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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Simian virus 40 large T antigen (T Ag) is capable of immortalizing and transforming rodent cells. The transforming activity of T Ag is due in large part to perturbation of the tumor suppressor proteins
p53
and the retinoblastoma (pRB) family members. Inactivation of these tumor suppressors may not be sufficient for T Ag-mediated cellular transformation. It has been shown that T Ag associates with an SCF-like complex that contains a member of the cullin family of E3 ubiquitin ligases, CUL7, as well as SKP1, RBX1, and an F-box protein,
FBXW8
. We identified T Ag residues 69 to 83 as required for T Ag binding to the CUL7 complex. We demonstrate that delta69-83 T Ag, while it lost its ability to associate with CUL7, retained binding to
p53
and pRB family members. In the presence of CUL7, wild-type (WT) T Ag but not delta69-83 T Ag was able to induce proliferation of mouse embryo fibroblasts, an indication of cellular transformation. In contrast, WT and delta69-83 T Ag enabled mouse embryo fibroblasts to proliferate to similarly high densities in the absence of CUL7. Our data suggest that, in addition to
p53
and the pRB family members, T Ag serves to bind to and inactivate the growth-suppressing properties of CUL7. In addition, these results imply that, at least in the presence of T Ag, CUL7 may function as a tumor suppressor.
...
PMID:Simian virus 40 large T antigen's association with the CUL7 SCF complex contributes to cellular transformation. 1614 Jul 46
CUL7 is a member of the cullin RING ligase family and forms an SCF-like complex with SKP1 and
FBXW8
. CUL7 is required for normal mouse embryonic development and cellular proliferation, and is highly homologous to PARC, a
p53
-associated, parkin-like cytoplasmic protein. We determined that CUL7, in a manner similar to PARC, can bind directly to
p53
but does not affect
p53
expression. We identified a discrete, co-linear domain in CUL7 that is conserved in PARC and HERC2, and is necessary and sufficient for
p53
-binding. The presence of
p53
stabilized expression of this domain and we demonstrate that this
p53
-binding domain of CUL7 contributes to the cytoplasmic localization of CUL7. The results support the model that
p53
plays a role in regulation of CUL7 activity.
...
PMID:A novel p53-binding domain in CUL7. 1687 76
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.
...
PMID:PARC and CUL7 form atypical cullin RING ligase complexes. 1733 28
The
p53 tumor suppressor
gene encodes a transcription factor, which is translationally and posttranslationally activated after DNA damage. In a proteomic screen for
p53
interactors, we found that the cullin protein Cul7 efficiently associates with
p53
. After DNA damage, the level of Cul7 protein increased in a caffeine-sensitive, but
p53
-independent, manner. Down-regulation of Cul7 by conditional microRNA expression augmented
p53
-mediated inhibition of cell cycle progression. Ectopic expression of Cul7 inhibited activation of
p53
by DNA damaging agents and sensitized cells to adriamycin. Although Cul7 recruited the
F-box protein FBX29
to
p53
, the combined expression of Cul7/FBX29 did not promote ubiquitination and degradation of
p53
in vivo. Therefore, the inhibition of
p53
activity by Cul7 is presumably mediated by alternative mechanisms. The interplay between
p53
and Cul7 resembles the negative feedback loop described for
p53
and Mdm2. Pharmacological modulation of Cul7 function may allow the sensitization of cancer cells expressing wild-type
p53
to genotoxic agents used in cancer therapy.
...
PMID:Induction of cullin 7 by DNA damage attenuates p53 function. 1758 86
Radiation-induced normal tissue toxicity often limits the curative treatment of cancer. Moreover, normal tissue relative biological effectiveness data for high-linear energy transfer particles are urgently needed. We propose a strategy based on transcriptome analysis of patient-derived human intestinal organoids (HIO) to determine molecular surrogates for radioresponse of gastrointestinal (GI) organs at risk in a personalized manner. HIO were generated from induced pluripotent stem cells (iPSC), which were derived from skin biopsies of three patients, including two patients with FANCA deficiency as a paradigm for enhanced radiosensitivity. For the two Fanconi anemia (FA) patients (HIO-104 and 106, previously published as FA-A#1 IND-iPS1 and FA-A#2 IND-iPS3), FANCA expression was reconstituted as a prerequisite for generation of HIO via lentiviral expression of a doxycycline inducible construct. For radiosensitivity analysis, FANCA deficient and FANCA rescued as well as wtHIO were sham treated or irradiated with 4Gy photon, proton or carbon ions at HIT, respectively. Immunofluorescence staining of HIO for 53BP1-foci was performed 1 h post IR and gene expression analyses was performed 12 and 48 h post IR. 53BP1-foci numbers and size correlated with the higher RBE of carbon ions. A FANCA dependent differential gene expression in response to radiation was found (
p
< 0.01, ANOVA; n = 1071 12 h; n = 1100 48 h). Pathways associated with FA and DNA-damage repair i.e., transcriptional coupled nucleotide excision repair, homology-directed repair and translational synthesis were found to be differentially regulated in FANCA deficient HIO. Next, differential regulated genes were investigated as a function of radiation quality (RQ,
p
< 0.05, ANOVA; n = 742 12 h; n = 553 48 h). Interestingly, a gradual increase or decrease of gene expression was found to correlate with the three main qualities, from photon to proton and carbon irradiation. Clustering separated high-linear energy transfer irradiation with carbons from proton and photon irradiation. Genes associated with dual incision steps of TC-NER were differentially regulated in photon vs. proton and carbon irradiation. Consequently, SUMO3, ALC1, POLE4, PCBP4, MUTYH expression correlated with the higher RBE of carbon ions. An interaction between the two studied parameters FA and RQ was identified (
p
< 0.01, 2-way ANOVA n = 476). A comparison of genes regulated as a function of FA, RQ and RBE suggest a role for
p53
interacting genes BRD7, EWSR1, FBXO11,
FBXW8
, HMGB1, MAGED2, PCBP4, and RPS27 as modulators of FA in response to radiation. This proof of concept study demonstrates that patient tailored evaluation of GI response to radiation is feasible via generation of HIO and comparative transcriptome profiling. This methodology can now be further explored for a personalized assessment of GI radiosensitivity and RBE estimation.
...
PMID:Personalized Assessment of Normal Tissue Radiosensitivity via Transcriptome Response to Photon, Proton and Carbon Irradiation in Patient-Derived Human Intestinal Organoids. 3208 39
