Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

When p73 and p63 were initially described as homologues of the tumor suppressor p53, the three family members seemed almost exchangeable, raising the question why all three were retained during evolution. It later turned out that the corresponding genes, TP63 and TP73, appear phylogenetically older than TP53, and that their targeted deletion causes severe developmental defects, in contrast to a deletion of TP53. Hence, p63 and p73 are responsible for biological effects that cannot be elicited by p53 alone. Here, we provide an overview of properties ascribed to p63 and p73 that distinguish them from p53. Differences occur at the following levels: (i) protein structure, especially with regard to the aminoterminal transactivation domains and the carboxyterminal portions unique to p63 and p73; (ii) regulation, affecting mRNA levels, posttranslational modifications and interaction with other cellular proteins; (iii) activities, resulting in the regulation of gene expression, the programming of development, and the emergence of tumors. We speculate that, during the course of evolution, p63 and p73 have first pursued a broader range of activities, whereas p53 later specialized on genome maintenance.
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PMID:p73 and p63: why do we still need them? 1525 16

To clarify the role of the genetic mutations in the clinical course of acute myeloid leukemias (AML), we analyzed for p51, p53, FLT3 and N-ras gene mutations and the expression of the p51 gene in relapsed AML. Paired samples obtained from patients with AML at both stages of diagnosis and first relapse were analyzed. Twenty-four patients with relapsed AML survived for 6 to 81 months (median 24 months) from diagnosis. In one patient, no point mutation of the p51 gene was detected, but loss of the p51 gene expression was observed at both stages. Point mutations of the p53 gene were positive at both stages (+/+) in two patients and negative at diagnosis and positive at relapse (-/+) in two patients. Tandem duplication of the FLT3 gene was detected in five patients at both stages (+/+). N-ras gene mutations at both stages (+/+) were detected in three patients. Mutant p53 at relapse was associated with short survival in patients with relapsed AML (P<0.014). Our findings show that p53 mutations were, at least in part, associated with the mechanism of relapse in AML, while new p51, FLT3 and N-ras gene alterations did not occur at relapse. Loss of the p51 gene expression in de novo AML has not been reported yet.
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PMID:Abnormalities of p51, p53, FLT3 and N-ras genes and their prognostic value in relapsed acute myeloid leukemia. 1532 87

p51/p63, a member of the tumor suppressor p53 gene family, is crucial for skin development. We describe here identification of ITGA3 encoding integrin alpha(3) as a target of its trans-activating function, proposing that p51/p63 allows epidermal stem cells to express laminin receptor alpha(3)beta(1) for anchorage to the basement membrane. When activated by genotoxic stress or overexpressed ectopically in non-adherent cells, p51/p63 transduced a phenotype to attach to extracellular matrices, which was accompanied by expression of ITGA3. Motifs matching the p53-binding consensus sequence were located in a scattered form in intron 1 of human ITGA3, and served as p51/p63-responsive elements in reporter assays. In addition to the trans-activating ability of the TA isoform, we detected a positive effect of the DeltaN isoform on ITGA3. The high level alpha(3) production in human keratinocyte stem cells diminished upon elimination of p51/p63 by small interfering RNA or by Ca(2+)-induced differentiation. Furthermore, a chromatin immunoprecipitation experiment indicated a physical interaction of p51/p63 with intron 1 of ITGA3. This study provides a molecular basis for the standing hypothesis that p51/p63 is essential for epidermal-mesenchymal interactions.
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PMID:p51/p63 Controls subunit alpha3 of the major epidermis integrin anchoring the stem cells to the niche. 1536 20

The TP63 gene, a member of the TP53 gene family, encodes several isoforms with (TAp63) or without (DeltaNp63) transactivating properties. Whereas the role of p63 in the normal development of squamous epithelia is well established, its function in other cell types remains to be elucidated. Here, we have analysed the expression of TA and DeltaNp63 isoforms in liver cells, by using both primary hepatocytes from wild type and p53-null mice and three human hepatocellular carcinoma (HCC) cell lines, according to the transformation state and the TP53 status of the cells. We observed the expression of DeltaNp63 isoforms only in a p53-null context. On the other hand, the expression of TAp63 isoforms was restricted to the HCC cell lines, whatever the TP53 status. We then studied the expression of TP63 upon genotoxic treatment. When treated with UVB or H(2)O(2), hepatocytes did not exhibit any change in p63 mRNA level. At the opposite, upon treatment with topoisomerase II inhibitors (doxorubicin or etoposide), the expression of TAp63 isoforms was clearly induced, independently of the TP53 status of cells. The same treatment did not induce any variation in the expression of DeltaNp63 isoforms, both at mRNA and protein levels. In HCC cell lines, doxorubicin or etoposide treatment also resulted in an increase of TAp63 transcripts only. This increase was accompanied by an increase in the intracellular level of TAp63 alpha protein. In parallel, we observed an upregulation of some p53-target genes related to cell cycle regulation, such as WAF1/CIP1, PIG3, 14-3-3sigma or GADD45, independently of the TP53 status of cells. In conclusion, we report for the first time that TA and DeltaNp63 alpha proteins are present in liver cells. Furthermore, our results suggest that p63 may partially substitute for wild-type p53, in counteracting uncontrolled liver cell proliferation in response to certain forms of DNA-damage.
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PMID:The expression of TA and DeltaNp63 are regulated by different mechanisms in liver cells. 1554 31

