UNIPROT:P04637 - FACTA Search

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The p53 tumour suppressor is regulated mainly by Mdm2, an E3 ubiquitin ligase that promotes the ubiquitylation and proteasome-mediated degradation of p53. Many agents that induce p53 are inhibitors of transcription, suggesting that the p53 pathway can detect a signal(s) arising from transcriptional malfunction. Mdm2 associates with TAFII250, a component of the general transcription factor TFIID. Inactivation of TAFII250 in ts13 cells, which express a temperature-sensitive mutant of TAFII250, leads to the induction of p53 and cell cycle arrest. In the present study, we show that TAFII250 stimulates the ubiquitylation and degradation of p53 in a manner that is dependent upon Mdm2 and requires its acidic domain. Mechanistically, TAFII250 downregulates Mdm2 auto-ubiquitylation, leading to Mdm2 stabilization, and promotes p53-Mdm2 association through a recently defined second binding site in the acidic domain of Mdm2. These data provide a novel route through which TAFII250 can directly influence p53 levels and are consistent with the idea that the maintenance of p53 turnover is coupled to the integrity of RNA polymerase II transcription.
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PMID:Transcription factor TAFII250 promotes Mdm2-dependent turnover of p53. 1723 21

Mdm2 is an E3 ubiquitin ligase that promotes its own ubiquitination and also ubiquitination of the p53 tumour suppressor. In a bacterial two-hybrid screen, using Mdm2 as bait, we identified an Mdm2-interacting peptide that bears sequence similarity to the deubiquitinating enzyme USP2a. We have established that full-length USP2a associates with Mdm2 in cells where it can deubiquitinate Mdm2 while demonstrating no deubiquitinating activity towards p53. Ectopic expression of USP2a causes accumulation of Mdm2 in a dose-dependent manner and consequently promotes Mdm2-mediated p53 degradation. This differs from the behaviour of HAUSP, which deubiquitinates p53 in addition to Mdm2 and thus protects p53 from Mdm2-mediated degradation. We further demonstrate that suppression of endogenous USP2a destabilises Mdm2 and causes accumulation of p53 protein and activation of p53. Our data identify the deubiquitinating enzyme USP2a as a novel regulator of the p53 pathway that acts through its ability to selectively target Mdm2.
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PMID:The deubiquitinating enzyme USP2a regulates the p53 pathway by targeting Mdm2. 1729 Feb 20

Sequence-specific single-stranded DNA-binding protein 2 (SSBP2) is a candidate tumor suppressor for human acute myelogenous leukemia (AML). Inducible expression of SSBP2 causes growth arrest and partial differentiation in AML cells. Here, we report that the adenoviral oncoprotein E1B55K directly binds to endogenous SSBP2 protein and sequesters it into juxtanuclear bodies in adenovirally transformed human embryonic kidney (HEK) 293 cells. Similarly, transient expression of E1B55K in IMR90 fibroblasts and HeLa cells result in the formation of juxtanuclear bodies containing SSBP2. When nuclear export of E1B55K is prevented, SSBP2 remains associated with E1B55K in nuclear foci. A requirement for intact microtubules to retain the integrity of the juxtanuclear bodies suggests them to be E1B55K containing aggresomes. The adenoviral E1B55K protein has been shown to localize to the Mre11 complex and p53 to aggresome structures; together with the viral E4orf6 protein, E1B55K recruits a cellular E3 ubiquitin ligase that induces degradation of Mre11 and p53. However, our present studies reveal that E1B55K does not degrade SSBP2. These data demonstrate that E1B55K targets the candidate leukemia suppressor SSBP2 and suggest that subverting its function may contribute to cell transformation by viral oncoproteins.
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PMID:Adenoviral E1B55K oncoprotein sequesters candidate leukemia suppressor sequence-specific single-stranded DNA-binding protein 2 into aggresomes. 1731 Oct 3

