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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
53BP2
was initially identified as a protein interacting with
p53
in a yeast two-hybrid screen and subsequently shown to enhance
p53
transcriptional transactivation and induce apoptosis when transiently overexpressed in cell lines. In order to further study the biologically relevant effects of
53BP2
, we have constructed HEK293 stable cell lines where
53BP2
expression can be regulated using an ecdysone inducible expression system. Our results indicate that the response of cells is dependent on the amount of
53BP2
that is expressed. High levels of
53BP2
expression (>or=140-fold above endogenous) impede cell cycle progression and induce apoptosis. Lower levels of
53BP2
expression (6-11-fold above endogenous) suppress colony formation but do not lead to detectable perturbations in the cell cycle or apoptosis. Lower levels of
53BP2
expression sensitized cells to apoptosis induced by DNA damaging chemotherapy agents doxorubicin, ara-C and VP16, but not microtubule active agents paclitaxel and vinblastine. Our results demonstrate that high levels of
53BP2
expression have profound biological effects ultimately leading to apoptosis, whereas lower levels of
53BP2
expression have more subtle effects on growth and sensitize cells to some chemotherapy agents.
...
PMID:p53-interacting protein 53BP2 inhibits clonogenic survival and sensitizes cells to doxorubicin but not paclitaxel-induced apoptosis. 1142 Jun 84
The
p53 protein
is a transcription factor that acts as the major tumor suppressor in mammals. The core DNA-binding domain is mutated in about 50% of all human tumors. The crystal structure of the core domain in complex with DNA illustrated how a single core domain specifically interacts with its DNA consensus site and how it is inactivated by mutation. However, no structural information for the tetrameric full-length
p53
-DNA complex is available. Here, we present novel experimental insight into the dimerization of two
p53
core domains upon cooperative binding to consensus DNA in solution obtained by NMR. The NMR data show that the
p53
core domain itself does not appear to undergo major conformational changes upon addition of DNA and elucidate the dimerization interface between two DNA-bound core domains, which includes the short H1 helix. A NMR-based model for the dimeric
p53
core-DNA complex incorporates these data and allows the conclusion that the dimerization interface also forms the actual interface in the tetrameric
p53
-DNA complex. The significance of this interface is further corroborated by the finding that hot spot mutations map to the H1 helix, and by the binding of the putative
p53
inhibitor
53BP2
to this region via one of its ankyrin repeats. Based on symmetry considerations it is proposed that tetrameric
p53
might link non-contiguous DNA consensus sites in a sandwich-like manner generating DNA loops as observed for transcriptionally active
p53
complexes.
...
PMID:NMR spectroscopy reveals the solution dimerization interface of p53 core domains bound to their consensus DNA. 1160 82
We identified a family of proteins termed ASPP. ASPP1 is a protein homologous to
53BP2
, the C-terminal half of
ASPP2
. ASPP proteins interact with
p53
and specifically enhance
p53
-induced apoptosis but not cell cycle arrest. Inhibition of endogenous ASPP function suppresses the apoptotic function of endogenous
p53
in response to apoptotic stimuli. ASPP enhance the DNA binding and transactivation function of
p53
on the promoters of proapoptotic genes in vivo. Two tumor-derived
p53
mutants with reduced apoptotic function were defective in cooperating with ASPP in apoptosis induction. The expression of ASPP is frequently downregulated in human breast carcinomas expressing wild-type
p53
but not mutant p53. Therefore, ASPP regulate the tumor suppression function of
p53
in vivo.
...
PMID:ASPP proteins specifically stimulate the apoptotic function of p53. 1168 14
The
tumor suppressor protein p53
, once activated, can cause either cell cycle arrest or apoptosis through transactivation of target genes with
p53
DNA binding sites (DBS). To investigate the role of
p53
DBS in the regulation of this profound, yet poorly understood decision of life versus death, we systematically studied all known and potential
p53
DBS. We analysed the DBS separated from surrounding promoter regions in yeast and mammalian assays with and without DNA damage.
p53
efficiently utilized the DBS of MDM2 and of genes connected to cell cycle arrest, DNA repair and the death receptor pathway of apoptosis. However,
p53
was unable to utilize two-thirds of the isolated DBS, a subset that included almost all DBS of apoptosis-related genes. Neither
ASPP2
, a
p53
-interacting protein reported to specifically stimulate
p53
transcriptional activity on apoptosis-related promoters, nor DNA damage resulted in
p53
utilization of isolated DBS of apoptosis-related genes. Thus, a major regulation of
p53
activity occurs at the level of
p53
DBS themselves by posing additional requirements for the successful utilization of apoptosis-related DBS.
