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)

Since its discovery in 1979, many studies have reported that the p53 tumour suppressor protein could be expressed in the form of products smaller than those predicted by the full-length amino-acid sequence. These products differ from full-length p53 in their N- or C-terminal regions, but generally conserve the central, DNA-binding domain. They appear to be expressed at rather low levels and to be restricted to particular cell types and/or physiological circumstances, suggesting that they play very narrow and specific roles. Several mechanisms have been proposed to explain their timely occurrence, including alternative splicing, internal initiation of translation or proteolytic cleavage. A precise assessment of the various 'p53 isoforms' reveals striking similarities with several isoforms of the p53 homologous proteins p63 or p73, suggesting that regulated production of specific, N- or C-terminal variants may be a 'trademark' of all family members. In this review, we summarize the published evidence on the structure, mode of production, expression and function of the p53 isoforms, and discuss their properties in the light of recent data on the structure and function of p63/p73 isoforms.
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PMID:p53 protein variants: structural and functional similarities with p63 and p73 isoforms. 1473 98

The completion of the Drosophila genome sequencing project [Science 287 (2000) 2185] has reconfirmed the fruit fly as a model organism to study human disease. Comparison studies have shown that two thirds of genes implicated in human cancers have counterparts in the fly [Curr. Opin. Genet. Dev. 11 (2001) 274; J. Cell Biol. 150 (2000) F23], including the tumour suppressor, p53. The suitability of the fruit fly to study the function of the tumour suppressor p53 is further exemplified by the lack of p53 family members within the fly genome, i.e., no homologues to p63 and p73 have been identified. Hence, there is no redundancy between family members greatly facilitating the analysis of p53 function. In addition, studying p53 in Drosophila provides an opportunity to learn about the evolution of tumour suppressors. Here, we will discuss what is known about Drosophila p53 in relation to human p53.
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PMID:Of flies and men; p53, a tumour suppressor. 1516 98

p63 and p73 share significant structural and functional homologies with the tumour suppressor p53. Unlike the p53 gene, both encode for several isoforms which vary in their NH2 and COOH termini with variable and, in part, opposed biological functions. The objective of the present study was to analyse the expression profiles of p53 family members in squamous cell carcinomas of the head and neck (HNSCC) and their alterations caused by exposure to the clinically active drug cisplatin. Using multiplex RT-PCR combined with the Southern technique, we determined transcription of p53 family members in 10 established HNSCC cell lines. In the majority of HNSCC, p53 and different p63/p73 isoforms were expressed with cell-line-specific patterns for composition and intensity of transcript expression. Exposure to cisplatin caused multiple alterations in the p63 and p73 profiles suggesting a complex regulation which may influence the sensitivity to chemotherapy.
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PMID:p53, p63 and p73 expression in squamous cell carcinomas of the head and neck and their response to cisplatin exposure. 1560 18

In the present study, we have investigated mechanisms of transcriptional co-operation between proteins that belong to the tumour suppressor p53 and Sp (specificity protein) families of transcription factors. Such mechanisms may play an important role in the regulation of genes containing binding sites for both classes of transcription factors in their promoters. Two of these genes were analysed in the present study: the cyclin-dependent kinase inhibitor p21Cip1 gene and the PUMA (p53-up-regulated mediator of apoptosis) gene. We found that Sp1 and Sp3, but not Sp2, co-operate functionally with p53, p73 and p63 for the synergistic transactivation of the p21Cip1 promoter in Drosophila Schneider SL2 cells that lack endogenous Sp factors. We also found that Sp1 strongly transactivated the PUMA promoter synergistically with p53, whereas deletion of the Sp1-binding sites abolished the transactivation by p53. Using p53 mutant forms in GST (glutathione S-transferase) pull-down assays, we found that the C-terminal 101 amino acids of p53, which include the oligomerization and regulatory domains of the protein, are required for the physical interactions with Sp1 and Sp3, and that deletion of this region abolished transactivation of the p21Cip1 promoter. Utilizing truncated forms of Sp1, we established that p53 interacted with the two transactivation domains A and B, as well as the DNA-binding domain. Our findings suggest that Sp factors are essential for the cellular responses to p53 activation by genotoxic stress. Understanding in detail how members of the p53 and Sp families of transcription factors interact and work together in the p53-mediated cellular responses may open new horizons in cancer chemotherapy.
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PMID:Physical and functional interactions between members of the tumour suppressor p53 and the Sp families of transcription factors: importance for the regulation of genes involved in cell-cycle arrest and apoptosis. 1579 Mar 10

