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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
p51
gene encodes a protein with significant homology to
p53
, thus, it is a candidate tumor suppressor gene. To investigate the involvement of the
p51
gene in human ovarian carcinogenesis,
p51
gene alterations were examined in primary ovarian cancers and ovarian cancer cell lines. Mutation analysis of the
p51
gene was performed in 40 primary ovarian cancers and 6 ovarian cancer cell lines using the PCR-SSCP and direct sequencing methods. Expression of
p51
mRNA was examined in 9 primary ovarian cancers and 5 ovarian cancer cell lines by Northern blot and RT-PCR analyses. No mutations of the
p51
gene causing amino acid substitutions or frameshifts were detected in either primary tumors or cancer cell lines by PCR-SSCP analysis of the entire coding region, although several genetic polymorphisms were detected in three samples. Allelic imbalance was detected in 3 of 19 (16%) primary ovarian cancers. No
p51
gene expression was detected in 9 primary ovarian cancers and the corresponding normal ovarian tissues by Northern blot and by RT-PCR analyses. One of 5 ovarian cancer cell lines showed
p51
gene expression by Northern blot analysis (20%). These results indicated that
p51
gene expression was silent in normal ovarian tissues and primary ovarian cancers, and that mutation of the
p51
gene does not play a major role in the development of ovarian cancer.
...
PMID:Absence of p51 alteration in human ovarian cancer. 1117 85
The
p53 tumor suppressor
is a transcription factor that upon activation by DNA-damaging agents induces growth arrest or apoptosis mainly through transactivation and transrepression of its downstream target genes. Two additional
p53
family members, p73 and
p51
/p63, were recently identified and characterized. Although the three family members share some similarities in transcription activation and apoptosis induction, each of them appears to play a distinct role in development and tumor suppression. We have previously identified a nuclear protein, p53CP (
p53
competing protein), that is not
p53
but binds to the
p53
consensus sequence. Here we report the partial purification of p53CP from HeLa cells by ammonium sulfate precipitation, followed by a series of chromatography steps through heparin-agarose, Mono S ion exchange and DNA affinity columns, coupled with a gel shift assay. Although p53CP activity is readily detectable in HeLa cells by gel shift assay, only a trace amount of p53CP protein was partially purified, which was not sufficient for direct protein sequencing. Using a monoclonal antibody (4A4) specific for all
p51
/p63 isoforms or a polyclonal antibody (N-18) recognizing the N-terminus-containing
p51
/p63 isoforms we detected a significant enrichment of
p51
/p63 protein in p53CP-containing fractions following each step of purification. Significantly,
p51
/p63 was detected only in the DNA affinity column fractions that contain p53CP activity. Thus, p53CP appears to be
p51
/p63, the third member of the
p53
gene family.
...
PMID:p53CP is p51/p63, the third member of the p53 gene family: partial purification and characterization. 1118 51
p51
in the
p53 tumor suppressor
family, also referred to as p63, encodes multiple isoforms including p51A (TAp63gamma) and p51B (TAp63alpha). The
p53 protein
forms a tetramer, and its stability and activity are regulated by molecular association with viral and cellular proteins and by biochemical modifications. Using a yeast two-hybrid system, the p51A and p51B isoforms were examined for homotypic and heterotypic interactions in the
p53
family proteins and for their affinity to the
p53
-regulatory factors. Results indicate a homotypic interaction dependent on the presumed oligomerization domain of the
p51
proteins. The possibility of a weak heterotypic interaction between
p51
and p73 proteins was suggested, while association between
p51
and
p53
appeared improbable. Furthermore, unlike
p53
, the
p51
proteins failed to display an affinity to SV40 large T antigen or MDM2-family proteins. Having several features in common with
p53
, the
p51
proteins may function in biological processes apart from
p53
.
...
