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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Recent studies have identified two
p53
homologues,
p63
and p73. They activate
p53
-responsive promoters and induce apoptosis when overexpressed in certain human tumors. Here, we report that
p63
, like
p53
and p73, induces replicative senescence when expressed in a tetracycline-regulated manner in EJ cells lacking a functional
p53
. In addition to transcription activation of
p53
-responsive genes, we found that
p63
and p73 repress transcription of the cdk1 and cyclin B genes, both of which are irreversibly repressed in senescent human fibroblast. In transient transfection assay,
p63
and p73 repress the cdk1 promoter regardless of the presence of a dominant negative mutant form of
p53
. Furthermore, we found that DNA binding activity of NF-Y transcription factor, which is essential for transcription of the cdk1 and cyclin B genes and inactivated in senescent fibroblast, is significantly decreased by expression of either of
p53
,
p63
, or p73. Since NF-Y binds to many promoters besides the cdk1 and cyclin B promoters, inactivation of NF-Y by
p53
family genes may be a general mechanism for transcription repression in replicative senescence.
...
PMID:p53 and its homologues, p63 and p73, induce a replicative senescence through inactivation of NF-Y transcription factor. 1159 87
p63
, a recently identified member of the
p53
family, was shown to play a role in morphogenesis and, probably, in tumors of keratinocyte origin. Because
p63
seems to be a marker of keratinocytes with a high proliferative potential, the expression of this protein was studied along with another marker of cell proliferation, Ki67, during normal epidermal regeneration in humans. Serial biopsies of human skin healing by a secondary intention were taken at various time intervals (between days 2 and 21 after the injury) and were studied immunohistochemically with the use of a 4A4 monoclonal antibody against the DeltaNp63 variant and MM1 monoclonal antibody against the Ki67 antigen. In the normal and injured skin, the expression of the DeltaNp63 protein was restricted to the epidermal keratinocytes and hair follicle keratinocytes. In the first days of the healing process, there was a dramatic down-regulation of both DeltaNp63 and Ki67 expression in the area of the epidermal tongue invading under the crust. Five days after the injury, induction of DeltaNp63 in the basal keratinocytes could be detected, followed by a gradual increase of its expression in subsequent days. Several days after complete wound closure, DeltaNp63 was still strongly expressed not only in the basal keratinocytes but also in the entire spinous layer, whereas the Ki67 expression was restricted to single cells in the basal layer. The results indicate that DeltaNp63 could be involved in the control of physiologic processes, such as cell proliferation and migration, related to epidermal repair during healing of normal skin in humans.
...
PMID:p63 expression during normal cutaneous wound healing in humans. 1160 26
The
p53 tumor suppressor
is a transcription factor that regulates cell growth and death in response to environmental stimuli such as DNA damage.
p63
/p51 and p73 were recently identified as members of the
p53
gene family. In contrast to
p53
however,
p63
and p73 are rarely mutated in human cancers. Mice that lack
p53
are developmentally normal, while
p63
and p73 appear to play critical roles in normal development. To determine how
p63
and p73 are involved in normal development, we attempted to identify target genes that are specifically regulated by
p63
and/or p73 but not by
p53
. We found that the Jagged1 (JAG1) and Jagged2 (JAG2) genes, encoding ligands for the Notch receptors, are up-regulated by
p63
and p73. Furthermore, we identified a
p63
-binding site in the second intron of the JAG1 gene, which can directly interact with the
p63
protein in vivo, as assessed by a chromatin immunoprecipitation assay. A heterologous reporter assay revealed that this
p63
-binding site is a functional response element and is specific for
p63
. We also found a target of Notch signaling, HES-1 was up-regulated in Jurkat cells, in which Notch1 is highly expressed, when co-cultured with
p63
-transfected cells, suggesting that
p63
can trigger the Notch signal pathway in neighboring cells. Our findings show an association between the
p53
family genes and Notch signaling and suggest a potential molecular mechanism for the involvement of the
p53
family genes in normal development.
...
