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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Understanding the interaction of Arf and
Hdm2
has recently become a central issue in cancer biology. In response to hyperproliferative signals, p14(Arf) stabilizes
p53
by binding to
Hdm2
and inhibits the ubiquitination and subsequent proteosome-dependent degradation of
p53
. The medical importance of the Arf-
Hdm2
-
p53
regulatory system is highlighted by the finding that either
p53
or p14(Arf) are lost or modified in virtually all human cancers. Isolated Arf and
Hdm2
domains are dynamically disordered in solution, yet they retain the ability to interact in vitro and in cellular assays. Upon binding, domains of both Arf and
Hdm2
undergo a dramatic transition from disordered conformations to extended structures comprised of beta-strands. The presence of domains from both proteins are necessary and sufficient for the formation of the highly stable extended beta structures. We have mapped sites within Arf and
Hdm2
that interact at a resolution of five amino acid residues using surface plasmon resonance. Surface plasmon resonance and circular dichroism spectropolarimetry confirm the presence of multiple interaction domains within each protein. Both p14(Arf) (human) and p19(Arf) (mouse) interact with
Hdm2
through two short motifs present in their N termini. The Arf interacting region of
Hdm2
is also composed of two short sequences located in the central acidic domain, between residues 235-264 and 270-289. The binding-induced structural transition is also induced by short peptides, 15 amino acids in length, that contain the binding motifs. Micro-injection and live cell imaging of proteins tagged with fluorescent labels was used to confirm the in vivo function of the interaction domains. Arf and
Hdm2
thus appear to interact through a novel mechanism that exerts control over the cell division cycle. The novel molecular mechanism of interaction and the limited size of the protein domains involved provide opportunities for the development of anticancer therapeutics.
...
PMID:Defining the molecular basis of Arf and Hdm2 interactions. 1171 60
The Hdmx gene product is related to the
Hdm2
oncoprotein, both of which interact with and regulate
p53
stability and function. Like
Hdm2
, Hdmx is able to inhibit
p53
transactivation; however, at variance with
Hdm2
, which promotes ubiquitination, nuclear export, and degradation of
p53
, Hdmx increases
p53
stability. We report here (i) that overexpressed Hdmx is cytoplasmic and
Hdm2
recruits Hdmx into the nucleus and (ii) that nuclear Hdmx blocks
Hdm2
-mediated nuclear export of
p53
and down-regulates
p53
-dependent transcription. Furthermore we showed that Hdmx inhibits
Hdm2
-mediated
p53
ubiquitination. It appears, therefore, that a regulatory loop exists in which
Hdm2
regulates the intracellular localization of Hdmx, and nuclear Hdmx regulates several functions of
Hdm2
(ubiquitin ligase activity and
p53
nuclear export).
...
PMID:Hdmx recruitment into the nucleus by Hdm2 is essential for its ability to regulate p53 stability and transactivation. 1174 95
p14(ARF), the alternative product from the human INK4a/ARF locus, antagonizes
Hdm2
and mediates
p53
activation in response to oncogenic stimuli. An immunohistochemical study of p14(ARF) expression in 74 samples of aggressive B-cell lymphomas was performed, demonstrating an array of different abnormalities. A distinct nucleolar expression pattern was detected in nontumoral tissue and a subset of lymphomas (50/74). In contrast, a group of cases (8/74) showed absence of p14(ARF) expression, dependent either on promoter hypermethylation or gene loss. Additionally, 16 out of 74 cases displayed an abnormal nuclear p14(ARF) overexpression not confined to the nucleoli, as confirmed by confocal microscopy, and that was associated with high levels of
p53
and
Hdm2
. A genetic study of these cases failed to show any alteration in the p14(ARF) gene, but revealed the presence of
p53
mutations in over 50% of these cases. An increased growth fraction and a more aggressive clinical course, with a shortened survival time, also characterized the group of tumors with p14(ARF) nuclear overexpression. Moreover, this p14(ARF) expression pattern was more frequent in tumors displaying accumulated alterations in the
p53
, p16(INK4a), and p27(KIP1) tumor supressors. These observations, together with the consideration of the central role of p14(ARF) in cell cycle control, suggest that p14(ARF) abnormal nuclear overexpression is a sensor of malfunction of the major cell cycle regulatory pathways, and consequently a marker of a high tumor aggressivity.
...
