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Enzyme
Compound
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Target Concepts:
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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Mutations in the
p53
tumour suppressor gene are the most common genetic alteration found in human cancers. Most of them are accompanied by stabilization of the protein, which renders it detectable through immunohistochemical techniques. Although
p53
expression is a very common finding in Hodgkin's disease (HD), the status of the
p53
gene is scarcely known, due to the difficulty in sequencing this gene in a lesion in which tumour cells are thought to constitute a very minor subpopulation, diluted in a background of supposedly benign cells. The pattern of expression of two downstream
p53
proteins (MDM2 and p21 WAF1/CIP1, was studied as an indirect way of assessing
p53
gene status. MDM2 is a wild-
p53 inducible protein
which may form a complex with
p53
, abrogating its function, as has been found in human sarcomas and other malignancies. p21WAF1/CIP1 is another protein inducible by wild-type
p53
, involved in inhibiting cell-cycle progression, through binding to cyclin/cyclin-dependent-kinase complexes. MDM2 and p21WAF1/CIP1 immunostaining was detected in all the cases analysed, independently of histological type, and were mainly present in Sternberg-Reed and Hodgkin (H & SR) cells. These immunohistochemical results were confirmed by Western blotting. To study the cause of MDM2 protein accumulation, MDM2 mRNA expression was also investigated by reverse transcription polymerase chain reaction (RT-PCR). The results show the presence of MDM2 transcripts in all cases of HD, albeit at lower levels than those found in reactive lymphoid tissue. These results seem to support the hypothesis that
p53
is transcriptionally active in at least some of the H & SR cells in HD, and is able to induce MDM2 and p21WAF1/CIP1 protein expression.
...
PMID:MDM2 and p21WAF1/CIP1, wild-type p53-induced proteins, are regularly expressed by Sternberg-Reed cells in Hodgkin's disease. 894 16
Mdm2 and MdmX function as cellular regulators of the
p53 tumor suppressor protein
. Mdm2, a
p53 inducible protein
, negatively regulates
p53
by inhibiting
p53
transcriptional activity and promoting ubiquitin mediated proteasome degradation. The Mdm2 ring finger domain has been shown to possess E3 ligase activity and to be a necessary domain for targeting
p53
degradation. MdmX, a p53 binding protein sharing a high degree of structural homology with Mdm2, has emerged as another negative regulator of the
p53 tumor suppressor
. MdmX has also been shown to block
p53
transactivation but unlike Mdm2 cannot induce
p53
degradation. Since MdmX also possesses a ring finger domain that allows MdmX to associate with Mdm2, this study focused on elucidating how the ring and zinc fingers of these two proteins affected
p53
function. We have generated a series of fusion proteins between Mdm2 and MdmX by swapping the ring finger domains with or without the zinc finger domains and examined how these fusions regulated
p53
induced transactivation, ubiquitination, and degradation. All fusions inhibited the transcriptional activity of
p53
. In the absence of Mdm2, none of the fusion proteins could trigger
p53
ubiquitination or degradation. However, in a cell line with endogenous Hdm2, Mdm2:X fusions containing the ring finger domain with or without the zinc finger domain demonstrated
p53
ubiquitination presumably through stabilization of Hdm2. Additionally, an Mdm2:XZFRF fusion also degraded
p53
when endogenous Hdm2 was present. Results from immunofluorescence studies suggest that
p53
is colocalized to the cytoplasm when coexpressed with a Mdm2:X fusion (Mdm2:XZFRF) and that this fusion is capable of stabilizing endogenous Hdm2. Since none of the fusions triggered
p53
ubiquitination in cells lacking Mdm2, these results indicate that the E3 ligase domain within the ring finger of Mdm2 when part of MdmX and the MdmX ring finger fused to Mdm2 were not sufficient to trigger
p53
ubiquitination, in vivo.
...
PMID:Overexpression of Mdm2 and MdmX fusion proteins alters p53 mediated transactivation, ubiquitination, and degradation. 1260 Jan 96
