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)

Inactivation of the p53 function is a common event in cancer. Approx. 50% of human tumours express mutant p53 and there is evidence that in others, including many childhood tumours, p53 function is impaired in other ways. These defects on p53 function may be due to the alteration of cellular factors that modulate p53 or to the expression of viral oncoproteins. Radiotherapy and many of the chemotherapeutic drugs currently used in cancer treatment are potent activators of p53. However, most of these therapies have a serious drawback; that is, the long-term consequences of their DNA-damaging effects. Understanding the mechanisms regulating p53 stability is crucial for the development of new strategies to activate p53 non-genotoxically. Here we describe the effect of a potent activator of the p53 response, the nuclear export inhibitor leptomycin B, on Mdm2 degradation and we provide evidence for the oligomerization of the p14ARF tumour suppressor and Mdm2 inhibitor in response to oxidative stress.
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PMID:Protecting p53 from degradation. 1265 67

Our previous study demonstrated a correlation between increased apoptotic index in pre-radiotherapy cervical cancer and poor patient survival. Apoptosis may thus play an important role in the response of cervical cancer to radiation. Most of cervical carcinomas are associated with human papillomavirus (HPV), and the oncoproteins E6 and E7 disrupt the functions of tumour suppressor genes, resulting in genetic alteration. To understand the multiple genetic changes related to cell radiosensitivity and the induction of apoptosis, two cervical cancer cell lines, SiHa (with HPV infection) and C-33A (contains a mutant p53 gene), were selected for present studied. The gene expression patterns in these cell lines were compared before and after radiation. When compared to normal cervical tissues, differential expressions were observed in 46 genes among the two cell lines studied. Thirty-three genes showed altered expressions after radiation induction. Three out of ten genes that showed differential responsiveness to radiation in the two cell lines were further confirmed by reverse transcriptase-polymerase chain reaction (RT-PCR). Bak and c-abl were found to be potential genes that may play important roles in signaling apoptosis in cervical cancer cells following radiation induction.
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PMID:Differential gene expression in cervical cancer cell lines before and after ionizing radiation. 1268 76

The tumour suppressor p53 is at the centre of a network of regulatory pathways that guard over the continued integrity of the living cell and its progeny after exposure to different forms of stress, particularly those capable of inducing DNA damage. Tumour cells very frequently circumvent this control by disabling the function of p53, or other proteins in the p53 network, through mutation. Here we review the different therapeutic strategies that have been adopted to exploit common neoplastic aberrations in the p53 pathways. We emphasise in particular those approaches where modulation with pharmaceutical agents has already shown some promise, including pharmacological rescue of mutant p53, modulation of the protein-protein interaction between p53 and one of its negative regulators, Mdm2, as well as interference with downstream targets.
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PMID:The p53-Mdm2 pathway: targets for the development of new anticancer therapeutics. 1269 49

Most tumour suppressor genes (TSGs) have been found through linkage studies in cancer predisposed families where the mutations have a high penetrance, for example, the breast cancer genes BRCA1 and BRCA2. Loss of heterozygosity (LOH) analyses of sporadic breast tumours indicate that there are many other putative TSGs yet to be identified. One such locus is proximal to BRCA1 on human chromosome 17q21. In an attempt to isolate this putative TSG, we have assessed a portion of the orthologous region on mouse chromosome 11 for its tumorigenic potential using segmental haploidy in combination with a p53 mutation. Two populations of animals were studied, with the deleted region being either on the same (cis) or on the homologous chromosome (trans) to a targeted mutant p53 allele. The deficiency elevated the tumour susceptibility of p53 heterozygous mice and modified the tumour spectrum, but only when the deficiency was in trans with the p53 mutation. Even though the genotype of these mice is identical, allelic phasing affects both the tumour spectrum and progression.
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PMID:Allelic phasing of a mouse chromosome 11 deficiency influences p53 tumorigenicity. 1276 99