...
PMID:Groups of p53 target genes involved in specific p53 downstream effects cluster into different classes of DNA binding sites. 1242 Feb 28
We have previously shown that ASPP1 and
ASPP2
are specific activators of
p53
; one mechanism by which wild-type
p53
is tolerated in human breast carcinomas is through loss of ASPP activity. We have further shown that
53BP2
, which corresponds to a C-terminal fragment of
ASPP2
, acts as a dominant negative inhibitor of
p53
(ref. 1). Hence, an inhibitory form of ASPP resembling
53BP2
could allow cells to bypass the tumor-suppressor functions of
p53
and the ASPP proteins. Here, we characterize such a protein, iASPP (inhibitory member of the ASPP family), encoded by PPP1R13L in humans and ape-1 in Caenorhabditis elegans. iASPP is an evolutionarily conserved inhibitor of
p53
; inhibition of iASPP by RNA-mediated interference or antisense RNA in C. elegans or human cells, respectively, induces
p53
-dependent apoptosis. Moreover, iASPP is an oncoprotein that cooperates with Ras, E1A and E7, but not mutant p53, to transform cells in vitro. Increased expression of iASPP also confers resistance to ultraviolet radiation and to cisplatin-induced apoptosis. iASPP expression is upregulated in human breast carcinomas expressing wild-type
p53
and normal levels of ASPP. Inhibition of iASPP could provide an important new strategy for treating tumors expressing wild-type
p53
.
...
PMID:iASPP oncoprotein is a key inhibitor of p53 conserved from worm to human. 1252 40
ASPP2
interacts with the
tumor suppressor protein p53
, promotes damage-induced apoptosis, and can specifically stimulate
p53
apoptotic function. Thus,
ASPP2
may function as a tumor suppressor and/or play a role in the cellular response to cytotoxic injury. To explore the role of
ASPP2
in human cancer, we determined
ASPP2
expression in two lymphoma subtypes with differing clinical outcomes: diffuse large B-cell lymphoma (DLBCL) and follicular center lymphoma (FCL). A real-time reverse transcription-polymerase chain reaction (RT-PCR) assay was developed to detect
ASPP2
mRNA. Sixty-one DLBCL and twenty-three FCL cases were analyzed and normalized
ASPP2
levels were expressed relative to an mRNA standard. We found that
ASPP2
mean expression strongly correlated with lymphoma subtype: DLBCL = 11.74 and FCL = 4.99 (p = 0.029, unpaired 2-tailed t-test). Importantly,
ASPP2
expression was variable in DLBCL but not FCL (DLBCL-range, 0.04-94.6; FCL-range, 1.2-15.0). In these DLBCL cases, serum lactate dehydrogenase (LDH) was an independent predictor of survival with median survival in the high LDH group of 24 months and median survival not achieved in the normal-low LDH group (p = 0.014, Log-Rank Test). Mean
ASPP2
levels trended toward an inverse correlation with LDH levels: High LDH,
ASPP2
= 6.2; Normal-low LDH,
ASPP2
= 18.2 (p = 0.074, unpaired 2-tailed t-test). In the DLBCL cases with
ASPP2
levels > 7.8, only 10% (1/10) had a high LDH, in contrast to cases with
ASPP2
levels < 7.8 in which 59% (26/44) had a high LDH (p = 0.011, Fisher Exact Test). Thus, low
ASPP2
mRNA levels may correlate with poor clinical outcome in lymphoma which is consistent with the hypothesis that
ASPP2
may play a role in tumor formation and/or sensitivity to cytotoxic agents. Larger studies as well as analysis of different tumor types are warranted.
...
