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)

Clonally related composite lymphomas of Hodgkin's lymphoma (HL) and Non-Hodgkin's lymphoma (NHL) represent models to study the multistep transformation process in tumorigenesis and the development of two distinct tumors from a shared precursor. We analyzed six such lymphomas for transforming events. The HLs were combined in two cases with follicular lymphoma (FL), and in one case each with B-cell chronic lymphocytic leukemia, splenic marginal zone lymphoma, mantle cell lymphoma (MCL) and diffuse large B-cell lymphoma (DLBCL). In the HL/FL and HL/MCL combinations, BCL2/IGH and CCND1/IGH translocations, respectively, were detected in both the HL and NHL. No mutations were found in the tumor suppressor genes FAS, NFKBIA and ATM. The HL/DLBCL case harbored clonal replacement mutations of the TP53 gene on both alleles exclusively in the DLBCL. In conclusion, we present the first examples of molecularly verified IgH-associated translocations in HL, which also show that BCL2/IGH or CCND1/IGH translocations can represent early steps in the pathogenesis of composite HL/FL or HL/MCL. The restriction of the TP53 mutations to the DLBCL in the HL/DLBCL case exemplifies a late transforming event that presumably happened in the germinal center and affected the fate of a common lymphoma precursor cell towards development of a DLBCL.
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PMID:Insights into the multistep transformation process of lymphomas: IgH-associated translocations and tumor suppressor gene mutations in clonally related composite Hodgkin's and non-Hodgkin's lymphomas. 1597 55

Extensive researches have revealed that arsenical can exert anti-tumor efficacy against several kinds of cancers including leukemia. Though, little is known about the effects of arsenical on leukemia resistant to chemotherapy, emerging as a serious clinical problem. In this study, we tested arsenic trioxide (As(2)O(3))-induced apoptosis in K562/ADM multidrug-resistant leukemic cells and investigated its possible mechanisms. Using microscopy, flow cytometry (FCM) and DNA electrophoresis, we found that As(2)O(3) could induce the cells to undergo G2/M phase arrest and apoptosis. Further, it was shown that the levels of FAS and P53 proteins increased and P-glycoprotein (P-gp) decreased upon drug action by employing FCM. Reverse transcription polymerase chain reaction (RT-PCR) detected increased mRNA product of FAS and caspase-3 genes and reduced MDR1 mRNA. CASPASE-3 activity was also enhanced after As(2)O(3) treatment. However, the expression of BCL-2 protein was not affected by the drug. Taken together, As(2)O(3) is able to reverse the apoptosis resistance in drug-resistant K562/ADM cells by modulating expression or activity of key factors associated with apoptosis induction.
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PMID:Arsenic trioxide overcomes apoptosis inhibition in K562/ADM cells by regulating vital components in apoptotic pathway. 1597 94

Previously we reported that testicular germ cells undergo FAS-mediated apoptosis after exposure of mice to the Sertoli cell toxicant mono-(2-ethylhexyl) phthalate (MEHP) and that this process is partially dependent on the TRP53 protein (p53). Recent reports have suggested that TRP53 may influence the ubiquitinylation and consequent proteosomal degradation of a negative regulator of FAS, CFLAR (L) (c-FLIP [L]), in human colon cancer cells. To further characterize the relationship between CFLAR and TRP53, we used the transformed germ cell line GC-2spd (ts), which harbors a temperature-sensitive Trp53 mutation that allows for TRP53 activation at 32 degrees C. We report here that GC-2 cells expressed a 10-fold increase in basal cell membrane FAS levels and an increased sensitivity to FAS agonistic antibody (JO2)-triggered apoptosis only when they were maintained at the permissive TRP53 temperature. After JO2 exposure, CFLAR (L) protein levels were enhanced only at the nonpermissive TRP53 temperature (37 degrees C) while real-time PCR results indicated an absence of Cflar (L) mRNA changes in GC-2 cells regardless of the temperature. Furthermore, transfection of GC-2 cells at 37 degrees C with siRNA against Cflar resulted in reduction of CFLAR (L) protein levels and increased sensitivity to JO2-mediated apoptosis. The CFLAR (L) protein was also more strongly ubiquitinylated in response to JO2 treatment at the permissive TRP53 temperature. Taken together, these data suggest that the TRP53 protein influences the sensitivity of GC-2 cells to undergo FAS-mediated apoptosis by modulating the expression of FAS on their cell membranes and subsequently influencing the degradation of the antiapoptotic protein CFLAR (L).
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PMID:Influence of TRP53 status on FAS membrane localization, CFLAR (c-FLIP) ubiquitinylation, and sensitivity of GC-2spd (ts) cells to undergo FAS-mediated apoptosis. 1630 25

