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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
p53
pathway is a central mediator of the apoptotic response.
ASPP2
/(53BP2L) (apoptosis-stimulating protein of
p53
2, also known as 53BP2L) enhances apoptosis through selective stimulation of
p53
transactivation of proapoptotic target genes. Although the Rb/E2F pathway regulates
ASPP2
/(53BP2L) transcription, the complex mechanisms controlling
ASPP2
/(53BP2L) levels and function remain unknown. We now report that proteasomal degradation modulates
ASPP2
/(53BP2L) protein levels and apoptotic function. Treatment of cells with proteasomal inhibitors, including the clinically utilized proteasomal inhibitor bortezomib, increases
ASPP2
/(53BP2L) protein but not RNA levels. Likewise, anthracycline-based chemotherapy, which has multiple mechanisms of action, including proteasomal inhibition, increases
ASPP2
/(53BP2L) protein but not RNA levels. Proteasomal inhibition or anthracycline treatment increases
ASPP2
/(53BP2L) protein stability and half-life. Furthermore, the central region of the
ASPP2
/(53BP2L) protein is ubiquitinated as would be expected for a proteasomal substrate. More importantly, small interfering RNA knockdown of
ASPP2
/(53BP2L) levels attenuated bortezomib-induced apoptosis, and this effect was greater in wild-type
p53
cells. Because elevated levels of
ASPP2
/(53BP2L) are proapoptotic, these results described an important new molecular mechanism that modulates the
p53
-
ASPP2
/(53BP2L) apoptotic pathway.
...
PMID:Control of ASPP2/(53BP2L) protein levels by proteasomal degradation modulates p53 apoptotic function. 1609 63
The p53 binding protein 2 (
53BP2
) has been identified independently as the interacting protein to
p53
, Bcl-2, and p65 subunit of nuclear factor kappaB (NF-kappaB). It was demonstrated that over-expression of
53BP2
(renamed as 53BP2S) induces apoptotic cell death. In this study we explored the effect of NF-kappaB activation elicited by a physiological NF-kappaB inducer, interleukin-1beta (IL-1beta), and anti-apoptotic Bcl-2 family proteins on the 53BP2S-mediated apoptosis. We found that both NF-kappaB activation and Bcl-2 family proteins could prevent the 53BP2S-mediated depression of mitochondrial transmembrane potential, activation of caspase-9, cleavage of poly ADP ribose polymerase (PARP), and cell death. These observations suggested that 53BP2S/Bbp and its directly or indirectly interacting proteins might play crucial roles in the regulation of apoptosis and contribute to carcinogenesis. It is also suggested that 53BP2S/Bbp induces apoptosis through the mitochondrial death pathway presumably by counteracting the actions of anti-apoptotic Bcl-2 family proteins. The regulatory network of the 53BP2S-mediated apoptosis cascade including its interacting proteins is discussed.
...
PMID:Inhibition of the 53BP2S-mediated apoptosis by nuclear factor kappaB and Bcl-2 family proteins. 1609 44
Dynamic molecular interaction networks underlie biological phenomena. Among the many genes which are involved,
p53
plays a central role in networks controlling cellular life and death. It not only operates as a tumor suppressor, but also helps regulate hundreds of genes in response to various types of stress. To accomplish these functions as a guardian of the genome,
p53
interacts extensively with both nucleic acids and proteins. This paper examines the physical interfaces of the
p53 protein
with cellular proteins. Previously, in the analysis of the structures of protein-protein complexes, we have observed that amino acids Trp, Met and Phe are important for protein-protein interactions in general. Here we show that these residues are critical for the many functions of
p53
. Several clusters of the Trp/Met/Phe residues are involved in the
p53 protein
-protein interactions. Phe19/Trp23 in the TA1 region extensively binds to the transcriptional factors and the MDM2 protein. Trp53/Phe54 in the TA2 region is crucial for transactivation and DNA replication. Met243 in the core domain interacts with 53BP1,
53BP2
and Rad 51 proteins. Met384/Phe385 in the C-terminal region interacts with the S100B protein and the Bromodomain of the CBP protein. Thus, these residues may assist in elucidating the
p53
interactions when structural data are not available.
...
PMID:The contribution of the Trp/Met/Phe residues to physical interactions of p53 with cellular proteins. 1620 49
ASPP2
stimulates the apoptotic function of the
p53
family in vivo. We show here that
ASPP2
-/- pups died before weaning. This postnatal lethality was significantly enhanced in p53+/- background and both deletions are synthetic lethal. ASPP2+/- mice developed spontaneous tumors. The tumor onset was accelerated by gamma-irradiation or in p53+/- background. Tumors derived from ASPP2+/- mice retained wild-type
ASPP2
allele even though some of them lost
p53
. These provide the first genetic evidence that
ASPP2
is a haploinsufficient tumor suppressor that shares overlapping function(s) with
p53
in mouse development and tumor suppression.
...
PMID:ASPP2 is a haploinsufficient tumor suppressor that cooperates with p53 to suppress tumor growth. 1670 1
The
tumor suppressor p53
is frequently mutated in human cancers. Upon activation it can induce cell cycle arrest or apoptosis.
