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)

The transcription factors p53 and E2F-1 play important roles in the control of cell cycle progression. In transient transfection experiments, expression of E2F-1, other E2F family members, or p53 squelched transcription from cotransfected plasmids in a dose-dependent manner. Although the proteasome inhibitors MG-132 and lactacystin markedly increased the level of expression of E2F-1 and p53, these inhibitors completely alleviated squelching by both proteins. Several observations indicate MG-132 alleviates squelching by influencing the conformation of newly synthesized p53 and E2F-1:MG-132 increased the fraction of wild type p53 bound by a monoclonal antibody which preferentially recognizes mutant conformers of p53, increased binding of hsp70 to p53 and inhibited nuclear accumulation of both p53 and E2F-1, but not the pocket protein p107. The protease inhibitors ALLN and ALLM did not influence expression of E2F-1 or p53, nor did they alleviate squelching by either transcription factor. Because MG-132 and lactacycstin are highly specific inhibitors of the proteasome protease, our results suggest that the proteasome influences post-translational processes involved in proper folding and cytoplasmic clearing of E2F-1 and p53.
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PMID:Transcriptional squelching by ectopic expression of E2F-1 and p53 is alleviated by proteasome inhibitors MG-132 and lactacystin. 926 62

The murine double minute 2 (MDM2) protein facilitates G1 to S phase transition by activation of E2F-1 and can enhance cell survival by suppressing wild-type p53 (wtp53) function. In this study, we examined MDM2 expression and function in multiple myeloma (MM) cells. MDM2 is strongly and constitutively expressed in MM cell lines (ARH-77, RPMI 8226, and OCI-My5) and in the cells of plasma cell leukemia (PCL) patients, but is not expressed in normal bone marrow mononuclear cells (BM MNCs). Treatment of MM cells with MDM2 antisense, but not sense, nonsense, or scrambled, oligodeoxyribonucleotides (ODNs) decreased DNA synthesis and cell viability; it also induced G1 growth arrest, as evidenced by propidium iodide (PI) staining and induction of retinoblastoma protein (pRB) to E2F-1 binding. Moreover, inhibition of MDM2 using antisense ODNs also triggered MM cell apoptosis as evidenced by acridine orange-ethidium bromide staining. We next studied the association of MDM2 with wtp53 and/or mutant p53 (mtp53), E2F-1, CDK4, and p21. MDM2 constitutively binds to E2F-1 in all MM cells, to both wtp53 and mtp53, and to p21 in tumor cells lacking p53. These data suggest that MDM2 may enhance cell-cycle progression in MM cells both by activating E2F-1 and by downregulating cell-cycle inhibitory proteins (wtp53 and p21). Overexpression of MDM2 may therefore contribute to both growth and survival of MM cells, suggesting the potential utility of treatment strategies targeting MDM2 in MM.
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PMID:MDM2 protein overexpression promotes proliferation and survival of multiple myeloma cells. 929 33

The retinoblastoma gene product (pRB) plays an important role in controlling both cell release from the G1 phase and apoptosis. We show here that in the early phases of apoptosis, pRB is posttranslationally modified by a tissue transglutaminase (tTG)-catalyzed reaction. In fact, by employing a novel haptenized lysis synthetic substrate which allows the isolation of glutaminyl-tTG substrates in vivo, we identified pRB as a potential tTG substrate in U937 cells undergoing apoptosis. In keeping with this finding, we showed that apoptosis of U937 cells is characterized by the rapid disappearance of the 105,000- to 110,000-molecular-weight pRB forms concomitantly with the appearance of a smear of immunoreactive products with a molecular weight of greater than 250,000. The shift in pRB molecular weight was reproduced by adding exogenous purified tTG to extracts obtained from viable U937 cells and was prevented by dansylcadaverine, a potent enzyme inhibitor. The effect of the pRB posttranslational modification during apoptosis was investigated by determining the E2F-1 levels and by isolating and characterizing pRB-null clones from U937 cells. Notably, the lack of pRB in these U937-derived clones renders these p53-null cells highly resistant to apoptosis induced by serum withdrawal, calphostin C, and ceramide. Taken together, these data suggest that tTG, acting on the pRB protein, might play an important role in the cell progression through the death program.
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PMID:Tissue transglutaminase-dependent posttranslational modification of the retinoblastoma gene product in promonocytic cells undergoing apoptosis. 931 63

