Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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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)
The ubiquitin-specific protease
USP7
/HAUSP regulates
p53
and MDM2 levels, and cellular localization of FOXO4 and PTEN, and hence is critically important for their role in cellular processes. Here we show how the 64 kDa C-terminal region of
USP7
can positively regulate deubiquitinating activity. We present the crystal structure of this
USP7
/HAUSP ubiquitin-like domain (HUBL) comprised of five ubiquitin-like (Ubl) domains organized in 2-1-2 Ubl units. The last di-Ubl unit, HUBL-45, is sufficient to activate
USP7
, through binding to a "switching" loop in the catalytic domain, which promotes ubiquitin binding and increases activity 100-fold. This activation can be enhanced allosterically by the metabolic enzyme GMPS. It binds to the first three Ubl domains (HUBL-123) and hyperactivates
USP7
by stabilization of the HUBL-45-dependent active state.
...
PMID:Mechanism of USP7/HAUSP activation by its C-terminal ubiquitin-like domain and allosteric regulation by GMP-synthetase. 2198 25
Herpesvirus-associated ubiquitin-specific protease
(
HAUSP
) regulates the stability of
p53
and the p53-binding protein MDM2, implicating
HAUSP
as a therapeutic target for tuning
p53
-mediated antitumor activity. Here we report the structural analysis of
HAUSP
with Kaposi's sarcoma-associated herpesvirus viral interferon (IFN) regulatory factor 4 (vIRF4) and the discovery of two vIRF4-derived peptides, vif1 and vif2, as potent and selective
HAUSP
antagonists. This analysis reveals a bilateral belt-type interaction that results in inhibition of
HAUSP
. The vif1 peptide binds the
HAUSP
TRAF domain, competitively blocking substrate binding, whereas the vif2 peptide binds both the
HAUSP
TRAF and catalytic domains, robustly suppressing its deubiquitination activity. Peptide treatments comprehensively blocked
HAUSP
, leading to
p53
-dependent cell-cycle arrest and apoptosis in culture and to tumor regression in xenograft mouse model. Thus, the virus has developed a unique strategy to target the
HAUSP
-MDM2-
p53
pathway, and these virus-derived short peptides represent biologically active
HAUSP
antagonists.
...
PMID:Bilateral inhibition of HAUSP deubiquitinase by a viral interferon regulatory factor protein. 2205 74
The deubiquitylation enzyme
USP7
/HAUSP plays a major role in regulating genome stability and cancer prevention by controlling the key proteins involved in the DNA damage response. Despite this important role in controlling other proteins,
USP7
itself has not been recognized as a target for regulation. Here, we report that
USP7
regulation plays a central role in DNA damage signal transmission. We find that stabilization of Mdm2, and correspondingly
p53
downregulation in unstressed cells, is accomplished by a specific isoform of
USP7
(USP7S), which is phosphorylated at serine 18 by the protein kinase CK2. Phosphorylation stabilizes USP7S and thus contributes to Mdm2 stabilization and downregulation of
p53
. After ionizing radiation, dephosphorylation of USP7S by the ATM-dependent protein phosphatase PPM1G leads to USP7S downregulation, followed by Mdm2 downregulation and accumulation of
p53
. Our findings provide a quantitative transmission mechanism of the DNA damage signal to coordinate a
p53
-dependent DNA damage response.
...
PMID:ATM-dependent downregulation of USP7/HAUSP by PPM1G activates p53 response to DNA damage. 2267 35
Colorectal cancer (CRC), now the third most common cancer across the world, is known to aggregate in families.
USP7
is a very important protein with an important role in regulating the
p53
pathway, which is critical for genomic stability and tumor suppression. We here genotyped eight SNPs within the
USP7
gene and conducted a case-control study in 312 CRC patients and 270 healthy subjects in the Chinese Han population. No significant associations were found for any single SNP and CRC risk. Our data eliminate
USP7
as a potential candidate gene towards for CRC in the Han Chinese population.
...