TP63, an important epithelial developmental gene, has significant homology to p53. Unlike p53, the expression of p63 is regulated by two different promoters resulting in proteins with opposite functions: the full-length transcriptionally active TAp63 and the dominant-negative DeltaNp63. We investigated the downstream mechanisms by which TAp63alpha elicits apoptosis. TAp63alpha directly transactivates the CD95 gene via the p53 binding site in the first intron resulting in upregulation of a functional CD95 death receptor. Stimulation and blocking experiments of the CD95, TNF-R and TRAIL-R death receptor systems revealed that TAp63alpha can trigger expression of each of these death receptors. Furthermore, our findings demonstrate a link between TAp63alpha and the mitochondrial apoptosis pathway. TAp63alpha upregulates expression of proapoptotic Bcl-2 family members like Bax and BCL2L11 and the expression of RAD9, DAP3 and APAF1. Of clinical relevance is the fact that TAp63alpha is induced by many chemotherapeutic drugs and that inhibiting TAp63 function leads to chemoresistance. Thus, beyond its importance in development and differentiation, we describe an important role for TAp63alpha in the induction of apoptosis and chemosensitivity.
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PMID:TAp63alpha induces apoptosis by activating signaling via death receptors and mitochondria. 1594 36

p53 tumor suppressor is a sequence-specific DNA-binding protein that controls the expression of many genes in response to diverse stress stimuli. p53 gene is often mutated in human cancer and in cancer cell lines. Several methods are available for identification of p53 mutations, including functional analysis of separated alleles in yeast (FASAY). FASAY distinguishes yeast colonies expressing functional p53 protein from colonies producing a dysfunctional p53 protein simply on the basis of color. We analyzed the p53 status of 26 human cell lines of different tissue origin using the functional assay in yeast. Wild-type p53 was found in six cell lines and various p53 aberrations in the remaining twenty. FASAY detected temperature-sensitive p53 mutations in breast cancer cell line, BT474, and leiomyosarcoma cell line, SK-LMS-1, and two independent p53 point mutations in SK-UT-1 and SK-LMS-1 leiomyosarcoma cell lines. In addition, the assay revealed that a recombination occurred between the two mutated p53 alleles producing a stable ratio of p53 wild-type alleles (11.7 or 2.7% respectively). In the case of acute myeloid leukemia cell line, ML-1, we detected both wild-type and heterozygous p53 status, depending on the source of the cell line. In Hs913T, HL60 and Saos-2 cell lines, FASAY failed to assess p53 status due to a large deletion/rearrangement of the p53 gene. In acute lymphoid leukemia HPB cell line, we disclosed unknown non-sense mutation in codon 124 of the p53 gene.
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PMID:Analysis of p53 status in human cell lines using a functional assay in yeast: detection of new non-sense p53 mutation in codon 124. 1614 49

The cyclin-dependent kinase (CDK) inhibitor p57Kip2 is a negative regulator of cell proliferation, binding to a variety of cyclin-CDK complexes and inhibiting their kinase activities. The p57Kip2 gene was recognized as a target gene for p73beta, one member of the p53 family. In spite of this, the phenotypes of p73 and p57Kip2 knockout mice do not resemble each other while there is a phenotypic overlap between the p57Kip2 null mice, the p63 null mice and patients affected by p63 associated syndromes, suggesting that p57Kip2 could be indeed a downstream target of p63. By ChIP we determined that in the HaCaT cell line the DeltaNp63alpha protein is associated to three different regions of the p57Kip2 gene. DeltaNp63 can activate both the endogenous p57Kip2 gene and a reporter vector containing a -2191 promoter fragment of the p57Kip2 gene. Natural p63 mutants, associated to the AEC syndrome, show a partial or complete lack of transactivation potential of the p57Kip2 promoter, while three other natural p63 mutants, associated to the EEC, LMS and SHFM-4 syndromes, were less affected. These data suggests that p63 play an important role in the regulation of p57Kip2 expression and that this regulation is subverted in AEC p63 mutants.
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PMID:Regulation of the cyclin-dependent kinase inhibitor p57Kip2 expression by p63. 1625 68