The mouse double minute 2 (mdm2) proto-oncogene was originally discovered as one of three genes that was amplified in a tumorigenic cell line derived from non-transformed Balb/c cells. Consistent with the expression pattern of mdm2 in these cells, it was later shown that the transforming potential of the mdm2 proto-oncogene can be activated by experimental overexpression. Overexpression of mdm2 protein been detected in a number of diverse human malignancies, indicating that this oncogene plays a key role in human carcinogenesis. One mechanism by which mdm2 overexpression may lead to uncontrolled cellular proliferation is through its ability to physically associate with the p53 tumor suppressor and block p53's growth suppressive functions. Forced overexpression of mdm2 has been shown to block the transactivation, cell cycle arrest and apoptotic functions of p53. The mdm2 gene has also been shown to be a transcriptional target of p53 and the induction of p53 transcriptional activity leads to increases in mdm2 RNA and protein levels. Thus, it appears that an auto-regulatory feedback loop exists between these two proteins which keeps the growth suppressive functions of p53 in check during normal cell cycling. However, this block is thought to be overcome during certain cellular insults, including DNA damage, so that p53 can regulate the expression of genes involved in cell cycle arrest and/or apoptosis. Genetic lesions leading to elevated levels of mdm2 likely impair the ability of p53 to orchestrate the expression of genes controlling cell cycle progression during cellular insults. This may lead to the propagation of genetic errors, genomic instability and ultimately to an increase in the rate of tumor cell evolution. There is also recent evidence which suggests that mdm2 may play roles in p53-independent pathways regulating cellular proliferation. mdm2 has recently been shown to interact with the retinoblastoma tumor suppressor protein p(Rb), and the E2F-1 and DP1 transcription factors. These, and other clinical, cellular and biochemical studies relating to the mdm2 oncogene are reviewed here. In addition, a proposed role for mdm2 in pathways controlling cell cycle response to cellular perturbations is presented.
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PMID:The mdm2 proto-oncogene. 932 85

Transgenic mice harboring the early genome from the human neurotropic JC virus, JCV, develop massive abdominal tumors of neural crest origin during 6-8 months after birth and succumb to death a few weeks later. The viral early protein, T-antigen, which possesses the ability to transform cells of neural origin, is highly expressed in the tumor cells. Immunoblot analysis of protein extract from tumor tissue shows high level expression of the tumor suppressor protein, p53, in complex with T-antigen. Expression of p21, a downstream target for p53, which controls cell cycle progression by regulating the activity of cyclins and their associated kinases during the G1 phase, is extremely low in the tumor cells. Whereas the level of expression and activity of cyclin D1 and its associated kinase, cdk6, was modest in tumor cells, both cyclin A and E, and their kinase partners, cdk2 and cdk4, were highly expressed and exhibited significant kinase activity. The retinoblastoma gene product, pRb, which upon phosphorylation by cyclins:cdk induces rapid cell proliferation, was found in the phosphorylated state in tumor cell extracts, and was detected in association with JCV T-antigen. The transcription factor, E2F-1, which dissociates from the pRb-E2F-1 complex and stimulates S phase-specific genes upon phosphorylation of pRb and/or complexation of pRb with the viral transforming protein, was highly expressed in tumor cells. Accordingly, high level expression of the E2F-1-responsive gene, proliferating cell nuclear antigen (PCNA), was detected in the tumor cells. These observations suggest a potential regulating pathway that, upon expression of JCV T-antigen, induces formation and progression of tumors of neural origin in a whole animal system.
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PMID:Role of cell cycle regulators in tumor formation in transgenic mice expressing the human neurotropic virus, JCV, early protein. 932 27

Apoptosis is a mode of cell death that is carefully regulated based on cellular and environmental signals. The ability to modulate the individual cellular machinery and thereby to promote apoptosis is an important strategy in cancer therapy. It has previously been shown that overexpression of the transcription factor E2F-1 can induce apoptosis in quiescent rat embryo fibroblasts. This effect has been reported to occur in a p53-dependent manner. To investigate whether overexpression of E2F-1 could also induce apoptosis in human cancer cells, a recombinant adenovirus vector containing the transgene E2F-1 under control of the cytomegalovirus promoter (Ad5CMVE2F) was used to induce high levels of the E2F-1 protein in human breast and ovarian carcinoma cell lines. Significant morphological changes occurred in four of the five cell lines within 48 h of transduction with the Ad5CMVE2F. These changes were consistent with apoptosis, which was confirmed further by DNA fragmentation assay and fluorescence-activated cell sorting analysis. On the basis of these assays, which show that apoptosis occurred in those cell lines with mutations in the p53 gene, we suggest that the induction of E2F-1-mediated apoptosis does not require wild-type p53 when E2F-1 is overexpressed using an adenovirus-based strategy.
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PMID:Adenovirus-mediated overexpression of the transcription factor E2F-1 induces apoptosis in human breast and ovarian carcinoma cell lines and does not require p53. 935 30