PMID:No association between the USP7 gene polymorphisms and colorectal cancer in the Chinese Han population. 2290 Nov 15
The
p53
family and its regulatory pathway play an important role as regulators of developmental processes, limiting the propagation of aneuploid cells. Its dysfunction or imbalance can lead to pathological abnormalities in humans. The aim of this study was to evaluate the effect of maternal polymorphisms
TP53
c.215G>C (P72R), TP73 4 c.-30G>A and 14 c.-20C>T, MDM2 c.14+309T>G (SNP309), MDM4 c.753+572C>T and
USP7
c.2719-234G>A as risk factors for Down Syndrome (DS) birth. A case-control study was conducted with 263 mothers of DS children and 196 control mothers. The distribution of these genotypic variants was similar between case and control mothers. However, the combined alleles
TP53
C and MDM2 G, and
P53
C and
USP7
A increased the risk of having offspring with DS (OR=1.84 and 1.77; 95% CI; P < 0.007 and 0.018, respectively). These results suggest that, although the individual polymorphisms were not associated with DS birth, the effect of the combined genotypes among
TP53
, MDM2 and
USP7
genes indicates a possible role of
TP53
and its regulatory pathway as a risk factor for aneuploidy.
...
PMID:Maternal SNPs in the p53 pathway: risk factors for trisomy 21? 2308 23
The E3 ubiquitin ligase Mule/ARF-BP1 plays an important role in the cellular DNA damage response by controlling base excision repair and
p53 protein
levels. However, how the activity of Mule is regulated in response to DNA damage is currently unknown. Here, we report that the Ser18-containing isoform of the
USP7
deubiquitylation enzyme (USP7S) controls Mule stability by preventing its self-ubiquitylation and subsequent proteasomal degradation. We find that in response to DNA damage, downregulation of USP7S leads to self-ubiquitylation and proteasomal degradation of Mule, which eventually leads to
p53
accumulation. Cells that are unable to downregulate Mule show reduced ability to upregulate
p53
levels in response to DNA damage. We also find that, as Mule inactivation is required for stabilization of base excision repair enzymes, the failure of cells to downregulate Mule after DNA damage results in deficient DNA repair. Our data describe a novel mechanism by which Mule is regulated in response to DNA damage and coordinates cellular DNA damage responses and DNA repair.
...
PMID:USP7S-dependent inactivation of Mule regulates DNA damage signalling and repair. 2327 61
A large number of patients are resistant to taxane-based chemotherapy. Functional mitotic checkpoints are essential for taxane sensitivity. Thus, mitotic regulators are potential markers for therapy response and could be targeted for anticancer therapy. In this study, we identified a novel function of ubiquitin (Ub)-specific processing protease-7 (
USP7
) that interacts and cooperates with protein death domain-associated protein (Daxx) in the regulation of mitosis and taxane resistance. Depletion of
USP7
impairs mitotic progression, stabilizes cyclin B and reduces stability of the mitotic E3 Ub ligase, checkpoint with forkhead and Ring-finger (CHFR). Consequently, cells with depleted
USP7
accumulate Aurora-A kinase, a CHFR substrate, thus elevating multipolar mitoses. We further show that these effects are independent of the
USP7
substrate
p53
. Thus,
USP7
and Daxx are necessary to regulate proper execution of mitosis, partially via regulation of CHFR and Aurora-A kinase stability. Results from colony formation assay, in silico analysis across the NCI60 platform and in breast cancer patients suggest that
USP7
levels inversely correlate with response to taxanes, pointing at the
USP7
protein as a potential predictive factor for taxane response in cancer patients. In addition, we demonstrated that inhibition of Aurora-A attenuates
USP7
-mediated taxane resistance, suggesting that combinatorial drug regimens of Taxol and Aurora-A inhibitors may improve the outcome of chemotherapy response in cancer patients resistant to taxane treatment. Finally, our study offers novel insights on
USP7
inhibition as cancer therapy.
...