p63, a member of the p53 family of transcription factors, is known to be involved in epithelial development. However, its role in tumorigenesis is unclear. Contributing to this uncertainty, the TP63 locus can express multiple gene products from two different promoters. Utilization of the upstream promoter results in expression of the TAp63 variant with an activation domain similar to p53. In contrast, the NH2-terminally deleted (DeltaN) p63 variant, transcribed from a cryptic promoter in intron 3, lacks such an activation domain. Thus, the TAp63 and DeltaNp63 variants possess a wide ranging ability to up-regulate p53 target genes. Consequentially, the disparity in transactivation potential between p63 variants has given rise to the hypothesis that the DeltaNp63 variant can serve as oncoprotein by opposing the activity of the TAp63 variant and p53. However, recent studies have revealed a transcriptional activity for DeltaNp63. This study was undertaken to address the transcriptional activity of the DeltaNp63 variant. Here, we showed that all NH2-terminally deleted p63 isoforms retain a potential in transactivation and growth suppression. Interestingly, DeltaNp63beta possesses a remarkable ability to suppress cell proliferation and transactivate target genes, which is consistently higher than that seen with DeltaNp63alpha. In contrast, DeltaNp63gamma has a weak or undetectable activity dependent upon the cell lines used. We also demonstrate that an intact DNA-binding domain is required for DeltaNp63 function. In addition, we found that the novel activation domain for the DeltaNp63 variant is composed of the 14 unique DeltaN residues along with the adjacent region, including a PXXP motif. Finally, we demonstrated that a PPXY motif shared by DeltaNp63alpha and DeltaNp63beta is required for optimal transactivation of target gene promoters, suggesting that the PPXY motif is requisite for DeltaNp63 function.
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PMID:The unique NH2-terminally deleted (DeltaN) residues, the PXXP motif, and the PPXY motif are required for the transcriptional activity of the DeltaN variant of p63. 1631 57

Genetic analysis indicates that TP63 is required for establishment and preservation of self-renewing progenitors within the basal layer of several epithelial structures, however, the specific contributions of transactivating (TA-p63) and dominant-negative (DeltaN-p63) isoforms remain largely undefined. Recent studies have suggested a model in which TA-p63 plays an important role in the establishment of progenitor populations in which expression of DeltaN-p63 contributes to the preservation of self-renewing capacity. Our previous studies indicate that DeltaN-p63 is a transcriptional target of p53, however, the absence of overt epithelial deficiencies in p53-/- mice and reports of increased expression of DeltaN-p63 in p53-/- mice suggest p53-independent mechanisms also contribute to expression of DeltaN-p63. Here, we present data indicating that, prolonged loss of p53 leads to the activation of a p53-independent mechanism for transcriptional regulation of DeltaN-p63. This p53-independent mechanism is sensitive to ectopic p53 but not to a p53 mutant that lacks the transactivation domain. We further show that in cells in which p53 is expressed TA-p63-gamma protein is destabilized in a manner that is p53 dependent and sensitive to pharmacologic inhibition of the 26S proteosome. Consistent with this observation, we demonstrate that loss of p53 leads to the stabilization of TA-p63-gamma that is reversible by ectopic p53. Finally, we present evidence that disruption of TA-p63-gamma expression leads to decreased expression of DeltaN-p63 and that overexpression of TA-p63-gamma was sufficient to enhance the activity of the DeltaN-p63 promoter. Taken together, our studies indicate that TA-p63-gamma is capable of activating expression of DeltaN-p63 and that this mechanism may account for p53-independent expression of DeltaN-p63.
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PMID:TA-p63-gamma regulates expression of DeltaN-p63 in a manner that is sensitive to p53. 1633 Dec 62

The TP63 gene is a member of the TP53 gene family. In contrast with TP53, this gene is not frequently inactivated by mutation in cancer. Initial experiments with disrupted TP63 have allowed specifying p63 protein a role in the regulation of differentiation and morphogenesis in epithelial and mesenchymal tissues. Nevertheless, there is growing evidence that p63 is also involved in oncogenesis through several mechanisms. Indeed, amplification of TP63 is detected in about 25% of squamous cell carcinomas of lung, head and neck and oesophagus. This results in overexpression of a truncated form of p63 (DeltaNp63) that may counteract growth suppression induced by full length p63 (TAp63), as well as by the other family members, p53 and TAp73. Moreover, mice heterozygous for TP63 develop spontaneous tumours. Whereas p53 plays a major role in response to numerous DNA-damaging agents, the involvement of p63 in this process is not well documented. Nevertheless, several groups recently reported that TAp63 can induce cell cycle arrest and apoptosis in DNA-damaged cells, alone or in synergy with chemotherapeutic agents, and thus appears as a chemosensitivity factor. Overall, in addition to non-redundant, specific functions in differentiation and morphogenesis, p63 appears to exert biological functions similar to those of p53 and to take a growing place in oncogenesis and modulation of responses to anti-cancer therapy.
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PMID:TP63 gene in stress response and carcinogenesis: a broader role than expected. 1718 69


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