PMID:Analysis of molecular interactions of the p53-family p51(p63) gene products in a yeast two-hybrid system: homotypic and heterotypic interactions and association with p53-regulatory factors. 1124 57
We have recently identified a second
p53
-related
p73L
gene, also referred to as p63 /
p51
/ p40 /
KET
gene, which encodes the 2 major isoforms
p73L
and
p51
resulting from different exon usage at their amino terminal regions. Although
p73L
and
p51
are suspected to play oncogenic and tumour suppressive roles in mammalian cells, respectively, no evidence of linkage between the expression of these isoforms and human cancers has been reported so far. In this study, we first investigated the expression profile of
p51
and
p73L
in various human tumour cell lines and found that a novel isoform, termed DeltaNp73L, was predominantly expressed in squamous cell carcinomas. The expression profile of DeltaNp73L/
p73L
/
p51
in primary human skin cancer specimens showed that the expression of
p51
was frequently lost (62%) but was detected in all normal skin samples. In
p51
-expressing skin cancers, DeltaNp73L expression was associated at a high frequency (75%) though it was not detected in normal skin tissues. Transient co-transfection data indicate the possibility that DeltaNp73L can inhibit
p53
-, and more preferentially,
p51
-mediated transactivation. These data suggest that the loss of expression of
p51
and/or the expression of DeltaNp73L might contribute to the pathogenesis of human squamous cell carcinomas.
...
PMID:Transcriptional dysregulation of the p73L / p63 / p51 / p40 / KET gene in human squamous cell carcinomas: expression of Delta Np73L, a novel dominant-negative isoform, and loss of expression of the potential tumour suppressor p51. 1133 76
We analysed the effects of caffeine and taxol on the radiobiological behaviour of two human sarcoma cell lines (RD, SK-
LMS
-1) each with a
p53
missense mutation. Treatment with 2 mM caffeine resulted in an inhibition of the irradiation induced G2/M arrest in both cell lines. This effect was coupled with a radiosensitization in cell line SK-
LMS
-1 after an irradiation with 6 Gy (enhancement factor of 5.0). However, the effect of radiosensitization was not correlated with an induction of apoptosis. Incubation with 20 nM taxol increased the irradiation induced apoptosis almost 3-fold in cell line SK-
LMS
-1, but not in cell line RD. However, taxol had no effect on the irradiation induced G2/M arrest or radiosensitivity in either cell line. The results support the hypothesis that the prevention of irradiation induced G2/M arrest but not the induction of apoptosis plays a critical role in determining radiosensitivity in sarcoma cell lines with
p53
mutations.
...
PMID:Radiosensitization in sarcoma cell lines with a p53 missense mutation correlates with prevention of irradiation G2/M arrest but not with induction of apoptosis. 1149 6
The
p51
/
p73L
/p63/p40 gene, recently identified as a p53 homolog, encodes two major isoforms, p51A and
p73L
, which are suggested to have similar functions synonymous with
p53
and dominant-negative activity toward both
p53
and p51A, respectively. We have cloned a high affinity genomic fragment bound to p51A that was assigned to be a novel retrovirus long terminal repeat. Strikingly, this fragment was found to bind to both
p53
and
p73L
with similar affinity to p51A. Additional demonstration with known
p53
response elements suggested that DNA-binding profiles of p51A and
p73L
were very similar but were distinct from that of
p53
. Consistent with this novel finding, transient cotransfection experiments in mammalian cells suggested that
p73L
, when it was expressed at a low level, selectively suppressed
p53
-dependent transactivation of p21-luc and mdm2-luc but not of cyclinG-luc and bax-luc reporters. These data raise the possibility that
p73L
differentially modulates the
p53
function according to the distinct DNA-binding affinity between these two proteins.
...
