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Query: UNIPROT:Q02556 (
DNA-binding domain
)
6,431
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
p51
, a novel family member of human p53, is a recently identified candidate tumor suppressor gene mapped at chromosome 3q28. Like p53,
p51
was found to activate p21Waf1/Cip1 and to induce apoptosis. Since the DNA loss at 3q is reported in several cancers including non-small cell lung cancer (NSCLC), we screened for mutations in p51A (TAp63gamma), an isoform of
p51
with short C-terminal region, in 80 NSCLCs as well as 85 breast cancers by RT-PCR single strand conformation polymorphism (SSCP) analysis and DNA sequencing. In NSCLCs,
p51
was expressed in most tumors at variable levels and we found three missense and one silent mutations: Gln31His (transactivation domain) in two tumors, Ala148Pro (
DNA-binding domain
) and Leu248Leu (
DNA-binding domain
). In the tumor with Ala148Pro or the silent mutation, only the mutant gene appeared to be expressed. The modified FASAY method to test the ability of yeast expressing p51A cDNA to grow in medium lacking histidine has revealed that Ala148Pro results in a loss of function, while Gln31His does not. In contrast to NSCLC, no mutation was observed in all 85 breast cancers by the similar method. Our results suggest that, because of infrequent mutation,
p51
may not be a Knudson type tumor suppressor in most NSCLCs and breast cancers. Nevertheless, in at least a part of NSCLC,
p51
may play a certain role in carcinogenesis in a tissue-specific manner.
...
PMID:Mutational analysis of p51A/TAp63gamma, a p53 homolog, in non-small cell lung cancer and breast cancer. 1039 84
Hay-Wells syndrome, also known as ankyloblepharon-ectodermal dysplasia-clefting (AEC) syndrome (OMIM 106260), is a rare autosomal dominant disorder characterized by congenital ectodermal dysplasia, including alopecia, scalp infections, dystrophic nails, hypodontia, ankyloblepharon and cleft lip and/or cleft palate. This constellation of clinical signs is unique, but some overlap can be recognized with other ectodermal dysplasia syndromes, for example ectrodactyly--ectodermal dysplasia--cleft lip/palate (EEC; OMIM 604292), limb--mammary syndrome (
LMS
; OMIM 603543), acro-dermato-ungual-lacrimal-tooth syndrome (ADULT; OMIM 103285) and recessive cleft lip/palate--ectodermal dysplasia (CLPED1; OMIM 225060). We have recently demonstrated that heterozygous mutations in the p63 gene are the major cause of EEC syndrome. Linkage studies suggest that the related
LMS
and ADULT syndromes are also caused by mutations in the p63 gene. Thus, it appears that p63 gene mutations have highly pleiotropic effects. We have analysed p63 in AEC syndrome patients and identified missense mutations in eight families. All mutations give rise to amino acid substitutions in the sterile alpha motif (SAM) domain, and are predicted to affect protein--protein interactions. In contrast, the vast majority of the mutations found in EEC syndrome are amino acid substitutions in the
DNA-binding domain
. Thus, a clear genotype--phenotype correlation can be recognized for EEC and AEC syndromes.
...
PMID:Hay-Wells syndrome is caused by heterozygous missense mutations in the SAM domain of p63. 1115 40
The
p51
/p63 gene, a novel member of the p53 gene family, has recently been identified at 3q27-9. There are at least six major isotypes of
p51
/p63 mRNA transcripts. p51A/TAp63gamma has the potential to induce apoptosis and growth suppression in a manner similar to p53, and other isotypes may suppress the p53 and p51A1TAp63gamma genes in a dominant-negative manner. We analyzed the mutation and expression of the
p51
/p63 gene in 80 cases of chronic myelogenous leukemia (CML) to evaluate its role in blastic transformation. Expression of the
p51
/p63 gene was detected in 74 cases. The alpha isotype of
p51
/p63 transcripts was dominantly expressed in 72 of these 74 cases. There was no correlation between the isotypes of
p51
/p63 transcripts and the clinical phase. Mutations of the
p51
/p63 gene were found in six cases. All these mutated cases expressed p51B/TAp63 alpha. In four of the six cases, the mutations were within a limited region (codon 151-170) corresponding to the
DNA-binding domain
. We hypothesized that this limited region is a hot spot for mutation of the
p51
/p63 gene. Mutations of the p53 gene were found in four cases of CML in blastic crisis (BC). Frequencies of the
p51
/p63 and p53 gene mutations were higher in BC (
p51
/p63 gene, 11.8%; p53 gene, 7.8%) than in the chronic phase (
p51
/p63 gene, 1.5%; p53 gene, 0%). The
p51
/p63 gene mutation may act similarly to the p53 gene mutation as a genetic alteration potentially responsible for the progression of CML.