PMID:The p53 family member genes are involved in the Notch signal pathway. 1164 4
The
p53 tumor suppressor protein
is mutated in more than 50% of all human cancers, which makes the study of its functions and activities critical for the understanding and management of cancer. In response to cellular stresses,
p53
is activated and can mediate cell cycle arrest and/or apoptosis via the upregulation of numerous target genes. Here, we have identified EphA2 as a target gene of the
p53
family, that is,
p53
, p73, and
p63
. We also found that an increase of EphA2 transcript levels correlated with an increase of EphA2 protein expression, and induction of EphA2 in response to DNA damage corresponded with
p53
activation. Furthermore, we identified a
p53
response element located within the EphA2 promoter that is responsive to wild-type
p53
, p73, and
p63
, but not mutant p53. Interestingly, the ligand for EphA2, ephrin-A1, is also regulated by
p53
. EphA2 and ephrin-A1 are members of the Eph family of receptor tyrosine kinases and ligands, which are implicated in a number of developmental processes. To analyse the role of EphA2 in
p53
-mediated tumor suppression, we generated stable cell lines capable of expressing exogenous EphA2 in a tetracycline-repressible system. We found that EphA2 expression resulted in an increase in apoptosis. Thus, we hypothesize that the activated EphA2 may serve to impair anti-apoptotic signaling, perhaps by disrupting focal adhesions and thereby sensitize cells to pro-apoptotic stimuli.
...
PMID:Receptor tyrosine kinase EphA2 is regulated by p53-family proteins and induces apoptosis. 1164 74
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
Genetic alteration of the
p53 tumor suppressor
gene, which monitors DNA damage and operates cell cycle checkpoints, is a major factor in the development of human malignancies. The
p53 protein
belongs to a family that also includes two structurally related proteins,
p63
and p73. Although all three proteins share similar transcriptional functions and antiproliferative effects, each of them appears to play a distinct role in development and tumor suppression. One of the principal regulators of
p53
activity is the MDM2 protein. The interaction of MDM2 with
p53
inhibits
p53
transcriptional activity and targets
p53
for ubiquitin-dependent degradation. The ability of MDM2 to inhibit
p53
functions is antagonized by the ARF oncosuppressor protein. We show here that like
p53
, the p63alpha and p63gamma isoforms are able to associate with human MDM2 (HDM2). Overexpression of HDM2 increased the steady-state level of intracellular
p63
and enhanced its transcriptional activity. Both effects appeared to be counteracted by ARF coexpression. These data indicate that
p63
can be activated by HDM2 under conditions in which
p53
is inhibited. Therefore, HDM2 expression could support
p63
-specific transcriptional functions on a common set of genes, keeping interference by
p53
at a minimum.
...
PMID:The human MDM2 oncoprotein increases the transcriptional activity and the protein level of the p53 homolog p63. 1171 1
p63
is a
p53
-related DNA-binding protein that helps regulate differentiation and proliferation in epithelial progenitor cells. Its expression has never been evaluated in the human gastrointestinal tract. The aim of this study was to evaluate the expression of
p63
in the esophagus and related metaplastic and neoplastic disorders to gain insight into the pathogenesis of these processes. Of particular interest was the expression of
p63
in Barrett esophagus (BE) and in BE-associated multilayered epithelium. Multilayered epithelium has been postulated to represent an early precursor to the development of BE primarily because it shares morphologic and immunophenotypic features of both squamous and columnar epithelium, and has been shown prospectively to be highly associated with BE. Routinely processed mucosal biopsy or resection specimens that contained normal esophageal squamous epithelium (n = 20), squamous dysplasia (n = 4), squamous cell carcinoma (n = 7), BE (n = 10), BE-associated multilayered epithelium (n = 13), esophageal mucosal gland ducts (n = 10), BE-associated dysplasia (n = 12), and BE-associated adenocarcinoma (n = 7) were immunostained for
p63
to determine the extent and location of staining.
p63
staining was compared with the staining patterns observed for
p53
, Ki 67 (proliferation marker), and cytokeratins (CKs) 13 (squamous marker), 14 (basal squamous marker), 8/18 (columnar marker), and 19 (basal/columnar marker). Expression of
p63
messenger RNA (mRNA) isoforms was also analyzed by reverse-transcription polymerase chain reaction of freshly isolated tissues. In the normal esophagus,
p63
was expressed in the basal and suprabasal layers of the squamous epithelium and in basal cells that line the mucosal gland ducts but was negative in all other epithelia of the gastrointestinal tract, including the stomach, small intestine, and colon. Similarly,
p63
was not expressed in BE, but it, was present in the basal layer of multilayered epithelium in 9 of 13 cases (69%).
