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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
p53 tumor suppressor
orchestrates a number of important genes involved in cell-cycle control and apoptosis. Mice deficient for
p53
show a high incidence of cancer but are developmentally normal suggesting that compensatory mechanisms exist in embryogenesis and differentiation. The new KET protein is the first mammalian protein with strong homology to
p53
in all evolutionary conserved regions. This conservation makes a functional redundancy of the two proteins in cell-cycle control possible. KET is expressed during embryonic development and in certain adult tissues. Among all of the known
p53
proteins of different species KET is most closely related to that found in squid. The relationship between KET and the invertebrate
p53 protein
sheds light on the evolutionary origin of
p53
. KET appears to be an ancestral
p53-related protein
in vertebrates with a possible role in development and differentiation while the ubiquitously expressed
p53 protein
attained its general role as 'guardian of the genome' during evolution.
...
PMID:A novel protein with strong homology to the tumor suppressor p53. 931 5
Fibrosarcomatous (FS) change in a rare, but well-known phenomenon encountered in dermatofibrosarcoma protuberans (DFSP), and an increased chance in an adverse outcome has been suggested in patients with DFSP having FS areas (DFSP-FS). As altered
p53
pathway has been suggested as having a potential role in tumour progression, we analysed the
p53
gene and
p53 protein
together with the
p53-related protein
mdm2 and p21Waf1 in 5 cases of DFSP-FS and 13 of DFSP to ascertain whether the
p53
pathway correlates to the fibrosarcomatous transformation of DFSP. Three of the five DFSP-FSs overexpressed
p53 protein
immunohistochemically, and one of them had a "missense" mutation of the
p53
gene without immunohistochemical overexpression of mdm2 or p21Waf1. The other two DFSP-FSs with
p53
overexpression demonstrated increased labelling indices of both mdm2 and p21Waf1. The three DFSP-FS patients with overexpression of
p53 protein
had frequent local recurrences, ranging from 3 to 5 in number with increasingly short intervals (mean 4.5 years), while one of the other two had no recurrences and the other, only one. None of the 13 DFSPs showed any alterations in the
p53
gene or overexpressions of
p53
, mdm2 and p21Waf1, except for one DFSP having a "silent" mutation of the
p53
gene. Three DFSPs had local recurrences once or twice with longer intervals to recurrence (mean 10.3 years). Although the number of cases examined is limited, the results suggest that alterations in the
p53
pathway, such as overexpression of
p53 protein
by a mutated gene and mdm2 overexpression, are involved in fibrosarcomatous transformation in a subset of fibrohistiocytic tumours and possibly correlated with its more locally aggressive behaviour than that without
p53
alterations or ordinary DFSP.
...
PMID:Dermatofibrosarcoma protuberans with fibrosarcomatous areas. Molecular abnormalities of the p53 pathway in fibrosarcomatous transformation of dermatofibrosarcoma protuberans. 980 34
Undifferentiated nasopharyngeal carcinoma (NPC) is an epithelial malignancy that is consistently associated with Epstein-Barr virus (EBV) but which very rarely has
p53
gene mutations in primary tumours. Since the tumour suppressor
p53
is mutated in most human cancers or the wild type protein is inactivated in a significant number of the remainder, here we have investigated cellular factors that could compromise
p53
function in primary NPC. Twenty-five primary tumours were judged to carry only wild type
p53
by SSCP analysis of all exons and sequence determination of exons 4-9. Only one tumour was found to express significant levels of hMdm2 and in 24/25 there were no detectable mutations or deletions in exons 1beta and 2 of the p14(ARF) gene. However, immunohistochemistry consistently revealed that all the tumour cells express substantial amounts of the
p53-related protein
p63. Semi-quantitative RT-PCR analysis of mRNA from tumour biopsies showed that the dominant species expressed was invariably the truncated deltaN-isotype. Since this can block
p53
-mediated transactivation, it is potentially a dominant-negative isoform. In normal nasopharyngeal epithelium the distribution of p63 was restricted to the proliferating basal and suprabasal layers. We suggest that deltaN-p63 is a good candidate as a suppressor of wild type
p53
function in these tumours and also that it may prove to be a valuable diagnostic marker for undifferentiated NPC.
...
