Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: UNIPROT:P04637 (
p53
)
77,613
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The E6AP ubiquitin ligase catalyzes the high-risk human papillomaviruses' E6-mediated ubiquitylation of
p53
, contributing to the neoplastic progression of cells infected by these viruses. Defects in the activity and the dosage of E6AP are linked to Angelman syndrome and to autism spectrum disorders, respectively, highlighting the need for precise control of the enzyme. With the exception of HERC2, which modulates the ubiquitin ligase activity of E6AP, little is known about the regulation or function of E6AP normally. Using a proteomic approach, we have identified and validated several new E6AP-interacting proteins, including HIF1AN,
NEURL4
, and mitogen-activated protein kinase 6 (MAPK6). E6AP exists as part of several different protein complexes, including the proteasome and an independent high-molecular-weight complex containing HERC2,
NEURL4
, and MAPK6. In examining the functional consequence of its interaction with the proteasome, we found that UBE3C (another proteasome-associated ubiquitin ligase), but not E6AP, contributes to proteasomal processivity in mammalian cells. We also found that E6 associates with the HERC2-containing high-molecular-weight complex through its binding to E6AP. These proteomic studies reveal a level of complexity for E6AP that has not been previously appreciated and identify a number of new cellular proteins through which E6AP may be regulated or functioning.
...
PMID:Identification and proteomic analysis of distinct UBE3A/E6AP protein complexes. 2264 13
p53
is a transcription factor that regulates important cellular processes related to tumor suppression, including induction of senescence, apoptosis, and DNA repair as well as the inhibition of angiogenesis and cell migration. Therefore, it is critical to understand the molecular mechanism that regulates it.
p53
tetramerization is a key step in its activation process and the regulation of this oligomerization, an important control point. The E3 ubiquitin ligase HERC2 controls the
p53
transcriptional activity by regulation of its oligomerization state. HERC2-interacting proteins such as the adaptor-like protein with six neuralized domains
NEURL4
are also candidates to regulate
p53
activity. Here, we demonstrate the existence of an interaction network between
NEURL4
, HERC2 and
p53
proteins. We report a functional interaction between
NEURL4
and
p53
, involving the C-terminal region of
p53
and the neuralized domains 3 and 4 of
NEURL4
. Through this interaction,
NEURL4
regulates the transcriptional activity of
p53
. Thus,
NEURL4
depletion reduced the transcriptional activity whereas
NEURL4
overexpression increased it. In both cases,
p53
stability was not affected. Although
NEURL4
may interact with
p53
independently of the E3 ubiquitin ligase HERC2, we observed that both proteins are needed to regulate the transcriptional activity of
p53
. Clonogenic assays confirmed the functional relevance of this interaction observing a decrease in cell growth by
NEURL4
overexpression correlated to the increase of cellular cycle inhibitor p21 by
p53
activation. Under these conditions,
NEURL4
activated
p53
oligomerization. All these findings identify
NEURL4
as a novel regulator of the
p53
's signaling.
...
PMID:NEURL4 regulates the transcriptional activity of tumor suppressor protein p53 by modulating its oligomerization. 2897 7
Perturbations in activity and dosage of the UBE3A ubiquitin-ligase have been linked to Angelman syndrome and autism spectrum disorders. UBE3A was initially identified as the cellular protein hijacked by the human papillomavirus E6 protein to mediate the ubiquitylation of
p53
, a function critical to the oncogenic potential of these viruses. Although a number of substrates have been identified, the normal cellular functions and pathways affected by UBE3A are largely unknown. Previously, we showed that UBE3A associates with HERC2,
NEURL4
, and MAPK6/ERK3 in a high-molecular-weight complex of unknown function that we refer to as the HUN complex (HERC2, UBE3A, and
NEURL4
). In this study, the combination of two complementary proteomic approaches with a rigorous network analysis revealed cellular functions and pathways in which UBE3A and the HUN complex are involved. In addition to finding new UBE3A-associated proteins, such as MCM6, SUGT1, EIF3C, and ASPP2, network analysis revealed that UBE3A-associated proteins are connected to several fundamental cellular processes including translation, DNA replication, intracellular trafficking, and centrosome regulation. Our analysis suggests that UBE3A could be involved in the control and/or integration of these cellular processes, in some cases as a component of the HUN complex, and also provides evidence for crosstalk between the HUN complex and CAMKII interaction networks. This study contributes to a deeper understanding of the cellular functions of UBE3A and its potential role in pathways that may be affected in Angelman syndrome, UBE3A-associated autism spectrum disorders, and human papillomavirus-associated cancers.
...
PMID:Network Analysis of UBE3A/E6AP-Associated Proteins Provides Connections to Several Distinct Cellular Processes. 2942 14
The
p53 tumor suppressor protein
is a transcription factor that plays a prominent role in protecting cells from malignant transformation. Protein levels of
p53
and its transcriptional activity are tightly regulated by the ubiquitin E3 ligase MDM2, the gene expression of which is transcriptionally regulated by
p53
in a negative feedback loop. The
p53 protein
is transcriptionally active as a tetramer, and this oligomerization state is modulated by a complex formed by
NEURL4
and the ubiquitin E3 ligase HERC2. Here, we report that MDM2 forms a complex with oligomeric
p53
, HERC2, and
NEURL4
. HERC2 knockdown results in a decline in MDM2 protein levels without affecting its protein stability, as it reduces its mRNA expression by inhibition of its promoter activation. DNA damage induced by bleomycin dissociates MDM2 from the
p53
/HERC2/
NEURL4
complex and increases the phosphorylation and acetylation of oligomeric
p53
bound to HERC2 and
NEURL4
. Moreover, the MDM2 promoter, which contains
p53
-response elements, competes with HERC2 for binding of oligomeric, phosphorylated and acetylated
p53
. We integrate these findings in a model showing the pivotal role of HERC2 in
p53
-MDM2 loop regulation. Altogether, these new insights in
p53
pathway regulation are of great interest in cancer and may provide new therapeutic targets.
...
PMID:Regulation of the MDM2-p53 pathway by the ubiquitin ligase HERC2. 3166 49
