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)

Expression of the p14ARF tumour suppressor is induced by hyperproliferative signals produced by RAS, MYC and other oncogenes. p14ARF quenches inappropriate mitogenic signaling by activating the p53 pathway, and the frequent loss of p14ARF in human cancer diminishes the duration and level of the p53 response. Consistent with this role, p14ARF accumulation can induce potent cell cycle arrest, but its role in promoting apoptosis has not been well established. Therefore we investigated the effects of p14ARF on the survival and growth of several human cell types. To avoid the toxicity associated with adenoviral-based vectors, we established inducible expression of p14ARF in p53-intact and p53-deficient human cell lines. As expected, transient and inducible expression of p14ARF induced rapid cell cycle arrest only in tumour cells expressing intact p53. Further, p14ARF expression did not promote apoptosis in primary human fibroblasts, or in any human tumour cell line tested, irrespective of p53 status. Instead, p14ARF expression sensitized cells to apoptosis in the presence of inhibitors of topoisomerase II (adriamycin) and transcription (DRB). Thus, loss of p14ARF would be an important step in the selection of apoptotic resistant tumour cells.
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PMID:Enforced expression of p14ARF induces p53-dependent cell cycle arrest but not apoptosis. 1570 68

The p14ARF tumour suppressor regulates a series of cell cycle regulatory proteins to promote cell cycle arrest in response to abnormal hyperproliferative growth stimuli. p14ARF alterations are common in human cancers and, when inherited, confer susceptibility to cutaneous melanoma. We now propose that the mechanism of p14ARF action may involve the covalent modification of its binding partners with the small ubiquitin-related protein SUMO-1. In particular, we demonstrate that p14ARF interacts with the SUMO E2 conjugating enzyme, Ubc9 and enhances the sumoylation of its binding partners, hdm2, E2F-1, HIF-1alpha, TBP-1 and p120E4F. Furthermore, p14ARF-induced sumoylation is abrogated by a subset of melanoma-associated p14ARF mutations. These results provide a mechanism for p14ARF action through a common modification of diverse binding partners.
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PMID:p14ARF interacts with the SUMO-conjugating enzyme Ubc9 and promotes the sumoylation of its binding partners. 1587 74

Cells entering a state of senescence undergo a irreversible cell cycle arrest, associated by a set of functional and morphological changes. Senescence occurs following telomeres shortening (replicative senescence) or exposure to other acute or chronic physiologic stress signals (a phenomenon termed stasis: stress or aberrant signaling-induced senescence). In this review, I discuss the pathways of cellular senescence, the mechanisms involved and the role that these pathways have in regulating the initiation and progression of cancer. Telomere-initiated senescence or loss of telomere function trigger focal recruitement of protein sensors of the DNA double-strand breaks leading to the activation of the DNA damage checkpoint responses and the tumour suppressor gene product, p53, which in turn induces the cell-cycle inhibitor, p21(WAF1). Loss of p53 and pRb function allows continued cell division despite increasing telomere dysfunction and eventually entry into telomere crisis. Immortalisation is an essential prerequisite for the formation of a tumour cell. Therefore, a developing tumour cell must circumvent at least two proliferative barriers--cellular senescence and crisis--to achieve neoplastic transformation. These barriers are regulated by telomere shortening and by the p16(INK4a)/Rb and p53 tumour suppressor pathways. Elucidation of the genes and emerging knowledge about the regulatory mechanisms that lead to senescence and determine the pattern of gene expression in senescent cells may lead to more effective treatments for cancer.
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PMID:[Senescence: a telomeric limit to immortality or a cellular response to physiologic stresses?]. 1588 85

Seven tumour suppressor genes (Chk1, Chk2, Apaf1, Rb1, p53, p16(INK4a) and p14(ARF)) and two oncogenes (N-ras and BRAF) were screened in nine human malignant melanoma (HMM) cell lines for point mutations or small deletions/insertions by DGGE, TGGE and SCCP analysis. For the first time in human mesothelioma, Chk1 gene mutations were detected in two of the nine investigated HMM cell lines. P53 gene mutations were found in three cell lines and p16(INK4a) mutations in 5. Mutation of the Chk1 gene implies a novel disruption mechanism of the p53 pathway in HMM, without affecting p53 itself. According to our knowledge, this is the first mutation screening of Chk1, Chk2, Apaf1 and Rb1 in human malignant mesothelioma.
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PMID:Mutational analysis of 9 different tumour-associated genes in human malignant mesothelioma cell lines. 1607 86

The tumour suppressor ARF (alternative reading frame) is encoded by the INK4a (inhibitor of cyclin-dependent kinase 4)/ARF locus, which is frequently altered in human tumours. ARF binds MDM2 (murine double minute 2) and releases p53 from inhibition by MDM2, resulting in stabilization, accumulation and activation of p53. Recently, ARF has been found to associate with other proteins, but, to date, little is known about ARF-associated proteins that are implicated in post-translational regulation of ARF activity. Using a yeast two-hybrid screen, we have identified a novel protein, LZAP (LXXLL/leucine-zipper-containing ARF-binding protein), that interacts with endogenous ARF in mammalian cells. In the present study, we show that LZAP reversed the ability of ARF to inhibit HDM2's ubiquitin ligase activity towards p53, but simultaneously co-operated with ARF, maintaining p53 stability and increasing p53 transcriptional activity. Expression of LZAP, in addition to ARF, increased the percentage of cells in the G1 phase of the cell cycle. Expression of LZAP also caused activation of p53 and a p53-dependent G1 cell-cycle arrest in the absence of ARF. Taken together, our data suggest that LZAP can regulate ARF biochemical and biological activity. Additionally, LZAP has p53-dependent cell-cycle effects that are independent of ARF.
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PMID:A novel ARF-binding protein (LZAP) alters ARF regulation of HDM2. 1617 22

