Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Telomere attrition in primary human fibroblasts induces replicative senescence accompanied by activation of the p53 and p16(INK4a)/RB tumor suppressor pathways. Although the contribution of p53 and its target, p21, to telomere-driven senescence have been well established, the role of p16(INK4a) is controversial. Attempts to dissect the significance of p16(INK4a) in response to telomere shortening have been hampered by the concomitant induction of p16(INK4a) by cell culture conditions. To circumvent this problem, we studied the role of p16(INK4a) in the cellular response to acute telomere damage induced by a dominant negative allele of TRF2, TRF2(Delta B Delta M). This approach avoids the confounding aspects of culture stress because parallel cultures with and without telomere damage can be compared. Telomere damage generated with TRF2(Delta B Delta M) resulted in induction of p16(INK4a) in the majority of cells as detected by immunohistochemistry. Inhibition of p16(INK4a) with shRNA or overexpression of BMI1 had a significant effect on the telomere damage response in p53-deficient cells. While p53 deficiency alone only partially abrogated the telomere damage-induced cell cycle arrest, combined inhibition of p16(INK4a) and p53 led to nearly complete bypass of telomere-directed senescence. We conclude that p16(INK4a) contributes to the p53-independent response to telomere damage.
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PMID:Significant role for p16INK4a in p53-independent telomere-directed senescence. 1562 Jun 60

To identify recurrent genomic changes in mantle cell lymphoma (MCL), we used high-resolution comparative genomic hybridization (CGH) to bacterial artificial chromosome (BAC) microarrays in 68 patients and 9 MCL-derived cell lines. Array CGH defined an MCL genomic signature distinct from other B-cell lymphomas, including deletions of 1p21 and 11q22.3-ATM gene with coincident 10p12-BMI1 gene amplification and 10p14 deletion, along with a previously unidentified loss within 9q21-q22. Specific genomic alterations were associated with different subgroups of disease. Notably, 11 patients with leukemic MCL showed a different genomic profile than nodal cases, including 8p21.3 deletion at tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) receptor gene cluster (55% versus 19%; P = .01) and gain of 8q24.1 at MYC locus (46% versus 14%; P = .015). Additionally, leukemic MCL exhibited frequent IGVH mutation (64% versus 21%; P = .009) with preferential VH4-39 use (36% versus 4%; P = .005) and followed a more indolent clinical course. Blastoid variants, increased number of genomic gains, and deletions of P16/INK4a and TP53 genes correlated with poorer outcomes, while 1p21 loss was associated with prolonged survival (P = .02). In multivariate analysis, deletion of 9q21-q22 was the strongest predictor for inferior survival (hazard ratio [HR], 6; confidence interval [CI], 2.3 to 15.7). Our study highlights the genomic profile as a predictor for clinical outcome and suggests that "genome scanning" of chromosomes 1p21, 9q21-q22, 9p21.3-P16/INK4a, and 17p13.1-TP53 may be clinically useful in MCL.
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PMID:Mantle-cell lymphoma genotypes identified with CGH to BAC microarrays define a leukemic subgroup of disease and predict patient outcome. 1571 13

The Polycomb group gene Bmi1 is essential for the proliferation of neural and hematopoietic stem cells. Much remains to be learned about the pathways involved in the severe hematopoietic phenotype observed in Bmi1 homozygous mutant mice except for the fact that loss of p53 or concomitant loss of p16(Ink4a) and p19(Arf) functions achieves only a partial rescue. Here we report the identification of E4F1, an inhibitor of cellular proliferation, as a novel BMI1-interacting partner in hematopoietic cells. We provide evidence that Bmi1 and E4f1 genetically interact in the hematopoietic compartment to regulate cellular proliferation. Most importantly, we demonstrate that reduction of E4f1 levels through RNA interference mediated knockdown is sufficient to rescue the clonogenic and repopulating ability of Bmi1(-/-) hematopoietic cells up to 3 mo post-transplantation. Using cell lines and MEF, we also demonstrate that INK4A/ARF and p53 are not essential for functional interaction between Bmi1 and E4f1. Together, these findings identify E4F1 as a key modulator of BMI1 activity in primitive hematopoietic cells.
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PMID:E4F1: a novel candidate factor for mediating BMI1 function in primitive hematopoietic cells. 1688 84