PMID:USP7 and Daxx regulate mitosis progression and taxane sensitivity by affecting stability of Aurora-A kinase. 2334 68
Integrin-based adhesions promote cell survival as well as cell motility and invasion. We show here that the adhesion regulatory protein supervillin increases cell survival by decreasing levels of the
tumor suppressor protein p53
and downstream target genes. RNAi-mediated knockdown of a new splice form of supervillin (isoform 4) or both isoforms 1 and 4 increases the amount of
p53
and cell death, whereas
p53
levels decrease after overexpression of either supervillin isoform. Cellular responses to DNA damage induced by etoposide or doxorubicin include down-regulation of endogenous supervillin coincident with increases in
p53
. In DNA-damaged supervillin knockdown cells,
p53
knockdown or inhibition partially rescues the loss of cell metabolic activity, a measure of cell proliferation. Knockdown of the
p53
deubiquitinating enzyme
USP7
/HAUSP also reverses the supervillin phenotype, blocking the increase in
p53
levels seen after supervillin knockdown and accentuating the decrease in
p53
levels triggered by supervillin overexpression. Conversely, supervillin overexpression decreases the association of
USP7
and
p53
and attenuates
USP7
-mediated
p53
deubiquitination.
USP7
binds directly to the supervillin N terminus and can deubiquitinate and stabilize supervillin. Supervillin also is stabilized by derivatization with the ubiquitin-like protein SUMO1. These results show that supervillin regulates cell survival through control of
p53
levels and suggest that supervillin and its interaction partners at sites of cell-substrate adhesion constitute a locus for cross-talk between survival signaling and cell motility pathways.
...
PMID:Supervillin-mediated suppression of p53 protein enhances cell survival. 2338 81
Steroid receptor coactivator 3 (SRC-3) is an oncogenic nuclear receptor coactivator that plays a significant role in drug resistance. Using a lentiviral cDNA library rescue screening approach, we identified a SRC-3 downstream gene-TRAF4 (tumor necrosis factor [TNF] receptor associated-factor 4)-that functions in cell resistance to cytotoxic stress. TRAF4 expression is positively correlated with SRC-3 expression in human breast cancers. Similar to that observed for SRC-3 overexpression, breast cancer cells overexpressing TRAF4 are more resistant to stress-induced death. Here, we further dissected the underlying molecular mechanism for SRC-3 and TRAF4-mediated resistance to cytotoxic agents. We observed that SRC-3 expression is inversely correlated with the expression of
p53
-regulated proapoptotic genes in breast cancers and further found that SRC-3 and TRAF4 overexpression diminished cytotoxic stress-induced up-regulation of the
tumor suppressor p53
protein. To determine the mechanism, we showed that the TRAF domain of TRAF4 bound to the N-terminal TRAF-like region of the deubiquitinase HAUSP (herpesvirus-associated ubiquitin-specific protease; also named
USP7
) and blocked the access of
p53
to the same region of HAUSP. This TRAF4-mediated inhibition of HAUSP then led to the loss of
p53
deubiquitination and its stabilization in response to cellular stress. Consistent with this cellular function, we also found that TRAF4 overexpression in breast cancer patients was associated significantly with poor prognosis. Because of SRC-3's ability to abrogate
p53
function, our results suggest that SRC-3 overexpression may be especially important in tumors in which
p53
is not mutated.
...
PMID:SRC-3 coactivator regulates cell resistance to cytotoxic stress via TRAF4-mediated p53 destabilization. 2338 26
p53
plays a central role in tumor suppression. It does so by inducing anti-proliferative processes as a response to various tumor-promoting stresses.
p53
is regulated by the ubiquitin ligase Mdm2. The optimal function of Mdm2 requires Daxx, which stabilizes Mdm2 through the deubiquitinase Hausp/
USP7
and also directly promotes Mdm2's ubiquitin ligase activity towards
p53
. The Daxx-Mdm2 interaction is disrupted upon DNA damage. However, both the mechanisms and the consequence of the Daxx-Mdm2 dissociation are not understood. Here we show that upon DNA damage Daxx is phosphorylated in a manner that is dependent on ATM, a member of the PI 3-kinase family that orchestrates the DNA damage response. The main phosphorylation site of Daxx is identified to be Ser564, which is a direct target of ATM. Phosphorylation of endogenous Daxx at Ser564 occurs rapidly during the DNA damage response and precedes
p53
activation. Blockage of this phosphorylation event prevents the separation of Daxx from Mdm2, stabilizes Mdm2, and inhibits DNA damage-induced
p53
activation. These results suggest that phosphorylation of Daxx by ATM upon DNA damage disrupts the Daxx-Mdm2 interaction and facilitates
p53
activation.
...
PMID:Phosphorylation of Daxx by ATM contributes to DNA damage-induced p53 activation. 2340 18
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