Inactivation of p53 and p73 is known to promote thyroid cancer progression. We now describe p63 expression and function in human thyroid cancer. TAp63alpha is expressed in most thyroid cancer specimens and cell lines, but not in normal thyrocytes. However, in thyroid cancer cells TAp63alpha fails to induce the target genes (p21Cip1, Bax, MDM2) and, as a consequence, cell cycle arrest and apoptosis occur. Moreover, TAp63alpha antagonizes the effect of p53 on target genes, cell viability and foci formation, and p63 gene silencing by small interfering (si) RNA results in improved p53 activity. This unusual effect of TAp63alpha depends on the protein C-terminus, since TAp63beta and TAp63gamma isoforms, which have a different arrangement of their C-terminus, are still able to induce the target genes and to exert tumour-restraining effects in thyroid cancer cells. Our data outline the existence of a complex network among p53 family members, where TAp63alpha may promote thyroid tumour progression by inactivating the tumour suppressor activity of p53.
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PMID:The p53-homologue p63 may promote thyroid cancer progression. 1632 35

p63, p73 and p53 compose a family of transcription factors involved in cell response to stress and development. p53 is the most frequently mutated gene in cancer (50%) and loss of p53 activity is considered to be ubiquitous to all cancers. Recent publications may have a profound impact on our understanding of p53 tumour suppressor activity. p63, p73 and p53 genes have a dual gene structure conserved in drosophila, zebrafish and man. They encode for multiple p63, p73 or p53 proteins containing different protein domains (isoforms) due to multiple splicing, alternative promoter and alternative initiation of translation. In this review, we describe the different isoforms of p63, p73, p53 and their roles in development and cancer. The changes in the interactions between p53, p63 and p73 isoforms are likely to be fundamental to our understanding in the transition between normal cell cycling and the onset of tumour formation.
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PMID:p53/p63/p73 isoforms: an orchestra of isoforms to harmonise cell differentiation and response to stress. 1660 53

Meiosis in the female germ line of mammals is distinguished by a prolonged arrest in prophase of meiosis I between homologous chromosome recombination and ovulation. How DNA damage is detected in these arrested oocytes is poorly understood, but it is variably thought to involve p53, a central tumour suppressor in mammals. While the function of p53 in monitoring the genome of somatic cells is clear, a consensus for the importance of p53 for germ line integrity has yet to emerge. Here we show that the p53 homologue p63 (refs 5, 6), and specifically the TAp63 isoform, is constitutively expressed in female germ cells during meiotic arrest and is essential in a process of DNA damage-induced oocyte death not involving p53. We also show that DNA damage induces both the phosphorylation of p63 and its binding to p53 cognate DNA sites and that these events are linked to oocyte death. Our data support a model whereby p63 is the primordial member of the p53 family and acts in a conserved process of monitoring the integrity of the female germ line, whereas the functions of p53 are restricted to vertebrate somatic cells for tumour suppression. These findings have implications for understanding female germ line fidelity, the regulation of fertility and the evolution of tumour suppressor mechanisms.
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PMID:p63 protects the female germ line during meiotic arrest. 1712 75

The apoptosis stimulating proteins of p53 (ASPP) family consists of three members, ASPP1, ASPP2 and iASPP. They bind to proteins that are key players in controlling apoptosis (p53, Bcl-2 and RelA/p65) and cell growth (APCL, PP1). So far, the best-known function of the ASPP family members is their ability to regulate the apoptotic function of p53 and its family members, p63 and p73. Biochemical and genetic evidence has shown that ASPP1 and ASPP2 activate, whereas iASPP inhibits, the apoptotic but not the cell-cycle arrest function of p53. The p53 tumour suppressor gene, one of the most frequently mutated genes in human cancer, is capable of suppressing tumour growth through its ability to induce apoptosis or cell-cycle arrest. Thus, the ASPP family of proteins helps to determine how cells choose to die and may therefore be a novel target for cancer therapy.
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PMID:ASPP: a new family of oncogenes and tumour suppressor genes. 1721 78

The role of p53 as a tumour suppressor is generally attributed to its ability to stop the proliferation of precancerous cells by inducing cell-cycle arrest or apoptosis. The relatives and evolutionary predecessors of p53 - p63 and p73 - share the tumour-suppressor activity of p53 to some extent, but also have essential functions in embryonic development and differentiation control. Recent evidence indicates that these ancestral functions in differentiation control contribute to the tumour-suppressor activity that the p53 family is famous for.
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PMID:The p53 family in differentiation and tumorigenesis. 1733 60

Oral lichen planus (OLP) is a chronic inflammatory disease of unknown origin, showing little spontaneous regression. WHO classifies OLP as a premalignant condition, however, the underlying mechanisms initiating development of cancer in OLP lesions are not understood. The p53 tumour suppressor plays an important role in many tumours, and an increased expression of p53 protein has been seen in OLP lesions. Recently it was shown that the human TP53 gene encodes at least nine different isoforms. Another member of the p53 family, p63, comprises six different isoforms and plays a crucial role in the formation of oral mucosa, salivary glands, teeth and skin. It has also been suggested that p63 is involved in development of squamous cell carcinoma of the head and neck (SCCHN). In contrast to p53, a decreased expression of p63 protein has been seen in OLP lesions. In this study, we mapped the expression of five novel p53 isoforms at RNA and protein levels in OLP and matched normal controls. In the same samples we also measured levels of p63 isoforms using quantitative RT-PCR. Results showed p53 to be expressed in all OLP lesions and normal tissues. The p53 beta and delta 133p53 isoforms were expressed in the majority of samples whereas the remaining three novel isoforms analysed were expressed in only a few samples. Levels of p63 isoforms were lower in OLP lesions compared with normal tissue, however, changes were not statistically significant.
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PMID:Expression of novel p53 isoforms in oral lichen planus. 1741 19

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