Irreversible exit from the cell cycle precludes the ability of cardiac muscle cells to increase cell number after infarction. Using adenoviral E1A, we previously demonstrated dual pocket protein- and p300-dependent pathways in neonatal rat cardiac myocytes, and have proven that E2F-1, which occupies the Rb pocket, suffices for these actions of E1A. By contrast, the susceptibility of adult ventricular cells to viral delivery of exogenous cell cycle regulators has not been tested, in vitro or in vivo. In cultured adult ventricular myocytes, adenoviral gene transfer of E2F-1 induced expression of proliferating cell nuclear antigen, cyclin-dependent protein kinase 4, cell division cycle 2 kinase, DNA synthesis, and apoptosis. In vivo, adenoviral delivery of E2F-1 by direct injection into myocardium induced DNA synthesis, shown by 5'-bromodeoxyuridine incorporation, and accumulation in G2/M, by image analysis of Feulgen-stained nuclei. In p53(-)/- mice, the prevalence of G1 exit was more than twofold greater; however, E2F-1 evoked apoptosis and rapid mortality comparably in both backgrounds. Thus, the differential effects of E2F-1 on G1 exit in wild-type versus p53-deficient mice illustrate the combinatorial power of viral gene delivery to genetically defined recipients: E2F-1 can override the G1/S checkpoint in postmitotic ventricular myocytes in vitro and in vivo, but leads to apoptosis even in p53(-)/- mice.
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PMID:Adenoviral delivery of E2F-1 directs cell cycle reentry and p53-independent apoptosis in postmitotic adult myocardium in vivo. 938 35

p202 is a primarily nuclear, interferon-inducible murine protein that is encoded by the Ifi 202 gene. Overexpression of p202 in transfected cells retards cell proliferation. p202 modulates the pattern of gene expression by inhibiting the activity of various transcription factors including NF-kappaB, c-Fos, c-Jun, E2F-1, and p53. Here we report that p202 was constitutively expressed in mouse skeletal muscle and that the levels of 202 RNA and p202 greatly increased during the differentiation of cultured C2C12 myoblasts to myotubes. When overexpressed in transfected myoblasts, p202 inhibited the expression of one muscle protein (MyoD) without affecting the expression of a second one (myogenin). Thus, the decrease in the level of MyoD (but not of myogenin) during muscle differentiation may be the consequence of the increase in p202 level. Overexpressed p202 also inhibited the transcriptional activity of both MyoD and myogenin. This inhibition was correlated with an interaction of p202 with both proteins, as well as the inhibition by p202 of the sequence-specific binding of both proteins to DNA. This inhibition of the expression of MyoD and of the transcriptional activity of MyoD and myogenin may account for the inhibition of the induction of myoblast differentiation by premature overexpression of p202.
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PMID:Increase in p202 expression during skeletal muscle differentiation: inhibition of MyoD protein expression and activity by p202. 944 5

Deregulation of the S-phase promoting E2F-1 transcription factor has been shown to cooperate with p53 to induce apoptosis. BaF3 cells undergo rapid, p53-dependent apoptosis when irradiated in the absence of IL-3. Rapid apoptosis induced by ionizing radiation (IR) coincides with attenuated p21(WAF1/Cip1) induction. Failure to adequately induce p21 could result in inappropriate release of E2F from Rb which may then cooperate with p53 to induce apoptosis in cells deprived of growth factor. We engineered BaF3 cells to express exogenous p21 and tested whether overexpressing p21 in cells irradiated in the absence of IL-3 protects from IR-induced apoptosis. Enforced p21 expression resulted in a consistent, but partial, protection of cells from undergoing IR-induced apoptosis. However, deregulating E2F activity through expression of HPV E7 failed to sensitize cells to IR-induced apoptosis in the presence of IL-3. Together, these data strongly suggest that the IL-3-responsive factors which modulate p53-mediated apoptosis in BaF3 cells are largely independent of G1 cell cycle checkpoint control mediated by p21.
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PMID:Small contribution of G1 checkpoint control manipulation to modulation of p53-mediated apoptosis. 951 69

The second joint conference of the AACR and the EACR held in Oxford from 9-12 September 1997 was successful from many vantage points. While providing an optimal setting in which European and American cancer researchers could meet and exchange information, the conference had an excellent scientific programme which encompassed both methodological updates on important models used in cancer research and presentations of recent key advances in the molecular genetics of cancer. Lower eukaryotes are established model organisms used to elucidate fundamental but complex eukaryotic processes, such as those involved in tumorigenesis and cancer progression, and the progressive availability of their genome sequence makes them even more attractive. Transgenic mouse models are increasingly used not only for the study of one gene of interest but for investigation of the interactions among genes involved in the same pathway. The family of tumour suppressor genes is growing fast and several presentations were devoted to recently identified members such as the Von Hippel-Lindau gene, the FHIT gene and the PTEN gene. The systematic analysis of loss of heterozygosity on multiple loci in tumour specimens can provide the basis for preliminary models of molecular multistep progression in some tumour types, even though this is limited by the high degree of complexity found. Mechanisms of cell cycle regulation and apoptosis continue to be dissected and to constitute a fruitful area of investigation, with important recent insights on the p53-MDM2 autoregulatory loop and on the involvement of E2F-1 in apoptosis.
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PMID:Recent advances in the molecular genetics of cancer. Second joint conference of the American Association of Cancer Research and the European Association of Cancer Research, Oxford, 9-12 September 1997. 954 79

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