PMID:High level expression of deltaN-p63: a mechanism for the inactivation of p53 in undifferentiated nasopharyngeal carcinoma (NPC)? 1091 1
cis-diamminedichloroplatinum(II) or cisplatin is a DNA-damaging agent that is widely used in cancer chemotherapy. Cisplatin cross-links to DNA, forming intra- and interstrand adducts, which bend and unwind the duplex and attract high-mobility-group domain and other proteins. Presumably due to a shielding effect caused by these proteins, the cisplatin-modified DNA is poorly repaired. The resulting DNA damage triggers cell-cycle arrest and apoptosis. Although it is still debatable whether the clinical success of cisplatin relies primarily on its ability to trigger apoptosis, at least two distinct pathways have been proposed to contribute to cisplatin-induced apoptosis in vitro. One involves the tumour-suppressor
protein p53
, the other is mediated by the
p53-related protein
p73. Coupling cisplatin damage to apoptosis requires mismatch repair activity, and recent observations further suggest involvement of the homologous recombinatorial repair system. At present it is generally accepted that abortive attempts to repair the DNA lesions play a key role in the cytotoxicity of the drug, and loss of the mismatch repair activity is known to cause cisplatin resistance, a major problem in antineoplastic therapy. Clearly, a better understanding of the signalling networks involved in cisplatin toxicity should provide a rational basis for the development of new therapeutic strategies.
...
PMID:Molecular mechanisms involved in cisplatin cytotoxicity. 1102 15
MDM2, one of the transcriptional targets of
p53
, can target
p53
for degradation in a negative feedback loop. The
p53-related protein
p73, however, can bind to MDM2 but is not consequently down-regulated. Here we demonstrate that p73 could transactivate the MDM2 promoter in
p53
-null cell lines. In
p53
-null cell lines, the level of MDM2 was increased by p73 due to increases in transcription and protein stability of MDM2. In transient transfection assays, inhibition of the transcriptional activity of p73 required a higher amount of MDM2 than that of
p53
. This is probably due to the fact that MDM2 can target
p53
, but not p73, for degradation. We demonstrated further that the level of
p53
could be altered by a cooperation between MDM2 and p73, but not by transcriptional inactive mutants of p73. Expression of p73 resulted in a reduction of the ectopically expressed
p53
in transient transfections or of the endogenous
p53
induced by Adriamycin- or UV-mediated damage. These reductions of
p53
were likely to be due to an increase in MDM2-mediated proteolysis. These results suggest the possibility that different levels of p73 in the cell may act as a mechanism to modulate
p53
responses after DNA damage and other stresses and that an increase rather than a decrease in p73 may play a role in tumorigenesis.
...
PMID:A possible role of p73 on the modulation of p53 level through MDM2. 1124 71
p63, a
p53-related protein
, has been shown to activate
p53
-responsive genes and induce apoptosis in certain cell types. In this study, we examined the effects of Mdm2 and MdmX proteins on p63 transactivation, apoptosis, and protein levels. The isoforms of p63 most structurally similar to
p53
, p63gamma (p51A) and p63alpha (p51B), were chosen for study. Our results confirm earlier reports demonstrating that although both p63 isoforms can transactivate
p53
-responsive promoters and induce apoptosis, p63gamma has a stronger transactivation potential and is a more potent inducer of apoptosis than is p63alpha. In addition, both Mdm2 and MdmX were able to inhibit the transactivation induced by p63gamma and p63alpha. However, only Mdm2 overexpression led to a detectable decrease in p63-induced apoptosis. Although Mdm2 binding to
p53
triggers ubiquitin-mediated proteosome degradation, p63 protein levels were unaltered by association with either Mdm2 or MdmX. Finally, immunofluorescence experiments showed that both p63 isoforms were localized in the nucleus and could be exported when coexpressed with Mdm2 but not with MdmX. These findings suggest that both Mdm2 and MdmX can downregulate p63 transactivation potential; however, only Mdm2 is capable of inhibiting the apoptotic function of p63 by removing it from the nucleus.
...
