UNIPROT:P43146 - FACTA Search

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Query: UNIPROT:P43146 (tumour suppressor)
5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recently, attention has focused on the potential of oncogenes, tumour suppressor genes, and assessment of cell proliferation as biological response indicators in human cancer. In this study, immunocytochemical analysis was used to evaluate the usefulness of Ki67, epidermal growth factor receptor (EGFr), and the protein products of c-Myc and Bcl-2 as indicators of radiosensitivity in primary cultures of head and neck tumours. Primary cultures established from tumours taken at surgery were divided into two groups; the control group remained untreated, and the treatment group received a single dose of 2 Gy. The cultures were incubated for 14 days, after which time they were fixed and examined immunocytochemically. The response to treatment of the cultures was measured as the percentage of growth inhibition (%GI) in the treated cultures relative to the untreated controls. Expression of Ki67 measured after a single dose of 2 Gy significantly differentiated the radioresistant and radiosensitive groups (P = 0.045); high percentages of Ki67+ cells correlated with radioresistance. A significant difference was found between the expression of EGFr in the resistant and sensitive groups, as measured in control cultures and after a dose of 2 Gy (P = 0.002 and P = 0.03, respectively); high levels of expression of EGFr correlated with radioresistance. The level of expression c-Myc+ cells, as measured in control cultures, significantly distinguished the radiosensitive group from the radioresistant group (P = 0.05). These results indicate a potential role for these proteins as indicators of radioresistance.
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PMID:Potential indicators of radiosensitivity in squamous cell carcinoma of the head and neck. 932 97

The c-Myc oncoprotein is strongly implicated in B-cell neoplasms such as human Burkitt lymphomas and mouse plasmocytomas. Transgenic mice in which the myc gene is juxtaposed to an immunoglobulin enhancer (E(mu)-myc) also develop B-cell lymphomas, but relatively late in life. In addition, these neoplasms are invariably clonal, suggesting the involvement of additional mutations. Such mutations frequently affect the p53 tumour suppressor gene or its positive regulator Arf, hinting that inactivation of the p53 pathway might be the second hit required for the progression towards malignancy. However, even tumours arising in E(mu)-myc/Arf-null animals are thought to be clonal. This observation raised doubts whether overexpression of Myc in p53-null B-cell precursors is sufficient for tumorigenesis. To address this question, we have established a new, non-transgenic mouse model of B-lymphoma. This model is based on isolation of primary bone marrow (BM) cells, admixing them with packaging cells producing a Myc-encoding retrovirus (LMycSN), and subcutaneous injection into a host with which BM cells are syngeneic. Predictably, wild type BM cells infected in vivo by LMycSN were not tumorigenic. However, LMycSN-infected p53-null BM cells readily gave rise to B-cell lymphomas composed predominantly of late pro-B/small pre-B-cells. In these tumours, heavy chain gene rearrangements were analysed using two independent PCR-based assays. All neoplasms with DJ-rearrangements were found to be polyclonal. This result suggests that inactivation of p53 and overexpression of Myc is all that is necessary for the development of full-fledged B-lymphomas. Our model would also be instrumental in assessing the transforming potential of Myc mutants and in studying cooperation between Myc and other oncogenes.
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PMID:A non-transgenic mouse model for B-cell lymphoma: in vivo infection of p53-null bone marrow progenitors by a Myc retrovirus is sufficient for tumorigenesis. 1189 25

Gamma-radiation-induced thymic lymphomas constitute a heterogeneous group of T-cell lymphomas. Some tumour suppressor genes and oncogenes have been shown to be defective in a fraction of such lymphomas, yet a considerable number of these remain elusive in terms of gene alterations. In the present work we present evidence that gamma-radiation-induced thymic lymphomas in (C57BL/6 J x BALB/c) F1 hybrid mice often exhibit increased levels of Notch1 expression, but, contrary to what was expected, they also exhibit a clearly reduced Notch2 mRNA expression, suggesting a cooperative antagonism of these genes. These results represent the first reported instance for the involvement of Notch2 inactivation in the development of thymic primary tumours while confirming the role of Notch1 as an activated oncogene. Additional analyses revealed that c-Myc over-expression and partial inactivation of Znfn1a1/Ikaros appear to be relevant events some how coupled to alterations in Notch genes inducing these kinds of tumours.
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PMID:Defective expression of Notch1 and Notch2 in connection to alterations of c-Myc and Ikaros in gamma-radiation-induced mouse thymic lymphomas. 1497 35