Mantle cell lymphoma (MCL) is a well-defined lymphoid neoplasm characterized by a proliferation of mature B lymphocytes expressing CD5 that may show a spectrum of morphological and phenotypic features broader than initially described. Although some patients may follow an indolent clinical evolution, in most of them the tumour has an aggressive behaviour with poor response to conventional chemotherapy. The genetic hallmark is the t(11;14)(q13;q32) translocation leading to the overexpression of cyclin D1, which is considered the initial oncogenic event. In addition to this translocation, MCL may carry a high number of secondary chromosomal and molecular alterations that target regulatory elements of the cell cycle machinery and senescence (BMI1/INK4/ARF/CDK4/RB1), DNA damage response pathways (ATM/CHK2/p53), and cell survival signals. The knowledge of these mechanisms and their influence on the behaviour of the tumour are facilitating the development of prognostic models with a more precise prediction of the clinical evolution of the patients. This information coupled with the availability of a new generation of innovative drugs targeting basic molecular process of the tumour cells, should facilitate the design of new therapeutic protocols able to overcome the resistance of this aggressive lymphoma to conventional treatments and improve the life expectancy of the patients.
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PMID:Advances in the understanding of mantle cell lymphoma. 1841 Apr 53

Senescence is a potential tumor-suppressing mechanism and a commonly used model of cellular aging. One current hypothesis to explain senescence, based in part on the correlation of oxygen with senescence, postulates that it is caused by oxidative damage from reactive oxygen species (ROS). Here, we further test this theory by determining the mechanisms of hyperoxia-induced senescence. Exposure to 70% O(2) led to stress-induced, telomere-independent senescence. Although hyperoxia elevated mitochondrial ROS production, overexpression of antioxidant proteins was not sufficient to prevent hyperoxia-induced senescence. Hyperoxia activated AMPK; however, overexpression of a kinase-dead mutant of LKB1, which prevented AMPK activation, did not prevent hyperoxia-induced senescence. Knocking down p21 via shRNA, or suppression of the p16/pRb pathway by either BMI1 or HPV16-E7 overexpression, was also insufficient to prevent hyperoxia-induced senescence. However, suppressing p53 function resulted in partial rescue from senescence, suggesting that hyperoxia-induced senescence involves p53. Suppressing both the p53 and pRb pathways resulted in almost complete protection, indicating that both pathways cooperate in hyperoxia-induced senescence. Collectively, these results indicate a ROS-independent but p53/pRb-dependent senescence mechanism during hyperoxia.
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PMID:Hyperoxia-induced premature senescence requires p53 and pRb, but not mitochondrial matrix ROS. 1894 82

Overexpression of BMI1 correlates with cancer development, progression, and therapy failure; however, the underlying molecular mechanisms remain to be fully elucidated. Using the C666-1 nasopharyngeal cancer (NPC) model, the role of BMI1 in mediating response of NPC cells to radiation therapy (RT) was investigated. The results showed a novel radioresistance function for BMI1 in NPC, wherein BMI1 depletion sensitized NPC cells to RT. Cell cycle analysis and transmission electron microscopy (TEM) showed apoptosis as the major mode of cell death, and the mitochondria as a primary targeted cellular organelle. Genome-wide microarray and pathway analyses revealed that the P53 pathway is a critical mediator of this process. Cotransfection with siP53 rescued C666-1 cells from cytotoxicity upon BMI1 depletion and RT, thereby corroborating the role for P53. Pretreatment with the antioxidant, Trolox, inhibited apoptosis, indicating that production of reactive oxygen species (ROS) is also mediating cytotoxicity. In vivo, BMI1 depletion combined with RT abrogated tumor-forming capacity in SCID mice, showing the relevance of this process in a more complex tumor environment. Hence, we show a novel role for BMI1 in conferring radioresistance in cancer cells through the downregulation of p53-mediated apoptosis. These results suggest a potential strategy of BMI1 depletion combined with RT for tumors wherein BMI1 appears to be driving disease progression.
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PMID:Targeted depletion of BMI1 sensitizes tumor cells to P53-mediated apoptosis in response to radiation therapy. 1957 17

Glioblastoma multiforme (GBM) is one of the most common and aggressive types of brain tumors. In GBM, a subpopulation of CD133-positive cancer initiating cells displays stem cell characteristics. The Polycomb group (PcG) and oncogene BMI1 is part of the Polycomb repressive complex 1 (PRC1) that regulates gene expression by modifying chromatin organization. Here we show that BMI1 is expressed in human GBM tumors and highly enriched in CD133-positive cells. Stable BMI1 knockdown using short hairpin RNA-expressing lentiviruses resulted in inhibition of clonogenic potential in vitro and of brain tumor formation in vivo. Cell biology studies support the notion that BMI1 prevents CD133-positive cell apoptosis and/or differentiation into neurons and astrocytes, depending on the cellular context. Gene expression analyses suggest that BMI1 represses alternate tumor suppressor pathways that attempt to compensate for INK4A/ARF/P53 deletion and PI(3)K/AKT hyperactivity. Inhibition of EZH2, the main component of the PRC2, also impaired GBM tumor growth. Our results reveal that PcG proteins are involved in GBM tumor growth and required to sustain cancer initiating stem cell renewal.
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PMID:BMI1 sustains human glioblastoma multiforme stem cell renewal. 1960 26