Mutational inactivation of the p53 gene products is one of the most common genetic events that occur in human cancer confirming the central role of p53 as a tumour suppressor. The wild type p53 protein acts as a powerful transcription factor binding as many as 300 different promoter sequences in the genome. As a transcription factor, p53 can broadly alter patterns of specific gene expression leading to cell-cycle arrest and/or apoptosis. The transcriptional activity of the p53 protein is precisely regulated and its basal activity is enhanced in cells exposed to a wide variety of stress signals. This stress regulated transactivation function of p53 is driven by its sequence-specific DNA-binding domain and is co-ordinated by specific protein-protein interactions that can be modulated by covalent and non-covalent modifications. The mutant forms of p53 protein are defective in sequence specific DNA-binding because the missense mutation affects one or all of the assembly pathways. Analysis of p53 mutant has shown that different conformational classes of mutants exist and the reactivation of each class requires a different strategy depending on the mechanism of p53 protein misfolding. Potential reactivation of both wild type and mutant p53 protein in vivo raises our hopes of developing anti-cancer drugs useful in combination with sophisticated diagnostics for the treatment of cancer.
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PMID:[Relevance of p53 protein and its mutations for novel strategies in cancer therapy]. 1530 66

A folate enzyme, FDH (10-formyltetrahydrofolate dehydrogenase; EC 1.5.1.6), is not a typical tumour suppressor, but it has two basic characteristics of one, i.e. it is down-regulated in tumours and its expression is selectively cytotoxic to cancer cells. We have recently shown that ectopic expression of FDH in A549 lung cancer cells induces G1 arrest and apoptosis that was accompanied by elevation of p53 and its downstream target, p21. It was not known, however, whether FDH-induced apoptosis is p53-dependent or not. In the present study, we report that FDH-induced suppressor effects are strictly p53-dependent in A549 cells. Both knockdown of p53 using an RNAi (RNA interference) approach and disabling of p53 function by dominant-negative inhibition with R175H mutant p53 prevented FDH-induced cytotoxicity in these cells. Ablation of the FDH-suppressor effect is associated with an inability to activate apoptosis in the absence of functional p53. We have also shown that FDH elevation results in p53 phosphorylation at Ser-6 and Ser-20 in the p53 transactivation domain, and Ser-392 in the C-terminal domain, but only Ser-6 is strictly required to mediate FDH effects. Also, translocation of p53 to the nuclei and expression of the pro-apoptotic protein PUMA (Bcl2 binding component 3) was observed after induction of FDH expression. Elevation of FDH in p53 functional HCT116 cells induced strong growth inhibition, while growth of p53-deficient HCT116 cells was unaffected. This implies that activation of p53-dependent pathways is a general downstream mechanism in response to induction of FDH expression in p53 functional cancer cells.
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PMID:Cancer cells activate p53 in response to 10-formyltetrahydrofolate dehydrogenase expression. 1601 5

Aberrant hypermethylation of gene promoter regions is one of the mechanisms for inactivation of tumour suppressor genes in breast cancer. We investigated whether hypermethylation identifies breast cancers with distinctive clinical and pathological features. We evaluated the methylation of RARbeta2, CDH1, ER, BRCA1, CCND2, p16 and TWIST in 193 breast carcinomas. Methylation frequencies ranged from 11% for CCND2 to 84% for ER. Tumours with frequent methylation (4-6 genes) were more often poorly differentiated compared to those with infrequent methylation (0-2 genes; P=0.004). Tumours with ER and CDH1 methylation were associated with significantly lower hormone receptor levels, younger age at diagnosis and the presence of mutant p53. Our data suggests that gene methylation may be linked to various pathological features of breast cancer, however, this requires confirmation in larger studies.
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PMID:DNA hypermethylation in breast cancer and its association with clinicopathological features. 1602 26