Apoptosis has been implicated in the regulation of denervation-induced muscle atrophy. However, the activation of apoptotic signal transduction during muscle denervation has not been fully elucidated. The present study examined the apoptotic responses to denervation in rat gastrocnemius muscle. Following 14 days of denervation, the extent of apoptotic DNA fragmentation as determined by a cytosolic nucleosome ELISA was increased by 100% in the gastrocnemius muscle. RT-PCR and immunoblot analyses indicated that Bax was dramatically upregulated while Bcl-2 was modestly increased; however, the Bax/Bcl-2 ratio was significantly increased in denervated muscles relative to control muscles. Analyses of ELISA and immunoblots from mitochondria-free cytosol extracts showed a significant increase in mitochondria-associated apoptotic factors, including cytochrome c, Smac/DIABLO and apoptosis-inducing factor (AIF). In addition to the upregulation of caspase-3 and -9 mRNA, pro-/cleaved caspase protein and proteolytic activity levels, the X-linked inhibitor of apoptosis (XIAP) protein level was downregulated. The cleaved product of poly(ADP-ribose) polymerase (PARP) was detected in muscle samples following denervation. Although we did not find a difference in the inhibitor of DNA binding/differentiation-2 (Id2) and c-Myc protein contents between the denervated and control muscles, the protein content of tumour suppressor p53 was significantly increased in both the nuclear and the cytosolic fractions with denervation. Moreover, denervation increased the protein content of HSP70, whereas the MnSOD (a mitochondrial isoform of superoxide dismutase) protein content was diminished, which indicated that denervation might have induced cellular and/or oxidative stress. Our data show that mitochondria-associated apoptotic signalling is upregulated during muscle denervation. We interpret these findings to indicate that apoptosis has a physiologically important role in regulating denervation-induced muscle atrophy.
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PMID:Mitochondria-associated apoptotic signalling in denervated rat skeletal muscle. 1577 33

The Wnt signalling pathway can activate transcription of genes such as c-myc through beta-catenin. Here, we describe the protein breakpoint cluster region, Bcr, as a negative regulator of this pathway. Bcr can form a complex with beta-catenin and negatively regulate expression of c-Myc. Knockdown of Bcr by short interfering RNA relieves the block and activates expression of c-Myc. Expression of Bcr in the human colon carcinoma cell line HCT116, which has a high level of endogenous beta-catenin, leads to reduced c-Myc expression. The negative effect is exerted by the amino terminus of Bcr, which does not harbour the kinase domain. Bcr-Abl, the oncogene protein expressed in chronic myelogenous leukaemia (CML), does not bind to beta-catenin. It phosphorylates Bcr in the first exon sequence on tyrosines, which abrogates the binding of Bcr to beta-catenin. The inhibitor of the Bcr-Abl tyrosine kinase, STI-571 or Gleevec, a drug against CML, reverses this effect. Our data contribute to the understanding of Bcr as a tumour suppressor in the Wnt signalling pathway, as well as in CML.
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PMID:Bcr is a negative regulator of the Wnt signalling pathway. 1621 Oct 85

RNA polymerase (pol) III transcription decreases when primary cultures of rat neonatal cardiomyocytes are exposed to low oxygen tension. Previous studies in fibroblasts have shown that the pol III-specific transcription factor IIIB (TFIIIB) is bound and regulated by the proto-oncogene product c-Myc, the mitogen-activated protein kinase ERK and the retinoblastoma tumour suppressor protein, RB. The principal function of TFIIIB is to recruit pol III to its cognate gene template, an activity that is known to be inhibited by RB and stimulated by ERK. We demonstrate by chromatin immunoprecipitation (ChIP) that c-Myc also stimulates pol III recruitment by TFIIIB. However, hypoxic conditions cause TFIIIB dissociation from c-Myc and ERK, at the same time as increasing its interaction with RB. Consistent with this, ChIP assays indicate that the occupancy of tRNA genes by pol III is significantly reduced, whereas promoter binding by TFIIIB is undiminished. The data suggest that hypoxia can inhibit pol III transcription by altering the interactions between TFIIIB and its regulators and thus compromising its ability to recruit the polymerase. These effects are independent of cell cycle changes.
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PMID:Hypoxic stress suppresses RNA polymerase III recruitment and tRNA gene transcription in cardiomyocytes. 1640 35