CUL7 and the p53-associated, PARkin-like cytoplasmic protein (PARC) were previously reported to form homodimers and heterodimers, the first demonstration of cullin dimerization. Although a CUL7-based SKP1/CUL1/F-box (SCF)-like complex has been observed, little is known about the existence of a PARC-based SCF-like complex and how PARC interacts with CUL7-based complexes. To further characterize PARC-containing complexes, we examined the ability of PARC to form an SCF-like complex. PARC binds RBX1 and is covalently modified by NEDD8, defining PARC as a true cullin. However, PARC fails to bind SKP1 or F-box proteins, including the CUL7-associated FBXW8. To examine the assembly of PARC- and CUL7-containing complexes, tandem affinity purification followed by multidimensional protein identification technology were used. Multidimensional protein identification technology analysis revealed that the CUL7 interaction with FBXW8 was mutually exclusive of CUL7 binding to PARC or p53. Notably, although heterodimers of CUL7 and PARC bind p53, p53 is not required for the dimerization of CUL7 and PARC. The observed physical separation of FBXW8 and PARC is supported functionally by the generation of Parc-/-, Fbxw8-/- mice, which do not show exacerbation of the Fbxw8-/- phenotype. Finally, all of the PARC and CUL7 subcomplexes examined exhibit E3 ubiquitin ligase activity in vitro. Together, these findings indicate that the intricate assembly of PARC- and CUL7-containing complexes is highly regulated, and multiple subcomplexes may exhibit ubiquitin ligase activity.
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PMID:PARC and CUL7 form atypical cullin RING ligase complexes. 1733 28

The adenovirus protein E4orf6 targets p53 for polyubiquitination and proteasomal degradation and is known to form a complex with the Cul5-ElonginB-ElonginC E3 ubiquitin ligase. However, whether Cul5 is directly responsible for the E4orf6-mediated degradation of p53 remains unclear. By using a dominant-negative mutant of Cul5 and silencing Cul5 expression through RNA interference, we have now demonstrated that E4orf6-mediated p53 degradation requires Cul5. Furthermore, we have identified a lentiviral Vif-like BC-box motif in E4orf6 that is highly conserved among adenoviruses from multiple species. More importantly, we have shown that this Vif-like BC-box is essential for the recruitment of Cul5-ElonginB-ElonginC E3 ubiquitin ligase by E4orf6 and is also required for E4orf6-mediated p53 degradation. E4orf6 selectively recruited Cul5 despite the lack of either a Cul5-box, which is used by cellular substrate receptors to recruit Cul5, or a newly identified HCCH zinc-binding motif, which is used by primate lentiviral Vif to recruit Cul5. Therefore, adenovirus E4orf6 molecules represent a novel family of viral BC-box proteins the cellular ancestor of which is as yet unknown.
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PMID:Adenovirus E4orf6 assembles with Cullin5-ElonginB-ElonginC E3 ubiquitin ligase through an HIV/SIV Vif-like BC-box to regulate p53. 1735 Nov 29

The human adenovirus E4orf6 and E1B55K proteins are part of an E3 ubiquitin ligase complex that degrades p53, Mre11 and probably other cellular polypeptides. Our group has demonstrated previously that this complex contains Cul5, Rbx1 and Elongin B and C and is formed through interactions of these cellular proteins with E4orf6. Although this E4orf6 complex is similar in many ways to the cellular SCF and VBC E3 ligase complexes, our previous work indicated that unlike all known Cullin-containing complexes, E4orf6 contains two functional BC-box motifs that permit interactions with Elongin B and C. Here we show that a third BC-box exists that also appears to be fully functional. In addition, we attempted to identify a region in E4orf6 responsible for the specific selection of Cul5, which we show herein by knocking down Cul5 protein levels, is essential for p53 degradation. One sequence within E4orf6 shares limited homology with the 'Cul5 box motif', a recently identified sequence found to be responsible for selection of Cul5 in some cellular Cullin-containing E3 ligase complexes; however, genetic analysis indicated that this motif is not involved in Cullin binding or p53 degradation. Thus E4orf6 appears to utilize a different mechanism for Cul5 selection, and, both in terms of interactions with Elongin B and C and with Cul5, assembles the E3 ligase complex in a highly novel fashion.
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PMID:The adenovirus E4orf6 E3 ubiquitin ligase complex assembles in a novel fashion. 1736 36