p14ARF is a tumour suppressor which plays a critical role in p53-dependent or -independent cell growth control. Several studies have recently provided evidence that p14ARF can also interfere either directly or indirectly with some components of the RB signalling pathway to mediate its antiproliferative activity. The aim of this study was to explore the existence of direct relationships between p14ARF and RB proteins. We show that p14ARF promotes the accumulation of a hypoacetylated RB protein, when it is upregulated in a model of stable-inducible clones or physiologically induced following cell exposure to cytotoxic agents. Looking for the mechanisms involved in this process, we demonstrate that the histone acetyl transferase Tip60 directly interacts with RB and stimulates its degradation by the proteasome through acetylation of its C-terminus. Furthermore, and consistent with p14ARF-induced RB accumulation, we provide evidence that p14ARF prevents Tip60-mediated RB acetylation, therefore precluding its proteasomal degradation. Overall, our results identify a novel mechanism by which p14ARF controls the RB pathway to trigger its antiproliferative function.
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PMID:p14ARF promotes RB accumulation through inhibition of its Tip60-dependent acetylation. 1650 7

The ARF tumour suppressor is a product of the INK4a/ARF locus; a sequence that is frequently altered in human cancer. ARF is upregulated by oncogenic stimuli and is a critical regulator of p53 stability through interactions with the mdm2 and ARF-BP1/Mule ubiquitin ligases. Cellular stress signals liberate ARF from the nucleolus where it is bound to B23/nucleophosmin. This nucleolar location of ARF may serve as a reservoir for the rapid induction of p53, but may also serve to co-ordinate effects on cell cycle, survival and growth. The biological functions of ARF interactions with other binding partners remain uncertain, but ARF-mediated sumoylation may represent a unifying effector pathway.
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PMID:The ARF tumour suppressor. 1660 Jun 63

The CDKN2A locus is frequently inactivated in urothelial cell carcinoma (UCC), yet how this alteration contributes to bladder tumorigenesis is not known. Although most UCC express telomerase, inactivation of the p16/Rb pathway is generally required for in vitro immortalisation. This and the involvement of p16 in senescence of normal human urothelial cells (NHUC) suggest that CDKN2A deletion may aid bypass of senescence and allow immortalisation. CDKN2A encodes p16 and p14ARF and therefore inactivation of this locus can disrupt both the Rb and p53 tumour suppressor pathways. Retrovirus-mediated transduction was used to specifically modulate the p16/Rb and/or p53 tumour suppressor pathways in NHUC and to express human telomerase reverse transcriptase (hTERT). Expression of hTERT bypassed Rb and p53 pathway-dependent barriers to proliferation and immortalised NHUC. TERT-NHUC had normal karyotypes, were non-tumorigenic and unexpectedly retained CDKN2A. Thus, the phenotypic significance of inactivation of CDKN2A in UCC may not be solely related to bypass of senescence. Phenotypic assays in human urothelial cells have relied on cell strains derived from invasive tumours or NHUC immortalised by expression of SV40-large T. The production of genetically normal but immortal NHUC lines now provides a valuable platform for experiments to examine the timing and combination of events necessary for UCC tumorigenesis.
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PMID:Expression of hTERT immortalises normal human urothelial cells without inactivation of the p16/Rb pathway. 1661 45

The INK4b-ARF-INK4a locus encodes two members of the INK4 family of cyclin-dependent kinase inhibitors, p15(INK4b) and p16(INK4a), and a completely unrelated protein, known as ARF. All three products participate in major tumour suppressor networks that are disabled in human cancer and influence key physiological processes such as replicative senescence, apoptosis and stem-cell self-renewal. Transcription from the locus is therefore kept under strict control. Mounting evidence suggests that although the individual genes can respond independently to positive and negative signals in different contexts, the entire locus might be coordinately suppressed by a cis-acting regulatory domain or by the action of Polycomb group repressor complexes.
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PMID:Regulation of the INK4b-ARF-INK4a tumour suppressor locus: all for one or one for all. 1692 3

The p16INK4a tumour suppressor accumulates in many tissues as a function of advancing age. p16INK4a is an effector of senescence and a potent inhibitor of the proliferative kinase Cdk4 (ref. 6), which is essential for pancreatic beta-cell proliferation in adult mammals. Here we show that p16INK4a constrains islet proliferation and regeneration in an age-dependent manner. Expression of the p16INK4a transcript is enriched in purified islets compared with the exocrine pancreas, and islet-specific expression of p16INK4a, but not other cyclin-dependent kinase inhibitors, increases markedly with ageing. To determine the physiological significance of p16INK4a accumulation on islet function, we assessed the impact of p16INK4a deficiency and overexpression with increasing age and in the regenerative response after exposure to a specific beta-cell toxin. Transgenic mice that overexpress p16INK4a to a degree seen with ageing demonstrated decreased islet proliferation. Similarly, islet proliferation was unaffected by p16INK4a deficiency in young mice, but was relatively increased in p16(INK4a)-deficient old mice. Survival after toxin-mediated ablation of beta-cells, which requires islet proliferation, declined with advancing age; however, mice lacking p16INK4a demonstrated enhanced islet proliferation and survival after beta-cell ablation. These genetic data support the view that an age-induced increase of p16INK4a expression limits the regenerative capacity of beta-cells with ageing.
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PMID:p16INK4a induces an age-dependent decline in islet regenerative potential. 1695 34

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