BRCA1 (breast-cancer susceptibility gene 1) is a tumour suppressor, implicated in the hereditary predisposition to breast and ovarian cancer. BRCA1 has been implicated in a number of cellular processes including DNA repair and recombination, cell cycle checkpoint control, chromatin remodelling and ubiquitination. In addition, substantial data now exist to suggest a role for BRCA1 in transcriptional regulation; BRCA1 has been shown to interact with the Pol II holoenzyme complex and to interact with multiple transcription factors, such as p53 and c-Myc. We have previously identified a range of BRCA1 transcriptional targets and have linked these to specific cellular pathways, including cell cycle checkpoint activation and apoptosis. Current research is focused on the transcriptional mechanisms that underpin the association of BRCA1 deficiency with increased sensitivity to DNA damage-based chemotherapy and resistance to spindle poisons.
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PMID:Role played by BRCA1 in transcriptional regulation in response to therapy. 1795 47

The c-Myc oncoprotein is a master regulator of genes involved in diverse cellular processes. Situated upstream of signalling pathways regulating cellular replication/growth as well as apoptosis/growth arrest, c-Myc may help integrate processes determining cell numbers and tissue size in physiology and disease. In cancer, this 'dual potential' allows c-Myc to act as its own tumour suppressor. Evidently, given that deregulated expression of c-Myc is present in most, if not all, human cancers (Table 1) and is associated with a poor prognosis, by implication these in-built 'failsafe' mechanisms have been overcome. To explore the complex activity of c-Myc and its potential as a therapeutic target 'post-genome era' technologies for determining global gene expression alongside advanced new models for the study of tumourigenesis in vivo have proved invaluable. Thus, many recent studies have provided encouragement for the therapeutic targeting of c-Myc in cancer and have revealed new protein targets for manipulating aspects of c-Myc activity. The remarkable regression of even advanced and genetically unstable tumours, seen following deactivation of c-Myc in various models is particularly exciting. This review will discuss what is known about the role of c-Myc in growth deregulation and cancer and will conclude with a discussion of the most promising recent developments in Myc-targeted therapeutics.
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PMID:c-Myc and downstream targets in the pathogenesis and treatment of cancer. 1822 Oct 43

microRNAs constitute one of the most important discovery in the past few years in the field of gene expression regulation. They can precisely regulate the expression of a specific protein by inhibiting its translation and/or promoting the degradation of its mRNA. In several cancers, the expression of some microRNAs is misregulated, pointing toward the existence of microRNAs with oncogenic or tumour suppressor properties. The miR-17-92 miRNA cluster has been reported to have a pro-oncogenic role in a mouse model system of Myc-induced B cell lymphoma. Some of its targets mRNAs code for proteins with pro-apoptotic or anti-proliferative functions, which shed some light on the mechanism of action of this cluster. On the other hand, a tumour suppressor miRNA like let-7 targets mRNAs coding for oncogenes and is frequently down-regulated in cancers. The finding that c-Myc controls the expression of several of these microRNAs reveals new information on how misregulation of this proto-oncogene can promote tumorigenesis.
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PMID:[Oncogenic and tumour suppressor microRNAs]. 1911 13

Expression of the c-Myc proto-oncoprotein is tightly regulated in normal cells. Phosphorylation at two conserved residues, threonine58 (T58) and serine62 (S62), regulates c-Myc protein stability. In cancer cells, c-Myc can become aberrantly stabilized associated with altered T58 and S62 phosphorylation. A complex signalling cascade involving GSK3beta kinase, the Pin1 prolyl isomerase, and the PP2A-B56alpha phosphatase controls phosphorylation at these sites. We report here a novel role for the tumour suppressor scaffold protein Axin1 in facilitating the formation of a degradation complex for c-Myc containing GSK3beta, Pin1, and PP2A-B56alpha. Although knockdown of Axin1 decreases the association of c-Myc with these proteins, reduces T58 and enhances S62 phosphorylation, and increases c-Myc stability, acute expression of Axin1 reduces c-Myc levels and suppresses c-Myc transcriptional activity. Moreover, the regulation of c-Myc by Axin1 is impaired in several tested cancer cell lines with known stabilization of c-Myc or loss of Axin1. This study provides critical insight into the regulation of c-Myc expression, how this can be disrupted in three cancer types, and adds to our knowledge of the tumour suppressor activity of Axin1.
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PMID:The Axin1 scaffold protein promotes formation of a degradation complex for c-Myc. 1926 62

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