Epstein-Barr virus (EBV) induces CD95 expression and the CD95 gene (FAS) is regulated by NF-kappaB, STAT1, and/or p53. To understand the contribution of these factors in the regulation of CD95 by EBV in lymphoblastoid cell lines (LCLs), we cloned dominant-active IkappaBalpha, active (STAT1alpha) and inactive (STAT1beta) forms of STAT1, p53, a dominant-negative mutant of LMP1, and wild-type LMP1 into a novel double-inducible episomal vector, pRT-1. These plasmids were stably transfected either into wild-type LCLs or EREB2-5 cells, an LCL with an estrogen-regulatable EBNA2 protein. Inhibition of LMP1 signaling decreased expression of CD95, whereas overexpression of LMP1 markedly increased it. Induction of the latency III program in EREB2-5 cells correlated with activation of NF-kappaB, STAT1, and p53. CD95 expression was regulated by these 3 transcriptional systems. STAT1 and p53 activation were secondary to NF-kappaB activation. CD95 surface expression sensitized EBV-infected B cells to the induction of CD95-mediated apoptosis. In vitro inhibition of CD95-CD95 ligand interaction was found to reverse T-cell killing of EBV-infected B cells. Therefore, LMP1 activation of NF-kappaB sensitizes infected B cells to CD95-mediated apoptosis and renders EBV latency III-immortalized B cells susceptible to elimination by the immune system, contributing to the establishment of a host/virus equilibrium.
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PMID:EBV latency III immortalization program sensitizes B cells to induction of CD95-mediated apoptosis via LMP1: role of NF-kappaB, STAT1, and p53. 1631 4

The availability of oral precursors of 5-Fluorouracil (5-FU) and its favorable results in treating advanced breast cancer have renewed the interest in the molecular mechanisms underlying its cytotoxicity. We have compared the changes in cell cycle and cell death parameters induced by 2 different concentrations of 5-FU (IC50 and IC80) in the breast adenocarcinoma cell line MCF7. G1/S cell cycle arrest was associated with both concentrations, whereas cell death was mainly induced after IC80 5-FU. These changes were correlated with gene expression assessed by cDNA microarray analysis. Main findings included an overexpression of p53 target genes involved in cell cycle and apoptosis (CDKN1A/p21, TP53INP, TNFRSF6/FAS and BBC3/PUMA), and significant repression of Myc. High dose 5-FU also induced a higher regulation of the mitochondrial death genes APAF1, BAK1 and BCL2, and induction of genes of the ID family. Furthermore, we establish a direct causal relationship between p21, ID1 and ID2 overexpression, increased acetylation of histones H3 and H4 and binding of p53 to their promoters as a result of 5-FU treatment. The relevance of these findings was further studied after interfering p53 expression in MCF7 cells (shp53 cells), showing a lower induction of both, ID1 and ID2 transcripts, after 5-FU when compared with MCF7 shGFP control cells. This molecular characterization of dose- and time-dependent modifications of gene expression after 5-FU treatment should provide a resource for future basic studies addressing the molecular mechanisms of chemotherapy in breast cancer.
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PMID:Transcriptional profiling of MCF7 breast cancer cells in response to 5-Fluorouracil: relationship with cell cycle changes and apoptosis, and identification of novel targets of p53. 1655 94