ASPP2
can specifically stimulate the apoptotic function of
p53
but not cell cycle arrest, but the mechanism of enhancing the activation of pro-apoptotic genes over cell cycle arrest genes remains unknown. In this study, we analyzed the binding of
53BP2
(p53-binding protein 2, the C-terminal domain of
ASPP2
) to
p53
core domain and various mutants using biophysical techniques. We found that several
p53
core domain mutations (R181E, G245S, R249S, R273H) have different effects on the binding of DNA response elements and
53BP2
. Further, we investigated the existence of a ternary complex consisting of
53BP2
,
p53
, and DNA response elements to gain insight into the specific pro-apoptotic activation of
p53
. We found that binding of
53BP2
and DNA to
p53
is mutually exclusive in the case of GADD45, p21, Bax, and PIG3. Both pro-apoptotic and non-apoptotic response elements were competed off
p53
by
53BP2
with no indication of a ternary complex.
...
PMID:Effects of oncogenic mutations and DNA response elements on the binding of p53 to p53-binding protein 2 (53BP2). 1688 12
iASPP is one of the most evolutionarily conserved inhibitors of
p53
, whereas ASPP1 and
ASPP2
are activators of
p53
. We show here that, in addition to the DNA-binding domain, the ASPP family members also bind to the proline-rich region of
p53
, which contains the most common
p53
polymorphism at codon 72. Furthermore, the ASPP family members, particularly iASPP, bind to and regulate the activity of p53Pro72 more efficiently than that of p53Arg72. Hence, escape from negative regulation by iASPP is a newly identified mechanism by which p53Arg72 activates apoptosis more efficiently than p53Pro72.
...
PMID:iASPP preferentially binds p53 proline-rich region and modulates apoptotic function of codon 72-polymorphic p53. 1696 64
The fundamental role of apoptosis in tumor prevention and the important role of
p53
in this process are now universally recognized. Recently, several families of
p53
-binding proteins have been shown to influence
p53
's decision to direct the cells either into the apoptotic pathway or in cell cycle arrest. Among them, the ASPP family specifically regulate
p53
-dependent apoptosis. Its member
ASPP2
was discovered more than 10 years ago as a binding partner of
p53
and its role as a positive regulator of
p53
mediated apoptosis has been clearly established in vitro. However, its physiological importance in vivo has just emerged through the generation and characterisation of the
ASPP2
-deficient mice. We now know that
ASPP2
is a haploinsufficient tumor suppressor and an important activator of
p53
during mouse development and tumor suppression in vivo.
ASPP2
might be a novel target for future cancer therapy.
...
PMID:ASPP2: a gene that controls life and death in vivo. 1696 8
The apoptosis stimulating proteins of
p53
(ASPP) family consists of three members, ASPP1,
ASPP2
and iASPP. They bind to proteins that are key players in controlling apoptosis (
p53
, Bcl-2 and RelA/p65) and cell growth (APCL, PP1). So far, the best-known function of the ASPP family members is their ability to regulate the apoptotic function of
p53
and its family members, p63 and p73. Biochemical and genetic evidence has shown that ASPP1 and
ASPP2
activate, whereas iASPP inhibits, the apoptotic but not the cell-cycle arrest function of
p53
. The
p53
tumour suppressor gene, one of the most frequently mutated genes in human cancer, is capable of suppressing tumour growth through its ability to induce apoptosis or cell-cycle arrest. Thus, the ASPP family of proteins helps to determine how cells choose to die and may therefore be a novel target for cancer therapy.
...
PMID:ASPP: a new family of oncogenes and tumour suppressor genes. 1721 78
Proteins of the ASPP family bind to
p53
and regulate
p53
-mediated apoptosis. Two family members, ASPP1 and
ASPP2
, have pro-apoptotic functions while iASPP shows anti-apoptotic responses. However, both the mechanism of enhancement/repression of apoptosis and the molecular basis for their different responses remain unknown. To address the role of the N-termini of pro-apoptotic ASPP proteins, we solved the solution structure of N-
ASPP2
(1-83) by NMR spectroscopy. The structure of this domain reveals a beta-Grasp ubiquitin-like fold. Our findings suggest a possible role for the N-termini of ASPP proteins in binding to other proteins in the apoptotic response network and thus mediating their selective pro-apoptotic function.
...
PMID:Solution structure of ASPP2 N-terminal domain (N-ASPP2) reveals a ubiquitin-like fold. 1759 8
ASPP (apoptosis-stimulating protein of
p53
) 2 is a pro-apoptotic protein that stimulates the
p53
-mediated apoptotic response. Here, we provide an overview of the structure and protein-protein interactions of
ASPP2
. The C-terminus of
ASPP2
contains Ank (ankyrin) repeats and an SH3 domain (Src homology 3 domain). The Ank-SH3 domains mediate interactions between
ASPP2
and numerous proteins involved in apoptosis such as
p53
and Bcl-2. The proline-rich domain of
ASPP2
is unfolded in its native state, but was not shown to mediate intermolecular interactions. Instead, it makes an intramolecular domain-domain interaction with the Ank-SH3 C-terminal domains of
ASPP2
. This intramolecular interaction between the unstructured proline-rich domain and the structured Ank-SH3 domains in
ASPP2
, which is possible due to the unfolded nature of the proline-rich domain, is proposed to have an important role in regulating the intermolecular interactions of
ASPP2
with its partner proteins.
...
PMID:Insights into the structure and protein-protein interactions of the pro-apoptotic protein ASPP2. 1795 56
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