p63
-positive cells in multilayered epithelium and in the mucosal gland duct epithelium were positive for CK8/18 (100%) and CK13 (67% and 30%, respectively) and negative for CK14 (0%), in contrast to
p63
-positive cells in squamous epithelium, which were positive for CK14 and CK13 (100%) but negative for CK8/18. In neoplastic tissues,
p63
was diffusely expressed in all cases of esophageal squamous cell dysplasia and carcinoma but was negative in all cases of esophageal and colorectal adenocarcinoma. The DeltaN isoform of
p63
mRNA predominated in all benign and neoplastic squamous tissues examined.
p63
may represent a marker of 2 distinct epithelial progenitor cells (basal squamous epithelium and gland duct epithelium) in the esophagus. P63 is upregulated in squamous neoplastic conditions and in this manner may play a role in squamous carcinogenesis. These data also indicate that multilayered epithelium is phenotypically similar to, and may share a lineage relationship with, mucosal gland duct epithelium.
...
PMID:Expression of p53-related protein p63 in the gastrointestinal tract and in esophageal metaplastic and neoplastic disorders. 1172 53
The
p63
gene, a member of the
p53
gene family, is expressed into at least six protein isoforms which are divided into two groups, those containing the transcription activation domain (TA isoforms) and those that do not (Delta N isoforms). The TA isoforms are similar to
p53
in that they are able to activate transcription of specific target genes and induce cell cycle arrest and apoptosis. The Delta N isoforms are unable to activate transcription, and act in a dominant negative manner, inhibiting transcription activation by both
p53
and TA isoforms.
p63
knock-out studies in mice have shown that
p63
plays an important role in development rather than in tumour suppression. In humans, mutations in the
p63
gene have been linked with several developmental abnormalities. Studies on human tumours suggest an oncogenic function for Delta N isoforms rather than a tumour suppressor function for the TA forms.
...
PMID:p63. 1173 80
Carcinogenesis involves a multistep process whereby a normal healthy cell undergoes both immortalization and oncogenesis to become fully transformed. Immortalization results from the subversion of critical cell cycle regulatory checkpoints, thereby allowing a cell to extend its finite life span and to maintain telomeric length. Oncogenesis is the manifestation of additional genetic events that are capable of conferring upon the cell an actual growth advantage. Such an advantage may relieve a cell of its normal requirements for a particular growth factor or may enhance the ability of a cell to proliferate outside of its normal microenvironment. To further investigate this multistep process, we developed an immortalized mammary epithelial cell line by overexpressing the catalytic subunit of telomerase (human telomerase reverse transcriptase) in primary human mammary epithelial cell lines. We present evidence that the overexpression of human telomerase reverse transcriptase was sufficient to extend the life span of the cells and allow for additional events that lead to immortalization. The result was the establishment of an IMEC line. Biochemical analysis of these cells indicates a basal epithelial phenotype with expression of high molecular weight cytokeratins. We show that continued growth of the IMECs is rigorously dependent upon both insulin and epidermal growth factor, and that the mitogenic effects of these factors on the IMECs are mediated in part by AKT. In addition, IMECs express the
p53
family member DeltaN-
p63
-alpha, which is found in basal epithelial cells of many tissues and has been implicated as playing an essential role in normal epithelial development. Our studies suggest that the immortalization of basal epithelial cells of the mammary gland may be an early step in the initiation of a subset of breast cancers with a basal epithelial phenotype.
...
PMID:Growth factor requirements and basal phenotype of an immortalized mammary epithelial cell line. 1178 64
Cells within an organism are occasionally exposed to either intracellular or environmental stress. Such stress often has genotoxic potential that enhances the probability of cancer. Two gene families, the
p53
family (
p53
,
p63
and p73) and the Mdm2 family (Mdm2 and MdmX), serve as major integrators of the signals generated by genotoxic and oncogenic stress. Their co-ordinated modulation ensures an optimal response to stress and decreases the likelihood of cancer. Work over the past year has provided better understanding of the
p53
-Mdm2 module that lies in the heart of this regulatory network, and of the intricate interplay between the various members of the network.
...
PMID:The p53 and Mdm2 families in cancer. 1179 May 55
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