PMID:Apoptosis stimulating protein of p53 (ASPP2) expression differs in diffuse large B-cell and follicular center lymphoma: correlation with clinical outcome. 1261 17
It is well established that
p53
is a primary target for mutation in human cancer.
p53
carries out the important task of ensuring that damaged DNA is not passed on during cell division, a duty that it performs by either inhibiting the cell cycle or inducing apoptosis. However, it is unclear how this decision is made. The recent identification of the ASPP family of proteins, which act to direct the cell away from cell cycle arrest and towards death following
p53
upregulation, may explain how this dilemma is resolved. Furthermore, the observation that
ASPP2
is in fact the full length form of the previously identified
53BP2
/Bbp protein has clarified the ambiguous data that has been generated in relation to this molecule. The further characterisation of these proteins will enable us to gain further insights into the response of the cell to DNA damage and the progression of the cell towards malignancy.
...
PMID:The ASPP family: deciding between life and death after DNA damage. 1262 42
APP-BP1, first identified as a protein that interacts with the carboxyl (C) terminus of the amyloid precursor protein (APP), is one-half of the bipartite activating enzyme for the ubiquitin-like protein NEDD8. We report here that APP-BP1 also specifically interacts with apoptosis stimulating protein of
p53
ASPP2
in non-transfected cells through the functional predominant N-terminal domain
ASPP2
(332-483).
ASPP2
inhibits the ability of APP-BP1 to rescue the ts41 cell cycle mutation and inhibits APP-BP1 induced apoptosis in primary neurons.
ASPP2
reduces the ability of NEDD8 to conjugate to Cullin-1, inhibits APP-BP1-dependent ts41 cell proliferation, and blocks the ability of APP-BP1 to cause apoptosis and to cause DNA synthesis in neurons. We also show that
ASPP2
activates nuclear factor-kappaB (NF-kappaB) transcriptional activity, which seems to be inhibited by the neddylation pathway since the dominant negative NEDD8 activating enzyme causes enhanced NF-kappaB activity. Our data provide the first in vivo evidence that
ASPP2
is a negative regulator of the neddylation pathway through specific interaction with APP-BP1 and suggest that dysfunction of the APP-BP1 interaction with APP may be one cause of Alzheimer's disease.
...
PMID:ASPP2 inhibits APP-BP1-mediated NEDD8 conjugation to cullin-1 and decreases APP-BP1-induced cell proliferation and neuronal apoptosis. 1269 6
We recently showed that ASPP1 and
ASPP2
stimulate the apoptotic function of
p53
. We show here that ASPP1 and
ASPP2
also induce apoptosis independently of
p53
. By binding to p63 and p73 in vitro and in vivo, ASPP1 and
ASPP2
stimulate the transactivation function of p63 and p73 on the promoters of Bax, PIG3, and PUMA but not mdm2 or p21(WAF-1/CIP1). The expression of ASPP1 and
ASPP2
also enhances the apoptotic function of p63 and p73 by selectively inducing the expression of endogenous p53 target genes, such as PIG3 and PUMA, but not mdm2 or p21(WAF-1/CIP1). Removal of endogenous p63 or p73 with RNA interference demonstrated that (16) the
p53
-independent apoptotic function of ASPP1 and
ASPP2
is mediated mainly by p63 and p73. Hence, ASPP1 and
ASPP2
are the first two identified common activators of all
p53
family members. All these results suggest that ASPP1 and
ASPP2
could suppress tumor growth even in tumors expressing mutant p53.
...
PMID:ASPP1 and ASPP2: common activators of p53 family members. 1472 77
The p53 binding protein 2 (
53BP2
) has been initially identified as an interacting protein to
p53
and subsequent studies have shown that it also interacts with Bcl-2 and NF-kappaB p65 subunit. We have previously found that the TP53BP2 gene encoding
53BP2
protein is a single copy gene and has been mapped to the long arm of chromosome 1 at q42.1. The subsequent studies revealed that TP53BP2 encodes two proteins,
53BP2
and
ASPP2
, of 1005 and 1128 amino acids, respectively.
ASPP2
contains additional 123 amino acids to the N-terminus of
53BP2
. In this study, we have examined the genomic organization of TP53BP2 transcripts and found that it encodes two mRNA species, either with (
53BP2
) or without exon 3 (
ASPP2
), by alternative splicing in various cell lines and tissues. Thus, we propose to call these proteins as 53BP2S (short) and 53BP2L (long), respectively.
...
PMID:Expression of 53BP2 and ASPP2 proteins from TP53BP2 gene by alternative splicing. 1476 26
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