PMID:p14(ARF) nuclear overexpression in aggressive B-cell lymphomas is a sensor of malfunction of the common tumor suppressor pathways. 1183 Apr 94
The development of human cancers is frequently associated with the silencing of the two major tumor suppressor pathways represented by retinoblastoma protein and
p53
. As the incidence of
p53
mutations is significantly lower in Hodgkin's lymphoma than in other neoplasias, we investigated whether the malfunction of other proteins in this pathway could be responsible for its inactivation. Because the existence of nucleolar complexes between p14(ARF) and
Hdm2
has been described as having a critical effect on
p53
function by inhibiting its degradation, we analyzed the expression and subcellular localization of these proteins in 52 cases and in Hodgkin's cell lines. Two of four cell lines revealed loss of p14(ARF) expression secondary to gene promoter methylation, this being mutually exclusive with
p53
mutations (1 of 4), illustrating the existence of selective pressure to inactivate the
p53
pathway. The majority of Hodgkin's samples showed a strong nucleolar expression of p14(ARF) that was not associated with
Hdm2
. They also showed the existence of
Hdm2
/
p53
complexes, and the absence of complexes containing either p14(ARF)/
Hdm2
or p14(ARF)/
p53
. The different localization of
Hdm2
(nucleoplasm) and p14(ARF) (nucleoli) observed in Hodgkin's tumors and cell lines is associated with the presence of short alternatively spliced transcripts of
Hdm2
lacking the ARF-binding region and the nuclear export signal. The absence of these p14(ARF)/
Hdm2
nucleolar complexes could be sufficient to inactivate the pathway and may explain the low frequency of
p53
mutations in this tumor.
...
PMID:Nucleolar p14(ARF) overexpression in Reed-Sternberg cells in Hodgkin's lymphoma: absence of p14(ARF)/Hdm2 complexes is associated with expression of alternatively spliced Hdm2 transcripts. 1183 77
The function of cyclin G, a commonly induced p53 target, has remained elusive. We show that cyclin G forms a quaternary complex in vivo and in vitro with enzymatically active phosphatase 2A (PP2A) holoenzymes containing B' subunits. Interestingly, cyclin G also binds in vivo and in vitro to Mdm2 and markedly stimulates the ability of PP2A to dephosphorylate Mdm2 at T216. Consistent with these data, cyclin G null cells have both Mdm2 that is hyperphosphorylated at T216 and markedly higher levels of
p53 protein
when compared to wild-type cells. Cyclin G expression also results in reduced phosphorylation of human
Hdm2
at S166. Thus, our data suggest that cyclin G recruits PP2A in order to modulate the phosphorylation of Mdm2 and thereby to regulate both Mdm2 and
p53
.
...
PMID:Cyclin G recruits PP2A to dephosphorylate Mdm2. 1198 68
The
P53
homolog p63 encodes multiple proteins with transactivating, apoptosis-inducing, and oncogenic activities. We showed that p63 is amplified and that DeltaNp63 isotypes are overexpressed in squamous cell carcinoma (SCC) and enhance oncogenic growth in vitro and in vivo. Moreover,
p53 associated
with DeltaNp63alpha and mediated its degradation. Here, we report that DeltaNp63 associates with the B56alpha regulatory subunit of protein phosphatase 2A (PP2A) and glycogen synthase kinase 3beta (GSK3beta), leading to a dramatic inhibition of PP2A-mediated GSK3beta reactivation. The inhibitory effect of DeltaNp63 on GSK3beta mediates a decrease in phosphorylation levels of beta-catenin, which induces intranuclear accumulation of beta-catenin and activates beta-catenin-dependent transcription. Our results suggest that DeltaNp63 isotypes act as positive regulators of the beta-catenin signaling pathway, providing a basis for their oncogenic properties.
...
PMID:DeltaNp63 induces beta-catenin nuclear accumulation and signaling. 1208 51
The
p53 tumor suppressor
is inhibited and destabilized by Mdm2. However, under stress conditions, this downregulation is relieved, allowing the accumulation of biologically active
p53
. Recently we showed that c-Abl is important for
p53
activation under stress conditions. In response to DNA damage, c-Abl protects
p53
by neutralizing the inhibitory effects of Mdm2. In this study we ask whether this neutralization involves a direct interplay between c-Abl and Mdm2, and what is the contribution of the c-Abl kinase activity? We demonstrate that the kinase activity of c-Abl is required for maintaining the basal levels of
p53
expression and for achieving maximal accumulation of
p53
in response to DNA damage. Importantly, c-Abl binds and phosphorylates Mdm2 in vivo and in vitro. We characterize
Hdm2
(human Mdm2) phosphorylation at Tyr394. Substitution of Tyr394 by Phe394 enhances the ability of Mdm2 to promote
p53
degradation and to inhibit its transcriptional and apoptotic activities. Our results suggest that phosphorylation of Mdm2 by c-Abl impairs the inhibition of
p53
by Mdm2, hence defining a novel mechanism by which c-Abl activates
p53
.
...