In this study, we attempt to gain insights into the molecular mechanism underlying MDM2-mediated TGF-beta resistance. MDM2 renders cells refractory to TGF-beta by overcoming a TGF-beta-induced G1 cell cycle arrest. Because the TGF-beta resistant phenotype is reversible upon removal of MDM2, MDM2 likely confers TGF-beta resistance by directly targeting the cellular machinery involved in the growth inhibition by TGF-beta. Investigation of the structure-function relationship of MDM2 reveals three elements essential for MDM2 to confer TGF-beta resistance in both mink lung epithelial cells and human mammary epithelial cells. One of these elements is the C-terminal half of the p53-binding domain, which at least partially retained p53-binding and inhibitory activity. Second, the ability of MDM2 to mediate TGF-beta resistance is disrupted by mutation of the nuclear localization signal, but is restored upon coexpression of MDMX. Finally, mutations of the zinc coordination residues of the RING finger domain abrogates TGF-beta resistance, but not the ability of MDM2 to inhibit p53 activity or to bind MDMX. These data suggest that RING finger-mediated p53 inhibition and MDMX interaction are not sufficient to cause TGF-beta resistance and imply a crucial role of the E3 ubiquitin ligase activity of this domain in MDM2-mediated TGF-beta resistance.
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PMID:The RING finger domain of MDM2 is essential for MDM2-mediated TGF-beta resistance. 1742 71

Porcine circovirus type 2 (PCV2) is the primary causative agent of an emerging swine disease, postweaning multisystemic wasting syndrome. We previously showed that a newly identified protein, ORF3, plays a major role in virus-induced apoptosis and is involved in viral pathogenesis in vitro and in vivo. To characterize the role of the ORF3 protein in modulation of cellular function, a yeast two-hybrid system was used to screen a porcine cDNA library to find its interacting partner. We have isolated and characterized pPirh2 (for "porcine p53-induced RING-H2"), an E3 ubiquitin ligase, which specifically interacts with the ORF3 protein of PCV2. This interaction was further confirmed when the ORF3 protein coimmunoprecipitated with and colocalized to pPirh2 in PK15 cells. The ORF3 protein has been found to interact with the p53 binding domain of pPirh2 in yeast cells. Expression of the protein results in less pPirh2 expression in PCV2-infected cells. Furthermore, increases in p53 expression were observed in PCV2-infected and ORF3 (alone)-transfected cells. Phosphorylation of p53 at Ser-46, which is related to p53-induced apoptosis, was also time-dependently activated in PCV-infected and ORF3-transfected cells. Taken together, our results show that the PCV2 ORF3 protein specifically interacts with pPirh2 and inhibits its stabilization; this may lead to increasing p53 expression, resulting in apoptosis.
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PMID:The ORF3 protein of porcine circovirus type 2 interacts with porcine ubiquitin E3 ligase Pirh2 and facilitates p53 expression in viral infection. 1758 98

Endopalsmic reticulum (ER) is specialized organelle to maintain the integrity of secreted and membranous proteins. ER also senses so-called "ER stress", which is a result of various internal and external stresses, and triggers apoptosis when the diverse attempts to accommodate with the stress are in fail. The impairment these ER functions has been implicated in several human diseases, in which aberrant ER stress induced apoptosis is observed. We discuss about another disease model related with ER mediated apoptosis based on the recent studies about Synoviolin, an E3 ubiquitin ligase inherently utilized for ER associated degradation (ERAD). In addition to its canonical role in ERAD, Synoviolin targets tumor suppressor gene p53 for proteasomal degradation, suggesting the crosstalk between ERAD and p53 mediated apoptotic pathway under ER stress. Together with the anti-apoptotic property of Synoviolin previously elucidated by both in vitro and in vivo analyses, its new function in p53 regulation may provide a new insight into the pathomechanism of proliferative diseases such as cancer or rheumatoid arthritis.
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PMID:The roles of synoviolin in crosstalk between endoplasmic reticulum stress-induced apoptosis and p53 pathway. 1758 19

Human papillomaviruses (HPV) are believed to be the primary causal agents for development of pre-neoplastic and malignant lesions of the uterine cervix, and high-risk types such as type 16 and 18 are associated with more than 90% of all cervical carcinomas. The E6 and E7 genes of HPV are thought to play causative roles, since E6 promotes the degradation of p53 through its interaction with E6AP, an E3 ubiquitin ligase, whereas E7 binds to the retinoblastoma protein (pRb) and disrupts its complex formation with E2F transcription factors. Although prophylactic vaccines have become available, it is still necessary to clarify the mechanisms of HPV-induced carcinogenesis because of the widespread nature of HPV infection. Approximately 493,000 new cases of cervical cancer are diagnosed each year with approximately 274,000 mortalities due to invasive cervical cancer. In the present article, the mechanisms of HPV16 E6- and E7-induced multistep carcinogenesis and recently identified functions of these onco-proteins are reviewed.
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PMID:Basic mechanisms of high-risk human papillomavirus-induced carcinogenesis: roles of E6 and E7 proteins. 1764 77

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