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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The gene p53 encodes a
transcriptional activator
of genes involved in growth arrest, DNA repair and apoptosis. Loss of p53 function contributes to tumour development in vivo. The transcriptional activation function of p53 is inactivated by interaction with the
mdm2
gene product. Amplification of
mdm2
has been observed in 36% of human sarcomas, indicating that it may represent an alternative mechanism of preventing p53 function in tumour development. To study
mdm2
function in vivo, we generated an
mdm2
null allele by homologous recombination. Mdm2 null mice are not viable, and further analysis revealed embryonic lethality around implantation. To examine the importance of the interaction of MDM2 with p53 in vivo, we crossed mice heterozygous for
mdm2
and p53 and obtained progeny homozygous for both p53 and
mdm2
null alleles. Rescue of the
mdm2
-/- lethality in a p53 null background suggests that a critical in vivo function of MDM2 is the negative regulation of p53 activity.
...
PMID:Rescue of early embryonic lethality in mdm2-deficient mice by deletion of p53. 747 26
The p53 tumor suppressor protein is a sequence-specific
transcriptional activator
of target genes. Exposure of cells to DNA damage results in accumulation of biochemically active p53, with consequent activation of p53-responsive promoters. In order to study how the transcriptional activity of the p53 protein is regulated in vivo, a transgenic mouse strain was generated. These mice harbor the p53-dependent promoter of the
mdm2
gene, fused to a lacZ reporter gene. Induction of lacZ activity by DNA damage (ionizing radiation) was monitored in embryos of different p53 genotypes. The transgenic promoter was substantially activated in vivo following irradiation; activation required functional p53. The activation pattern became more restricted with increasing embryo age, as well as with the state of differentiation of a given tissue. Generally, maximal p53 activation occurred in rapidly proliferating, relatively less differentiated cells. A striking extent of haploinsufficiency was revealed-induction of promoter activity was far less efficient in mice carrying only one wild-type p53 allele. This suggests that normal levels of cellular p53 are limiting, and any further reduction already compromises the p53 response significantly. Thus, the activation potential of p53 is tightly controlled in vivo, both spatially and temporally, and an important element in this control is the presence of limiting basal levels of activatable p53.
...
PMID:Transgenic mouse model for studying the transcriptional activity of the p53 protein: age- and tissue-dependent changes in radiation-induced activation during embryogenesis. 913 53
Because most non-melanocytic human skin cancers have p53 mutations, it is unclear whether the aberrant growth of these cancers is simply a result of the abrogation of a p53 downstream mediator, the universal cyclin-dependent kinase inhibitor p21WAF1. To investigate the role of p21WAF1 in human skin carcinogenesis, we studied its regulation in normal and p53-mutated immortalized human keratinocytes. In proliferating human normal keratinocytes (HNK), more wild-type p53 protein (wt p53) was expressed than in growth-arrested differentiating keratinocytes. However, the function of wt p53 as a
transcriptional activator
of the p21WAF1 gene was suppressed in proliferating keratinocytes. In response to ultraviolet B irradiation, expression of wt p53 increased in proliferating keratinocytes, but p21WAF1 transcriptional activation was not induced. Two isoforms of
mdm2
(p57 and p90), which can bind to wt p53 and negatively regulate wt p53 function, were expressed in proliferating HNK, suggesting that
mdm2
may play a role in the suppression of wt p53's function in proliferating HNK. Increased expression of p21WAF1 was detected in both Ca(2+)-induced growth-arrested and differentiating HNK, in which the wt p53 expression was down regulated. This reflects the complexity of the p53/p21WAF1 pathways of cell-cycle regulation and differentiation in keratinocytes. No p21WAF1 expression was detected in human immortalized keratinocytes (HaCaT) or in two ras-transformed variants, HaCaT ras I/7 and HaCaT ras II/3, which have two p53 mutations. Retrovirus-mediated expression of p21WAF1 stopped the growth of all these cell types, but expression of wt p53 did not affect the cells' growth properties. p21WAF1 also downregulated human telomerase RNA component mRNA expression in HaCaT cells. This novel function of p21WAF1 partly explains the suppression of telomerase activity by p21WAF1 expression in HaCaT. Taken together, these results are consistent with the idea that p21WAF1 successfully inhibits the growth of non-melanocytic skin cancers, even those with alterations in p53, p21ras, retinoblastoma gene product, and telomerase activity.
...