...
PMID:Mutation of the p51/p63 gene is associated with blastic crisis in chronic myelogenous leukemia. 1168 14
The p53 tumor suppressor gene integrates numerous signals to control cell life and death. p53 and its function-related genes consists of a complicated gene network. When a highly connected node in the network breaks down, the disruption of p53 has severe consequences. p53 gene locates in human chromosome 17q13.1. Its encoding wild-type p53 protein is composed of four parts: N-terminal activation domain,
DNA-binding domain
, oligomerization domain, and C-terminal regulation domain. As the gene structures of p73,
p51
, p63 are similar with p53, they are regarded as members of p53 gene family. p53 play an intermediate role connecting varied stress signals with the reactions of cells. DNA damage caused by ionizing radiation, aberrant growth signals, or chemotherapeutic drugs may activate the p53 network. When expression of p53 elevated, p53-mdm2 and p14(ARF)-mdm2 feedback loops can accurately regulate the expression level of p53, and the cooperation of p33ING1b gene is also needed in the process of p53 exerting normal function. Phosphorylation and acelylation are two important mechanisms to modulate p53 activity in vivo. Several dozen downstream genes are controlled directly by p53, and the activity of p53 falls into four categories: cell cycle inhibition, apoptosis, genetic stability, and inhibition of blood vessel formation. Elucidation of the function of p53 gene network will help to clarify the interaction mechanisms of p53 gene and its function-related genes.
...
PMID:[Research advances on p53 gene network]. 1275 23
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.
...
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
S100A2 is generally found expressed in the epidermis and was recently shown to play a crucial role in the differentiation of keratinocytes. Also known as CaN19, S100A2 was identified as a potential tumor suppressor. Expression of S100A2 is upregulated by p53. The proteins p63 and p73 are related to p53 and are expressed as several splice variants with partially overlapping tasks but also functions different from p53. It had been shown that p63 proteins with mutations in their
DNA-binding domain
cause severe phenotypes in man as autosomal dominantly inherited disease including EEC, AEC, SHFM,
LMS
and ADULT syndromes. Here we show that S100A2 is a transcriptional target of p63/p73 family members, particularly the p63 splice variant TAp63gamma. The regulation is mediated by a novel transcriptional element in the S100A2 promoter which is bound by TAp63gamma but not by p53. Mutant p63 proteins derived from EEC and ADULT syndrome patients cannot activate S100A2 transcription whereas SHFM-related mutants still can stimulate the S100A2 promoter. Consistent with a function in tumor suppression S100A2 expression is stimulated upon DNA damage. After doxorubicin treatment p63gamma proteins are recruited to the S100A2 promoter in vivo. This may indicate a function of the p63-dependent S100A2 regulation in tumor suppression.
...
PMID:Transcriptional activation of the tumor suppressor and differentiation gene S100A2 by a novel p63-binding site. 1838 31
The transcription factor Ets-1 is implicated in various physiological processes and invasive pathologies. We identified a novel variant of ets-1, ets-1Delta(III-VI), resulting from the alternative splicing of exons III to VI. This variant encodes a 27 kDa isoform, named Ets-1 p27. Ets-1 p27 lacks the threonine-38 residue, the Pointed domain and the transactivation domain, all of which are required for the transactivation of Ets-1 target genes. Both inhibitory domains surrounding the
DNA-binding domain
are conserved, suggesting that Ets-1 p27, like the full-length Ets-1
p51
isoform, is autoinhibited for DNA binding. We showed that Ets-1 p27 binds DNA in the same way as Ets-1
p51
does and that it acts both at a transcriptional and a subcellular localization level, thereby constituting a dual-acting dominant negative of Ets-1
p51
. Ets-1 p27 blocks Ets-1
p51
-mediated transactivation of target genes and induces the translocation of Ets-1
p51
from the nucleus to the cytoplasm. Furthermore, Ets-1 p27 overexpression represses the tumor properties of MDA-MB-231 mammary carcinoma cells in correlation with the known implication of Ets-1 in various cellular mechanisms. Thus the dual-acting dominant-negative function of Ets-1 p27 gives to the Ets-1 p27/Ets-1
p51
ratio a determining effect on cell fate.