PMID:Regulation of p63 function by Mdm2 and MdmX. 1144 3
P73, a
p53
-homologue gene, has been studied for its possible role in head and neck squamous epithelium (HNSE) differentiation and carcinogenesis. P73 RNA and protein were analysed in 50 biopsies, including well- and moderately-differentiated carcinomas, and 21 matched normal adjacent tissues. P73 immunohistochemical analyses revealed intense p73 nuclear staining in basal and parabasal cells of normal squamous epithelium, in contrast with complete absence of staining in the more superficial cell layers. Moderately-differentiated carcinomas demonstrated homogeneous and diffuse staining in all tumour cells, while only basal cells were stained in well-differentiated carcinomas as in normal tissue. No correlation was observed between p73 and
p53 protein
expression. Immunostaining for p63, another
p53-related protein
previously described as being involved in HNSE morphogenesis and overexpressed in head and neck squamous cell carcinomas (HNSCC), was found to be similar to p73 labelling in carcinomas, but spread to the more differentiated layers in normal epithelium. Biallelic expression of p73 was found in tumours as well as in matched normal tissues. Comparison of p73 transcript levels between tumours and normal tissues showed decreased mRNA expression in 5/17 (30%) tumours independently of the differentiation status. Mutation and loss of heterozygosity analyses of the p73 gene revealed wild type status and no deletion. Our results strongly suggest that: (i) p73 is associated with homeostasis and control of differentiation of head and neck squamous epithelium probably in concert with
p53
and p63; (ii) down-regulation of p73 expression could participate in HNSE carcinogenesis.
...
PMID:P73 expression in basal layers of head and neck squamous epithelium: a role in differentiation and carcinogenesis in concert with p53 and p63? 1153 43
The growth inhibitory functions of
p53
are controlled in unstressed cells by rapid degradation of the
p53 protein
. One of the principal regulators of
p53
stability is MDM2, a RING finger protein that functions as an E3 ligase to ubiquitinate
p53
. MDM2 promotes
p53
nuclear export, and in this study, we show that ubiquitination of the C terminus of
p53
by MDM2 contributes to the efficient export of
p53
from the nucleus to the cytoplasm. In contrast, MDM2 did not promote nuclear export of the
p53-related protein
, p73.
p53
nuclear export was enhanced by overexpression of the export receptor CRM1, although no significant relocalization of MDM2 was seen in response to CRM1. However, nuclear export driven by CRM1 overexpression did not result in the degradation of
p53
, and nuclear export was not essential for
p53
degradation. These results indicate that MDM2 mediated ubiquitination of
p53
contributes to both nuclear export and degradation of
p53
but that these activities are not absolutely dependent on each other.
...
PMID:C-terminal ubiquitination of p53 contributes to nuclear export. 1171 87
The
p53-related protein
p73 has many functions similar to that of
p53
including the ability to induce cell-cycle arrest and apoptosis. Both
p53
and p73 function as transcription factors, and p73 activates expression of many genes that also are regulated by
p53
. Despite their similarities, it is evident that
p53
and p73 are not interchangeable functionally, with p73 playing a role in normal growth and development that is not shared by
p53
. In this paper we describe the ability of p73beta but not
p53
to activate expression of the cyclin-dependent kinase inhibitor p57(KIP) and KvLQT1, two genes that are coregulated in an imprinted region of the genome. Our results suggest that p73 may regulate expression of genes through mechanisms that are not shared by
p53
, potentially explaining the different contributions of
p53
and p73 to normal development.
...
PMID:Induction of p57(KIP2) expression by p73beta. 1189 35
Terminal epithelial cell differentiation is a crucial step in development. In the kidney, failure of terminal differentiation causes dysplasia, cystogenesis, and cancer. The present study provides multiple lines of evidence implicating the
tumor suppressor protein p53
in terminal differentiation of the renal epithelium. In the developing kidney,
p53
is highly enriched in epithelial cells expressing renal function genes (RFGs), such as receptors for vasoactive hormones, the sodium pump, and epithelial sodium and water channels. In comparison, proliferating renal progenitors express little if any
p53
or RFGs.
p53
binds to and transactivates the promoters of RFGs. In contrast, expression of a dominant negative mutant form of
p53
inhibits endogenous RFG expression. Moreover, binding of endogenous
p53
to the promoters of RFGs coincides with the differentiation process and is attenuated once renal epithelial cells are fully differentiated. Finally,
p53
-null pups exhibit a previously unrecognized aberrant renal phenotype and spatial disorganization of RFGs. Interestingly, the
p53-related protein
p73 is unable to functionally compensate for the loss of
p53
and fails to efficiently activate RFG transcription. We conclude that
p53
promotes the biochemical and morphological differentiation of the renal epithelium. Aberrations in
p53
-mediated terminal differentiation may therefore play a role in the pathogenesis of nephron dysgenesis and dysfunction.
...
PMID:A role for p53 in terminal epithelial cell differentiation. 1195 39
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