Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
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Enzyme
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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The mechanisms by which
p53
prevents development of cancer are much more complicated than previously thought. Under normal conditions,
p53
is involved in cell-cycle arrest, Q1apoptosis, DNA repair, and inhibition of angiogenesis; it also promotes degradation of proteins through transcriptional regulation of certain target genes. Here we report the isolation of a novel transcriptional target of
p53
, designated
p53RFP
(
p53
-inducible RING-finger protein), whose product has E3 ubiquitin ligase activity. Its expression was negatively correlated to that of p21(WAF1) protein;
p53RFP
is likely to play a role in the regulation of this protein, probably through interaction with, and ubiquitination of, p21(WAF1).
p53RFP
appears to represent the second known example, the first being MDM2, of an E3 ubiquitin ligase as a p53 target. Our results further suggest that
p53
might regulate the stability of p21(WAF1) through transcriptional regulation of
p53RFP
, and this feature may represent a novel mechanism for a
p53
-dependent cell-cycle checkpoint.
...
PMID:p53RFP, a p53-inducible RING-finger protein, regulates the stability of p21WAF1. 1285 82
Mutations of the
p53
gene are the most common genetic alterations found in human cancers, and are known to play crucial roles in tumor development and progression. The
p53
gene encodes a protein functioning as a transcription factor, and the biological functions of
p53
are manifested through the activities of its downstream genes. Identification of these downstream genes involved in the
p53
-signaling pathway should provide more detailed insight into the molecular mechanisms that mediate tumor-suppressor activities, as well as various responses to cellular stress. We have been attempting to isolate
p53
-target genes by means of various approaches, including differential display, cDNA microarray analysis, and direct cloning of the
p53
-binding sequences from human genomic DNA. Here I review our recent work on isolation of
p53
-target genes and their functional analysis. The physiological functions of
p53
-target genes include apoptosis (GML, p53AIP1, and STAG1), DNA repair (p53R2), inhibition of angiogenesis (BAI1), re-entry into the cell cycle (
p53RFP
), oxidative stress (CSR), and determination of cell fate (p53RDL1).
...
PMID:Isolation of p53-target genes and their functional analysis. 1472 Mar 20
More than half of human cancers contain mutations in the
tumor suppressor protein p53
, most of which accumulate in the DNA binding domain of the protein. Here we report the identification of a mutant p53, designated
p53
-46F, in which Ser-46 is replaced with phenylalanine. In vitro, adenovirus-mediated transduction of the
p53
-46F gene induced apoptosis more efficiently than wild-type
p53
in a number of cancer cell lines, whereas Ser-15 phosphorylation of
p53
-46F was enhanced in all cancer cell lines examined. Moreover, the expression level of the cell cycle inhibitor p21/WAF1 was decreased in cell lines infected with adenovirus
p53
-46F (Ad-p53-46F).
p53
-46F caused a more enhanced level of transcriptional activation of several
p53
-target genes, including Noxa, p53AIP1 and
p53RFP
, compared with wild-type
p53
. In vivo, adenovirus-mediated gene transfer of
p53
-46F enhanced apoptosis, thus suppressing tumor growth of a lung cancer cell line more effectively than wild-type
p53
or
p53
-121F, another
p53
mutant. Collectively, our data suggest that
p53
-46F is an active version of
p53
that demonstrates enhanced induction of
p53
-dependent apoptosis. This is probably mediated by upregulated transactivation of genes downstream of
p53
, increased Ser-15 phosphorylation and a decrease in p21/WAF1 levels. We propose
p53
-46F as an alternative candidate to wild-type
p53
for use in developing new therapeutic strategies for the treatment of cancer.
...
PMID:Identification of p53-46F as a super p53 with an enhanced ability to induce p53-dependent apoptosis. 1682 4
p73 is a
p53
-related transcription factor with fundamental roles in development and tumor suppression. Transcription from two different promoters on the p73 gene results in generation of transcriptionally active TAp73 isoforms and dominant negative DeltaNp73 isoforms with opposing pro- and anti-apoptotic functions. Therefore, the relative ratio of each isoform is an important determinant of the cell fate. Proteasomal degradation of p73 is mediated by polyubiquitination-dependent and -independent processes both of which appear, thus far, to lack selectivity for the TAp73 and DeltaNp73 isoforms. Here, we describe the characterization of another transcriptional target of TAp73; a ring finger domain ubiquitin ligase p73 Induced RING 2 protein (PIR2). Although PIR2 was initially identified a
p53
-induced gene (
p53RFP
), low abundance of PIR2 transcript in mouse embryonic fibroblasts of TAp73 KO mice compared with WT mice and comparison of PIR2 mRNA and protein levels following TAp73 or
p53
overexpression substantiate TAp73 isoforms as strong inducers of PIR2. Although PIR2 expression was induced by DNA damage, its expression did not alter apoptotic response or cell cycle profile per se. However, coexpression of PIR2 with TAp73 or DeltaNp73 resulted in an increase of the TA/DeltaNp73 ratio, due to preferential degradation of DeltaNp73. Finally, PIR2 was able to relieve the inhibitory effect of DeltaNp73 on TAp73 induced apoptosis following DNA damage. These results suggest that PIR2, by being induced by TAp73 and degrading DeltaNp73, differentially regulates TAp73/DeltaNp73 stability, and, hence, it may offer a therapeutic approach to enhance the chemosensitivity of tumor cells.
...
PMID:Differential control of TAp73 and DeltaNp73 protein stability by the ring finger ubiquitin ligase PIR2. 2061 66