Glutamine and glucose are often controlled at low levels in fed-batch strategies to limit ammonia and lactate accumulation and improve productivity of mammalian cell cultures. However, this risks triggering apoptosis if cells are depleted of glutamine or glucose. To examine the apoptosis cascade during glutamine or glucose limitation, the transcriptional profile of FAS, FASL, FADD, FLIP, BAX, p53 and PEG3 in CRL 1606 hybridoma culture was investigated using quantitative real-time PCR. Activities of caspases 2, 3, 8 and 9 were also analyzed. Increase in the activities of the caspases was observed with up-regulation in the expression of FAS (6-8-fold) and PEG3 (2.5-fold), suggesting that the cells experienced apoptotic cell death via both the death receptor and mitochondrial pathways.
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PMID:Glutamine or glucose starvation in hybridoma cultures induces death receptor and mitochondrial apoptotic pathways. 1685 9

Following the induction of DNA damage, a prominent route of cell inactivation is apoptosis. During the last ten years, specific DNA lesions that trigger apoptosis have been identified. These include O6-methylguanine, base N-alkylations, bulky DNA adducts, DNA cross-links and DNA double-strand breaks (DSBs). Repair of these lesions are important in preventing apoptosis. An exception is O6-methylguanine-thymine lesions, which require mismatch repair for triggering apoptosis. Apoptosis induced by many chemical genotoxins is the consequence of blockage of DNA replication, which leads to collapse of replication forks and DSB formation. These DSBs are thought to be crucial downstream apoptosis-triggering lesions. DSBs are detected by ATM (ataxia telangiectasia mutated) and ATR (ataxia telangiectasia and Rad3 related) proteins, which signal downstream to CHK1, CHK2 (checkpoint kinases) and p53. p53 induces transcriptional activation of pro-apoptotic factors such as FAS, PUMA and BAX. Many tumors harbor mutations in p53. There are p53 backup systems that involve CHK1 and/or CHK2-driven E2F1 activation and p73 upregulation, which in turn transcribes BAX, PUMA and NOXA. Another trigger of apoptosis upon DNA damage is the inhibition of RNA synthesis, which leads to a decline in the level of critical gene products such as MKP1 (mitogen-activated protein kinase phosphatase). This causes sustained activation of JNK (Jun kinase) and, finally, AP-1, which stimulates death-receptor activation. DNA damage-triggered signaling and execution of apoptosis is cell-type- and genotoxin-specific depending on the p53 (p63 and p73) status, death-receptor responsiveness, MAP-kinase activation and, most importantly, DNA repair capacity. Because most clinical anti-cancer drugs target DNA, increasing knowledge on DNA damage-triggered signaling leading to cell death is expected to provide new strategies for therapeutic interventions.
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PMID:DNA damage-induced cell death by apoptosis. 1689 8

