fibroblasts, siRNA knock-down of DNA-PKcs resulted in a reduced capacity for restitution of radiation-induced interphase chromosome breaks as measured by premature chromosome condensation, an increased yield of acentric chromosome fragments at the first postirradiation mitosis, and an increased radiosensitivity for cell killing. For three strains of related human lymphoblasts, DNA-PKcs-targeted siRNA transfection resulted in little or no increase in radiosensitivity with respect to cell killing, a 1.5-fold decrease in induced mutant yield in TK6- and p53-null NH32 cells, but about a 2-fold increase in induced mutant yield in p53-mutant WTK1 cells at both the hypoxanthine quanine phosphoribosyl transferase (hprt) and the thymidine kinase loci.
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PMID:Silencing expression of the catalytic subunit of DNA-dependent protein kinase by small interfering RNA sensitizes human cells for radiation-induced chromosome damage, cell killing, and mutation. 1243 23

The dose and TP53 dependence for the induction of chromosome instability were examined in cells of three human lymphoblastoid cell lines derived from WIL2 cells: TK6, a TP53-normal cell line, NH32, a TP53-knockout created from TK6, and WTK1, a WIL2-derived cell line that spontaneously developed a TP53 mutation. Cells of each cell line were exposed to (137)Cs gamma rays, and then surviving clones were isolated and expanded in culture for approximately 35 generations before the frequency and characteristics of the instability were analyzed. The presence of dicentric chromosomes, formed by end-to-end fusions, served as a marker of chromosomal instability. Unexposed TK6 cells had low levels of chromosomal instability (0.002 +/- 0.001 dicentrics/cell). Exposure of TK6 cells to doses as low as 5 cGy gamma rays increased chromosome instability levels nearly 10-fold to 0.019 +/- 0.008 dicentrics/cell. There was no further increase in instability levels beyond 5 cGy. In contrast to TK6 cells, unexposed cultures of WTK1 and NH32 cells had much higher levels of chromosome instability of 0.034 +/- 0.007 and 0.041 +/- 0.009, respectively, but showed little if any effect of radiation on levels of chromosome instability. The results suggest that radiation exposure alters the normal TP53-dependent cell cycle checkpoint controls that recognize alterations in telomere structure and activate apoptosis.
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PMID:The TP53 dependence of radiation-induced chromosome instability in human lymphoblastoid cells. 1275 55

A novel delivery system was used to study NO-mediated cyto- and genotoxicity in two human lymphoblastoid cell lines, TK6 (wild-type p53) and NH32 (p53-null but isogenic to TK6). The delivery system, which supplied NO and O(2) continuously by diffusion through gas permeable tubing, was found to maintain the NO and O(2) concentrations at constant, predictable values. Cellular rates of NO and O(2) consumption and mass transfer coefficients for the two gases were measured in separate experiments and used to calculate the NO concentrations during exposure experiments. The TK6 and NH32 cells were each exposed to several steady state NO concentrations for varying lengths of time, so that the total dose (area under the concentration-time curve) covered a wide range. End point assays, including lethality, apoptosis, mitochondrial damage, and mutation rate in the thymidine kinase (TK1) gene locus, were performed at different posttreatment times. Control experiments using Ar instead of NO resulted in normal cell proliferation for all exposure times tested (up to 36 h). As compared to those controls, significant cell death, apoptosis, and mitochondrial membrane depolarization were observed in NO-treated TK6 cells, and the TK1 mutation rate was elevated. Of particular importance, toxic effects were observed only when the NO concentration and dose were greater than threshold values of approximately 0.5 micro M and approximately 150 micro M min, respectively. If neither or only one threshold was exceeded, the effects were insignificant; when both were exceeded, total cell survival and the number of nonapoptotic cells both decreased exponentially with increasing NO dose. In general, the NH32 cells were much more resistant to NO-induced damage and death than TK6 cells, demonstrating that p53 status is an important determinant of NO-induced cytotoxicity.
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PMID:Thresholds of nitric oxide-mediated toxicity in human lymphoblastoid cells. 1292 28

Defects in apoptosis play a decisive role in both tumorigenesis and drug resistance in tumor treatment. The purpose of this study was to investigate the balance between formation of genomic damage and induction of apoptosis upon genotoxic stress. For this, we influenced the apoptotic response and measured the amount of genomic damage expressed as micronucleus formation after treatment with the topoisomerase II inhibitor etoposide. Apoptosis was reduced by the addition of pifithrin (PFT) alpha and enhanced by transient transfection with bcl-2 antisense-oligonucleotide in Bcl-2-overexpressing cells. We used three human lymphoblastoid cell lines with different p53 status (TK6, wild-type p53; WTK1, mutated p53; NH32, p53 double knockout). Under conditions of reduced apoptosis, micronucleus formation was also reduced. When apoptosis was increased, micronucleus formation remained unchanged or was also increased. Overall, we did not find an expected inverse correlation between induction of apoptosis and genomic damage.
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PMID:Influence of altered apoptosis in human lymphoblastoid cell lines on micronucleus frequency. 1475 22

Diepoxybutane (DEB) is the most potent metabolite of the environmental chemical 1,3-butadiene (BD), which is prevalent in petrochemical industrial areas. BD is a known mutagen and human carcinogen, and possesses multiorgan systems toxicity that includes bone marrow depletion, spleen, and thymus atrophy. Toxic effects of BD are mediated through its epoxy metabolites. In working towards elucidating the cellular and molecular mechanisms of BD toxicity, we investigated the ability of DEB to induce apoptosis in human lymphoblasts. DEB induced a concentration and exposure time-dependent apoptosis, which accounted for the DEB-induced loss of cell viability observed in TK6 lymphoblasts. The DEB-induced apoptosis was inhibited by inhibitors of caspases 3 and 9. The role of p53 in mediating the DEB-induced apoptosis was also investigated. DEB induced elevated p53 levels in direct correlation to the extent of DEB-induced apoptosis, as the concentration of DEB increased up to 5 microM. The extent of DEB-induced apoptosis was dramatically higher in TK6 lymphoblasts as compared to the genetically paired p53-deficient NH32 lymphoblasts under the same experimental conditions. Our results confirm and extend observations on the occurrence of apoptosis in DEB exposed cells, and demonstrate for the first time the elevation of p53 levels in human lymphoblasts in response to DEB exposure. In addition, our results demonstrate for the first time that DEB-induced apoptosis is mediated by caspases 3 and 9, as well as the p53 protein. It is possible that DEB-induced apoptosis may explain BD-induced bone marrow depletion, spleen and thymus atrophy in BD-exposed animals.
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PMID:Diepoxybutane induces caspase and p53-mediated apoptosis in human lymphoblasts. 1499 82

The pro-apoptotic ability of (Z)-3,5,4'-Tri-O-methyl-resveratrol (R3) was investigated in vitro on the human lymphoblastoid cell line TK6 and its p53-knockout counterpart (NH32). In both cell lines, R3 induced the stimulation of caspase-3. Although R3 induced growth inhibition and apoptosis of both cell lines, two distinct mechanisms were observed. The p53-knockout NH32 cells were shown to override the G2/M phase checkpoint with development of hyperdiploid cells, whereas TK6 cells accumulated at G2/M. As p53 function is often altered in human cancer cells, these results show that the pro-apototic effects of R3 against tumor cells are independent of their p53 status.
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PMID:(Z)-3,5,4'-Tri-O-methyl-resveratrol, induces apoptosis in human lymphoblastoid cells independently of their p53 status. 1521 39

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