PMID:Identification of a novel retrovirus long terminal repeat (LTR) that is targeted by p51A (TAp63gamma) and selective dominant-negative activity of p73L (DeltaNp63alpha) toward p53-responsive promoter activities. 1151 Nov 6
The human homolog of
KET
, p63, bears strong homology to the
tumor suppressor p53
and plays an essential role in epithelial development. CUSP, the most abundant cutaneous product of p63, has been identified as an autoantigen in chronic ulcerative stomatitis (CUS). The original report of
KET
expression at least partially contradicts p63 expression subsequently reported by many different groups. We have examined p63 expression by Northern analysis of RNA from multiple human tissues and by indirect immunofluorescence of rat tissue with CUS patient sera. Northern analysis reveals p63 RNA in skin, thymus, placenta, skeletal muscle, kidney, and lung, with non-transactivating p63 RNA in skin, thymus, and placenta. Reverse transcriptase polymerase chain reaction (rtPCR) assays show abundant non-transactivating p63 RNA, and little to no transactivating p63 RNA, in human basal cell carcinoma as well as in normal skin adjacent to the tumors. p63 RNA expression was not detected in brain, heart, colon, spleen, liver, or small intestine. Immunofluorescence reveals p63 expression in skin, oral epithelium, tongue, kidney, and trachea, but not in liver, large intestine, testis, skeletal muscle, or heart. Focal p63 expression within tissues, the complex array of isoforms encoded by the gene, and the specificity of the probes and antibodies utilized, may all contribute to contradictory accounts of CUSP/p63 expression.
...
PMID:CUSP/p63 expression in rat and human tissues. 1153 71
p53
gene therapy is being tested clinically for the treatment of human cancer, however, some cancer models (in vivo and in vitro) are resistant to
p53
. To explore the potential use of two
p53
homologues, p73 and
p51
/p63, in cancer gene therapy, we introduced
p53
, p73 and
p51
/p63 into colorectal cancer cell lines via adenoviral vectors, and compared their effects on cell growth. Among 10 cell lines tested, six cell lines displayed a similar response following transduction of
p53
, p73beta or p51A/p63gamma; two lines underwent cell-cycle arrest, three lines exhibited apoptosis and one line showed no-effect following transduction. The effect on cell-cycle progression was variable in the other four cell lines. Interestingly, three cell lines were resistant to
p53
-mediated apoptosis, including two lines having endogenous wild-type
p53
alleles, but underwent apoptosis after transduction of p73beta or p51A/p63gamma. Similar to
p53
, transduction of p51A/p63gamma induced extensive apoptosis when combined with adriamycin or X-radiation in SW480 cells, which are normally resistant to apoptosis. Transduction of p73beta and p51A/p63gamma also reduced the tumorigenicity of two colorectal cancer cells in vivo. These results suggest that adenovirus-mediated p73beta and p51A/p63gamma transfer are potential novel approaches for the treatment of human cancers, particularly for tumors that are resistant to
p53
gene therapy.
...
PMID:Adenovirus-mediated transfer of the p53 family genes, p73 and p51/p63 induces cell cycle arrest and apoptosis in colorectal cancer cell lines: potential application to gene therapy of colorectal cancer. 1157 80
The
TP53
tumour-suppressor gene belongs to a family that includes the two recently identified homologues
TP63
and TP73. Overexpression of p73 can activate typical
p53
-responsive genes and induce apoptosis like
p53
. In addition, activation of p73 has been implicated in apoptotic cell death induced by aberrant cell proliferation and some forms of DNA-damage. These data together with the localization of TP73 on chromosome 1p36, a region frequently deleted in a variety of human cancers, led to the hypothesis that p73 has tumour suppressor activity just like
p53
. However, despite its proapoptotic activity in vitro, the lack of tumour-formation in p73 knock-out mice and primary human tumour data demonstrating overexpression of wild-type p73 currently argue against p73 being a classical tumour suppressor. Interestingly, in contrast to
TP53
, TP73 gives rise to a complex pattern of pro- and antiapoptotic p73 isoforms generated by differential splicing and alternative promoter usage. Therefore further insight into the function and regulation of these structurally and functionally diverse p73 proteins is needed to elucidate the role of TP73 for apoptosis and human tumorigenesis.
...
PMID:p73 in apoptosis. 1159 34
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
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