Methionine deprivation stress (MDS) eliminates mitotic activity in melanoma cells regardless of stage, grade, or TP53 status, whereas it has a negligible effect on normal skin fibroblasts. In most cases, apoptosis accounts for the elimination of up to 90% of tumor cells from the culture within 72 hours after MDS, leaving a scattered population of multinucleated resistant cells. Loss of mitosis in tumor cells is associated with marked reduction of cyclin-dependent kinase (CDK) 1 transcription and/or loss of its active form (CDK1-P-Thr(161)), which is coincident with up-regulation of CDKN1A, CDKN1B, and CDKN1C (p21, p27, and p57). Expression of the proapoptotic LITAF, IFNGR, EREG, TNFSF/TNFRSF10 and TNFRSF12, FAS, and RNASEL is primarily up-regulated/induced in cells destined to undergo apoptosis. Loss of Aurora kinase B and BIRC5, which are required for histone H3 phosphorylation, is associated with the accumulation of surviving multinucleated cells. Nevertheless, noncycling survivors of MDS are sensitized to temozolomide, carmustin, and cisplatin to a much greater extent than normal skin fibroblasts possibly because of the suppression of MGMT/TOP1/POLB, MGMT/RAD52/RAD54, and cMET/RADD52, respectively. Sensitivity to these and additional genotoxic agents and radiation may also be acquired due to loss of cMET/OGG1, reduced glutathione reductase levels, and a G(2)-phase block that is a crucial step in the damage response associated with enhancement of drug toxicity. Although the genes controlling mitotic arrest and/or apoptosis in response to low extracellular methionine levels are unknown, it is likely that such control is exerted via the induction/up-regulation of tumor suppressors/growth inhibitor genes, such as TGFB, PTEN, GAS1, EGR3, BTG3, MDA7, and the proteoglycans (LUM, BGN, and DCN), as well as the down-regulation/loss of function of prosurvival genes, such as NFkappaB, MYC, and ERBB2. Although MDS targets several common genes in tumors, mutational variability among melanomas may decide which metabolic and signal transduction pathways will be activated or shutdown.
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PMID:Mitotic arrest, apoptosis, and sensitization to chemotherapy of melanomas by methionine deprivation stress. 1690 95

Early local recurrence is one of the main causes of treatment failure after definitive therapy of oral squamous cell carcinoma (OSCC), contributing significantly for the relative low survival rates of this neoplasia. The aim of this study was to investigate the clinical, histological and molecular factors involved in early local recurrence of OSCC, which may lead to better risk assessment in some specific cases. Twenty-seven patients with early recurrent OSCC were matched with 54 patients with the same clinical stage and tumor site but without local recurrence, in a pair-matched study design. All cases were evaluated in relation to the clinicopathological features and immunohistochemical expression of Ki-67, p53, bcl-2, FAS, Erb-B2, beta-catenin, and E-cadherin. The variables associated with ELR were alcohol consumption (p=0.019), treatment performed (p=0.041), and expression of Ki-67 (p=0.028), FAS (p=0.005) and membrane beta-catenin (p=0.026). The multivariate survival analysis (Cox regression) showed that surgery with adjuvant radiotherapy [OR=0.26 (95% CI, 0.1-0.6)] and FAS expression [OR=0.21 (95% CI, 0.1-0.5)] had a significant effect for ELR development. Radiotherapy had no significant impact on patients' overall survival. Therefore, both treatment and molecular characteristics of the tumor seem to be involved in early local recurrence.
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PMID:Clinicopathological and immunohistochemical evaluation of oral squamous cell carcinoma in patients with early local recurrence. 1707 93

Resveratrol is a polyphenolic chemopreventive agent that has been shown to influence cellular redox reactions. As a systematic approach to elucidating the complex effects of resveratrol on eukaryotic cells, we studied its dose-dependent effects on the transcript levels of genes and activities of enzymes related to redox metabolism, cell cycle regulation, and apoptotic cascades in the cancer cell line A549. Glutathione peroxidase (GPx)1 mRNA levels, as well as GPx and thioredoxin reductase (TrxR) activities, were significantly increased after resveratrol treatment, whereas total glutathione concentrations decreased. Increased transcript levels were also detected for selenophosphate synthetase 2 and superoxide dismutase 2. However, mRNA levels of thioredoxin, TrxR, glutathione reductase, glutathione S-transferase, superoxide dismutase 1, and catalase were not altered. Among the 12 genes studied that are related to the cell cycle, differentiation and apoptosis, mRNA levels of six genes, including P53, FAS, and BCL2, were upregulated, while the mRNA level of survivin was reduced. The results suggest that GPx and other selenoproteins are important targets of resveratrol. Furthermore, genes supporting cell survival and differentiation, as well as genes involved in proliferation inhibition and apoptosis, are induced by resveratrol, resulting in a delicate balance that is likely to contribute to the chemopreventive effects of resveratrol.
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PMID:Resveratrol modulates mRNA transcripts of genes related to redox metabolism and cell proliferation in non-small-cell lung carcinoma cells. 1726 Oct 84

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