PMID:Tyrosine phosphorylation of Mdm2 by c-Abl: implications for p53 regulation. 1211 May 84
The
p53 tumor suppressor
regulates the cellular response to genetic damage through its function as a sequence-specific transcription factor. Among the most well-characterized transcriptional targets of
p53
is the mdm2 oncogene. Activation of mdm2 is critical in the
p53
pathway because the
mdm2 protein
marks
p53
for proteosome-mediated degradation, thereby providing a negative-feedback loop. Here we show that the ATM-related TRRAP protein functionally cooperates with
p53
to activate mdm2 transcription. TRRAP is a component of several multiprotein acetyltransferase complexes implicated in both transcriptional regulation and DNA repair. In support of a role for these complexes in mdm2 expression, we show that transactivation of the mdm2 gene is augmented by pharmacological inhibition of cellular deacetylases. In vitro analysis demonstrates that
p53
directly binds to a TRRAP domain previously shown to be an activator docking site. Furthermore, transfection of cells with antisense TRRAP blocks
p53
-dependent transcription of mdm2. Finally, using chromatin immunoprecipitation, we demonstrate direct
p53
-dependent recruitment of TRRAP to the mdm2 promoter, followed by increased histone acetylation. These findings suggest a model in which
p53
directly recruits a TRRAP/acetyltransferase complex to the mdm2 gene to activate transcription. In addition, this study defines a novel biochemical mechanism utilized by the
p53 tumor suppressor
to regulate gene expression.
...
PMID:Transcriptional regulation of the mdm2 oncogene by p53 requires TRRAP acetyltransferase complexes. 1213 77
We have analyzed the ability of an adenoviral vector encoding the exon 1beta region of the p14(ARF) tumor suppressor (ARF) to suppress the growth and viability of an array of tumor cell lines of various origins and varying
p53
and Rb status, in order to establish the clinical potential of ARF. An important activity of ARF is regulation of
p53
stability and function through binding to the
mdm2 protein
. By sequestering mdm2, ARF may promote growth suppression through the Rb pathway as well because mdm2 can bind to Rb and attenuate its function. Whereas the high frequency of ARF gene deletion in human cancers, accounting for some 40% of cancers overall, suggests that ARF would be a strong candidate for therapeutic application, the possible dependence of ARF activity on
p53
and Rb function presents a potential limitation to its application, as these functions are often impaired in cancer. We show here that a replication-defective adenovirus, Ad1beta, encoding the exon 1beta region of ARF is most effective in tumor cells expressing endogenous wild-type
p53
. Nevertheless, Ad1beta suppresses tumor cell growth and viability in vitro and in vivo, inducing G1 or G2 cell cycle arrest and cell death even in tumor cells lacking both functional Rb and
p53
pathways, and independently of induction of the
p53
downstream targets, p21, bax, and mdm2. These results point to an activity of ARF in human tumor cells that is independent of Rb or
p53
, and suggest that therapeutic applications based on ARF would have a broad clinical application in cancer.
...
PMID:Growth suppression by a p14(ARF) exon 1beta adenovirus in human tumor cell lines of varying p53 and Rb status. 1222 24
Tumoral cells in Hodgkin lymphoma (HL) display an increased growth fraction and diminished apoptosis, implying a profound disturbance of the cell cycle and apoptosis regulation. However, limitations of molecular techniques have prevented the analysis of the tumor suppressor pathways and cell-cycle checkpoints. Tissue microarray (TMA) is a powerful tool for analyzing a large number of molecular variables in a large series of tumors, although the feasibility of this technique has not yet been demonstrated in heterogeneous tumors. The expression of 29 genes regulating the cell cycle and apoptosis were analyzed by immunohistochemistry and in situ hybridization in 288 HL biopsies using TMA. The sensitivity of the technique was validated by comparing the results with those obtained in standard tissue sections. The results revealed multiple alterations in different pathways and checkpoints, including G1/S and G2/M transition and apoptosis. Striking findings were the overexpression of cyclin E, CDK2, CDK6, STAT3,
Hdm2
, Bcl2, Bcl-X(L), survivin, and NF-kappaB proteins. A multiparametric analysis identified proteins associated with increased growth fraction (
Hdm2
,
p53
, p21, Rb, cyclins A, B1, D3, and E, CDK2, CDK6, SKP2, Bcl-X(L), survivin, STAT1, and STAT3), and proteins associated with apoptosis (NF-kappaB, STAT1, and RB). The analysis also demonstrated that Epstein-Barr virus (EBV)-positive cases displayed a characteristic profile, confirming the pathogenic role of EBV in HL. Survival probability depends on multiple biologic factors, including overexpression of Bcl2,
p53
, Bax, Bcl-X(L), MIB1, and apoptotic index. In conclusion, Hodgkin and Reed-Sternberg cells harbor concurrent and overlapping alterations in the major tumor suppressor pathways and cell-cycle checkpoints. This appears to determine the viability of the tumoral cells and the clinical outcome.
...
PMID:Hodgkin and Reed-Sternberg cells harbor alterations in the major tumor suppressor pathways and cell-cycle checkpoints: analyses using tissue microarrays. 1239 83
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