PMID:Growth arrest of immortalized human keratinocytes and suppression of telomerase activity by p21WAF1 gene expression. 947 69
The p53 tumour suppressor protein is a
transcriptional activator
, which can induce cell cycle arrest and apoptosis. p53 Gene mutations occur in more than 50% of all human tumours. Reintroduction of wild-type p53 but also of oligomerisation-independent p53 variants into tumour cells by gene transfer methods has been considered. We have investigated the biological properties of two carboxy-terminal deletion mutants of p53, p53 delta 300 (comprising amino acids 1-300) and p53 delta 326 (amino acids 1-326), to evaluate their potential deployment in gene therapy. Transactivation was measured in transiently transfected HeLa and SKBR3 cells. Both monomeric variants showed reduced activities compared with wild-type p53. Individual promoters were differently affected. In contrast to wild-type p53, monomeric variants were not able to induce apoptosis. We also provided wild-type p53 and p53 delta 326 with tetracycline-regulated promoters and stably introduced these constructs into Saos2 and SKBR3 cells. Upon induction, wild-type p53 expressing cells, but not p53 delta 326 expressing cells underwent apoptosis. Consistently, only wild-type p53 expressing cells accumulated p21/waf1/cip1 mRNA and protein and showed increased bax, Gadd45 and
mdm2
mRNA. Neither wild-type p53 nor p53 delta 326 repressed the transcription of the IGF-1R gene in these cell lines. We conclude that the transactivation potential of monomeric, carboxy-terminally truncated p53 is not sufficient to cause induction of the endogenous target genes which trigger apoptosis.
...
PMID:Transcriptional regulation and induction of apoptosis: implications for the use of monomeric p53 variants in gene therapy. 1002 42
High-risk human papillomaviruses are causally associated with cervical cancer. Two viral oncogenes, E6 and E7, are expressed in most cervical cancers, and these genes cause cancer when expressed in experimental animals. The E6 protein targets the p53 tumor suppressor for degradation, while the E7 protein inactivates the retinoblastoma susceptibility protein (pRb), in part by stimulating its degradation. In contrast, expression of E7 in the absence of E6 leads to stabilization of p53. Here we show that E7 stabilizes p53 in mouse embryo fibroblasts lacking p19(ARF). The stable p53 is active as a
transcriptional activator
, as evidenced by the increased expression of the p53-responsive
mdm2
gene. Normally, MDM2 protein inhibits p53 function in an autoregulatory loop. Regulation of p53 by MDM2 is required for murine development as well as for proliferation of cultured human fibroblasts. However, E7-expressing human fibroblasts continue to divide even though E7 abrogates the ability of MDM2 and p53 to bind. Furthermore, E7-expressing cells are not more sensitive to UV light, an agent that has been reported to induce apoptosis mediated by p53. These results indicate that in addition to inhibiting the ability of MDM2 to regulate p53, E7 must block signaling steps downstream of p53 to allow cell division.
...
PMID:The E7 oncoprotein of human papillomavirus type 16 stabilizes p53 through a mechanism independent of p19(ARF). 1043 49
Neutrophil lactoferrin (Lf) was previously shown to act as a
transcriptional activator
in various mammalian cells. Here, we describe that Lf specifically transactivates the p53 tumor suppressor gene through the activation of nuclear factor-kappaB (NF-kappaB) and consequently regulates p53-responsive oncogenes. In HeLa cervical carcinoma cells stably expressing Lf (HeLa-Lf), expression of
mdm2
and p21waf1/cip1 as well as p53 was greatly enhanced. Transient expression of Lf also markedly transactivates transcription of a p53 promoter-driven reporter and NF-kappaB-driven reporters in various mammalian cells. However, mutation of the NF-kappaB site or treatment with an NF-kappaB inhibitor abrogated the transactivation, suggesting that NF-kappaB should play an essential role in the Lf-induced transactivation. Increased binding activity and nuclear translocation of p65 in response to Lf strongly support these findings. Furthermore, Lf-mediated NF-kappaB activation is diminished in IKKalpha- or IKKbeta-deficient mouse embryonic fibroblast cells. The activation of both IKKs and NF-kappaB by Lf is over-ridden by the expression of dominant-negative mutants of NIK, MEKK1, IKKalpha and IKKbeta. Collectively, we conclude that overexpressed Lf directly relays signals to upstream components responsible for NF-kappaB activation, thereby leading to the activation of NF-kappaB target genes.
...
PMID:Neutrophil lactoferrin upregulates the human p53 gene through induction of NF-kappaB activation cascade. 1537 4