Herpesvirus-associated ubiquitin-specific protease (HAUSP) directly stabilizes the tumour suppressor p53 by de-ubiquitination. Therefore, the HAUSP gene might play an important role in carcinogenesis. In this paper, HAUSP expression and p53 gene status have been studied in relation to the expression of p53 target genes in 131 patients with non-small cell lung cancer (NSCLC). p53 gene status was evaluated by polymerase chain reaction-single-strand conformation polymorphism (PCR-SSCP) followed by sequencing. Quantitative reverse-transcription polymerase chain reaction (RT-PCR) was performed to evaluate the gene expression of HAUSP, p21, and bax. Immunohistochemistry was performed to evaluate the protein expression of p53, HAUSP, mdm2, p21, and bax. Fifty-nine carcinomas (45.0%) showed reduced expression of HAUSP, and 58 carcinomas (44.3%) had mutations of p53. Concerning tumour histology, HAUSP mRNA expression was significantly lower in adenocarcinomas than in squamous cell carcinomas (p = 0.0038), while the frequency of p53 mutation was significantly higher in squamous cell carcinomas than in adenocarcinomas (p = 0.0461). There was no significant difference in HAUSP mRNA expression according to p53 gene status. In total, 93 carcinomas (71.0%) showed either mutant p53 or reduced HAUSP expression. The down-regulation of HAUSP was associated with reduced p53 protein expression (p = 0.0593 in tumours with wild-type p53 and p = 0.0004 in tumours with mutant p53). Furthermore, p21 and bax protein expression was significantly lower in tumours with either mutant p53 or reduced HAUSP expression than in tumours with both wild-type p53 and positive HAUSP expression (p = 0.0440 and p = 0.0046, respectively). In addition, the simultaneous evaluation of both HAUSP expression and p53 gene status was a significant indicator of poor prognosis in adenocarcinoma patients (hazard ratio 4.840, p = 0.0357). These results suggest that reduction of HAUSP gene expression may play an important role in NSCLC carcinogenesis, especially in adenocarcinomas, through p53-dependent pathways.
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PMID:The HAUSP gene plays an important role in non-small cell lung carcinogenesis through p53-dependent pathways. 1645 Mar 35

The liver is exposed to a wide variety of toxic agents, many of which damage DNA and result in increased levels of the tumour suppressor protein p53. We have previously shown that p53 inhibits the transactivation function of HNF (hepatocyte nuclear factor) 4alpha1, a nuclear receptor known to be critical for early development and liver differentiation. In the present study we demonstrate that p53 also down-regulates expression of the human HNF4alpha gene via the proximal P1 promoter. Overexpression of wild-type p53 down-regulated endogenous levels of both HNF4alpha protein and mRNA in Hep3B cells. This decrease was also observed when HepG2 cells were exposed to UV irradiation or doxorubicin, both of which increased endogenous p53 protein levels. Ectopically expressed p53, but not a mutant p53 defective in DNA binding (R249S), down-regulated HNF4alpha P1 promoter activity. Chromatin immunoprecipitation also showed that endogenous p53 bound the HNF4alpha P1 promoter in vivo after doxorubicin treatment. The mechanism by which p53 down-regulates the P1 promoter appears to be multifaceted. The down-regulation was partially recovered by inhibition of HDAC activity and appears to involve the positive regulator HNF6alpha. p53 bound HNF6alpha in vivo and in vitro and prevented HNF6alpha from binding DNA in vitro. p53 also repressed stimulation of the P1 promoter by HNF6alpha in vivo. However, since the R249S p53 mutant also bound HNF6alpha, binding HNF6alpha is apparently not sufficient for the repression. Implications of the p53-mediated repression of HNF4alpha expression in response to cellular stress are discussed.
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PMID:Tumour suppressor p53 down-regulates the expression of the human hepatocyte nuclear factor 4alpha (HNF4alpha) gene. 1689 24

The strongest and undisputed fact about p53 is the high frequency of p53 alterations in human cancer and that mutant p53 proteins constitute a complex family of several hundred proteins with heterogeneous properties. Beyond these observations, the p53 pathway and its regulation in a normal cell is like a desert trail, always moving with the wind of novel findings. The field is full of black boxes that are often ignored for sake of simplicity or because they do not fit with the current dominant view. Mutant p53 protein accumulation in tumours is the best example of a preconceived idea, as there is no experimental evidence to explain this observation. In this review, we will discuss several questions concerning the activity or selection of p53 mutations. The central domain of the p53 protein targeted by 80% of p53 mutations is associated with the DNA-binding activity of the p53 protein, but it is also the binding site for several proteins that play a key role in p53 regulation such as ASPP proteins or BclxL. The role of impaired DNA binding and/or protein interactions in tumour development has not been fully elucidated. Similarly, novel animal models carrying either missense p53 mutations or inducible p53 have provided abundant observations, some of which could challenge our view on p53 function as a tumour suppressor gene. Finally, the possible clinical applications of p53 will be discussed.
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PMID:p53 alterations in human cancer: more questions than answers. 1740 23

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