...
PMID:Ets-1 p27: a novel Ets-1 isoform with dominant-negative effects on the transcriptional properties and the subcellular localization of Ets-1 p51. 1937 9
The Stromelysin-1 gene promoter contains a palindrome of two Ets-binding sites (EBS) that bind the
p51
and p42 isoforms of the human Ets-1-transcription factor. A previous study established that full gene transactivation is associated with a ternary complex consisting of two
p51
bound to the two EBS on the promoter. p42, only able to bind one of the two EBS, induces only very weak activity. Here, we investigate the mechanism by which the Stromelysin-1 promoter discriminates between
p51
and p42. The differential stoichiometry of the two Ets-1 isoforms arises from the Stromelysin-1 EBS palindrome. The ternary complex requires the presence of two inhibitory domains flanking the
DNA-binding domain
and the ability to form an intramolecular autoinhibition module. Most importantly, the
p51
-ternary and the p42-binary complexes induce DNA curvatures with opposite orientations. These results establish that differential DNA bending, via
p51
and p42 differential binding, is correlated with the Stromelysin-1 promoter activation process.
...
PMID:Ets-1 p51 and p42 isoforms differentially modulate Stromelysin-1 promoter according to induced DNA bend orientation. 1946 91
Summary EEC (ectrodactyly, ectodermal dysplasia, clefting; OMIM 604292) syndrome is an autosomal dominant developmental disorder. Characteristic clinical features comprise abnormalities in several ectodermal structures including skin, hair, teeth, nails and sweat glands as well as orofacial clefting and limb defects. Pathogenic mutations in the
TP63
transcription factor have been identified as the molecular basis of EEC syndrome and to date 34 mutations have been reported. The majority of mutations involve heterozygous missense mutations in the
DNA-binding domain
of
TP63
, a region critical for direct interactions with DNA target sequences. In this report, we present an overview of EEC syndrome, discuss the role of
TP63
in embryonic development and skin homeostasis, and report five new
TP63
gene mutations. We highlight the significant intra- and interfamilial phenotypic variability in affected individuals and outline the emerging paradigm for genotype-phenotype correlation in this inherited ectodermal dysplasia syndrome.
...
PMID:Molecular basis of EEC (ectrodactyly, ectodermal dysplasia, clefting) syndrome: five new mutations in the DNA-binding domain of the TP63 gene and genotype-phenotype correlation. 1990 81
Ets-1 is a transcription factor that plays an important role in various physiological and pathological processes, such as development, angiogenesis, apoptosis and tumour invasion. In the present study, we have demonstrated that Ets-1
p51
, but not the spliced variant Ets-1 p42, is processed in a caspase-dependent manner in Jurkat T-leukaemia cells undergoing apoptosis, resulting in three C-terminal fragments Cp20, Cp17 and Cp14 and a N-terminal fragment, Np36. In vitro cleavage of Ets-1
p51
by caspase 3 produces fragments consistent with those observed in cells undergoing apoptosis. These fragments are generated by cleavage at three sites located in the exon VII-encoded region of Ets-1
p51
. This region is absent from the Ets-1 p42 isoform, which therefore cannot be cleaved by caspases. In Ets-1
p51
, cleavage generates C-terminal fragments containing the
DNA-binding domain
, but lacking the transactivation domain. The Cp17 fragment, the major cleavage product generated during apoptosis, is devoid of transcriptional activity and inhibits Ets-1
p51
-mediated transactivation of target genes by competing with Ets-1
p51
for binding to Ets-binding sites present in the target promoters. In the present study, we have demonstrated that caspase cleavage of Ets-1 within the exon VII-encoded region leads to specific down-regulation of the Ets-1
p51
isoform during apoptosis. Furthermore, our results establish that caspase cleavage generates a stable C-terminal fragment that acts as a natural dominant-negative form of the full-length Ets-1
p51
protein.
...
PMID:Caspase cleavage of Ets-1 p51 generates fragments with transcriptional dominant-negative function. 2000 63
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