Necdin (NDN), a member of the melanoma-associated antigen (MAGE) family of proteins was first identified in mouse stem cells of embryonal carcinoma origin induced to differentiate by treatment with retinoic acid. The human gene maps to chromosome 15q11. This imprinted region is implicated in the pathogenesis of Prader-Willi syndrome (PWS), a neurodevelopmental disorder, where NDN is one of multiple genes silenced by deletion, maternal uniparental disomy or translocation. Due to this association, much interest has focused on the role of NDN in neuronal development and differentiation. However, a considerable number of studies have identified additional functions of NDN. Taken together these studies suggest a pleiotropic protein with diverse functions some of which may be relevant to tumorigenesis. Downregulation of NDN occurs in carcinoma cell lines and primary tumors, suggesting a tumor suppressor role. Our working hypothesis is that NDN is a worthy candidate for further studies with regard to a potential tumor suppressor role. In this article we outline the considerable evidence supporting the hypothesis that NDN has multiple functions, some of which indicate that it could be a tumor suppressor. The roles of NDN in key processes such as interaction with p53 and E2F-1, hematopoietic stem cell quiescence, transcriptional repression, angiogenesis, differentiation and interaction with the polycomb group gene BMI1 are discussed. Confirmation of NDN as a tumor suppressor may have implications for monitoring of PWS patients and could present a novel cancer therapeutic target.
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PMID:Necdin: a multi functional protein with potential tumor suppressor role? 1962 46

Reversible immortalization holds great potential for primary tissue expansion to develop cell-based therapies as well as for basic research. Human olfactory ensheathing glia (hOEG) are promising candidates for treating spinal cord injury and for studying extrinsic neuroregenerative mechanisms. We used lentivectors with Cre/loxP technology to achieve reversible gene transfer of BMI1, SV40 large T antigen (TAg), a short hairpin RNA against p53 (shp53), and the catalytic subunit of telomerase (TERT) in primary cultures of hOEG from human donor cadaver olfactory bulbs. Several combinations of these genes were able to immortalize hOEG, conserving their antigenic markers and neuroregenerative properties but only those transduced by BMI1/TERT did not accumulate karyotypic alterations or increase senescence marker levels. Strikingly, these were also the only cells which continued to proliferate after transgene removal by Cre recombinase delivery, whereas hOEG immortalized by shp53 or TAg in combination with TERT entered into growth arrest and died. These data support the idea that immortalization and halting senescent changes are separate processes; hOEG immortalized by BMI1/TERT can revert back to their former primary cell replicative state when deimmortalized, whereas those transduced by the other combinations depend on the presence of these transgenes to maintain their aberrant proliferative state.
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PMID:Prevention of senescence progression in reversibly immortalized human ensheathing glia permits their survival after deimmortalization. 1993 79

EZH2 and BMI1 are transcriptional repressors and have been implicated in the progression of human cancers. Squamous cell carcinoma of the esophagus (ESCC) is one of the most aggressive carcinomas in the gastrointestinal tract and generally has an unfavorable outcome. In the present study, we immunohistochemically investigated the expression of EZH2 and BMI1 in 136 surgically resected ESCCs and adjacent epithelium. We also analyzed associations between aberrant expression of EZH2 and BMI1, and both clinicopathological findings and outcome. MYC, RB, and P53 expression was examined in selected cases and analyzed in relation to EZH2 expression. Mutations in the P53 gene were evaluated by direct sequencing. EZH2 mRNA expression was investigated in ESCC cell lines with and without P53 transcriptional activity. The results showed that EZH2 protein and BMI1 protein were upregulated in ESCC tissue in comparison with adjacent non-neoplastic epithelium. Aberrant EZH2 and BMI1 protein expression was observed in 19 (14.0%) and 23 (16.9%), respectively, of the 136 ESCCs. Aberrant EZH2 expression was significantly associated with larger size, greater depth of invasion, presence of distant metastasis, and shorter disease-free survival time. Aberrant BMI1 expression was inversely associated with lymph node metastasis and venous invasion, but not associated with survival of the patients. In addition, aberrant EZH2 expression was associated with P53 alteration in ESCC tissue. EZH2 mRNA expression in ESCC cell lines was reduced by activation of P53. In conclusion, P53 alteration may be involved in dysregulated EZH2 expression, and aberrant expression of EZH2 may play a role in ESCC progression.
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PMID:Aberrant expression of EZH2 is associated with a poor outcome and P53 alteration in squamous cell carcinoma of the esophagus. 2116 54


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