Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: UNIPROT:P62988 (
Ubiquitin
)
4,326
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
polyubiquitin
gene
ubiquitin C
(
UBC
) is considered a stress protective gene and is upregulated under various stressful conditions, which is probably a consequence of an increased demand for ubiquitin in order to remove toxic misfolded proteins. We previously identified heat shock elements (HSEs) within the
UBC
promoter, which are responsible for heat shock factor (HSF)1-driven induction of the
UBC
gene and are activated by proteotoxic stress. Here, we determined the molecular players driving the
UBC
gene transcriptional response to arsenite treatment, mainly addressing the role of the nuclear factor-erythroid 2-related factor 2 (Nrf2)-mediated antioxidant pathway. Exposure of HeLa cells to arsenite caused a time-dependent increase of
UBC
mRNA, while cell viability and proteasome activity were not affected. Nuclear accumulation of HSF1 and Nrf2 transcription factors was detected upon both arsenite and MG132 treatment, while HSF2 nuclear levels increased in MG132-treated cells. Notably, siRNA-mediated knockdown of Nrf2 did not reduce
UBC
transcription under either basal or stressful conditions, but significantly impaired the constitutive and inducible expression of well-known antioxidant response element-dependent genes. A chromatin immunoprecipitation assay consistently failed to detect Nrf2 binding to the
UBC
promoter sequence. By contrast, depletion of HSF1, but not HSF2, significantly compromised stress-induced
UBC
expression. Critically, HSF1-mediated
UBC
trans
-activation upon arsenite exposure relies on transcription factor binding to previously mapped distal HSEs, as demonstrated to occur under proteasome inhibition. These data highlight HSF1 as the pivotal transcription factor that translates different stress signals into
UBC
gene transcriptional induction.
...
PMID:Induction of
ubiquitin C
(
UBC
) gene transcription is mediated by HSF1: role of proteotoxic and oxidative stress. 3018 48
Ubiquitin
is required under both normal and stress conditions. Under stress conditions, upregulation of the
polyubiquitin
gene
UBC
is essential to meet the requirement of increased ubiquitin levels to confer stress resistance. However,
UBC
upregulation is usually observed only under stress conditions and not under normal conditions. Therefore, it has not been possible to upregulate
UBC
under normal conditions to study the effect of excess ubiquitin on cellular machinery. Recently, the CRISPR/Cas9 system has been widely used in biological research as a useful tool to study gene disruption effects. In this study, using an inducible CRISPR/Cas9 variant, a dCas9-VP64 fusion protein, combined with a single guide RNA (sgRNA) containing MS2 aptamer loops and MS2-p65-HSF1, we developed a system to increase the ubiquitin pool via upregulation of
UBC
. Although it is challenging to upregulate the expression of a gene that is already expressed at high levels, the significance of our system is that
UBC
upregulation can be induced in an efficient, reversible manner that is compatible with cellular processes, even under normal conditions. This system can be used to study ubiquitin pool dynamics and it will be a useful tool in identifying the role of ubiquitin under normal and stress conditions.
...
PMID:Reversible Regulation of Polyubiquitin Gene
UBC
via Modified Inducible CRISPR/Cas9 System. 3126 19
Ubiquitin
-specific protease 22 (USP22) expresses highly in lung adenocarcinoma (LUAD), which are associated with poor overall survival (OS). Microarray processing was performed to determine gene expression profiling, in which it was found that knocking down USP22 resulted in abnormal expression of a large number of genes. Differentially expressed genes (DEGs)-based protein-protein interaction (PPI) network was organized into 9 functional modules. These functional modules participated significantly in protein modification-related biological process and were involved in cancer-related pathways. The network was constructed to describe the global regulation of USP22-TF/pivot-module-pathway. It suggested that knocking down USP22 may up-regulate the expression of
UBC
to promote the pathways of cell cycle and ubiquitin-mediated proteolysis in the development of LUAD. More than that, knocking down USP22 can up-regulate STAT1 to activate JAK1-STAT1-caspase pathway, and promote apoptosis of tumor cell. Receiver operating characteristic (ROC) curve analysis suggested that E2F3, H2AFX, TFAP2A, PITX1, IRF7, and FOXM1 may be the potential diagnosis biomarkers for LUAD. On the other hand, BRCA1, FOXM1 and TFAP2A may be prognostic biomarkers of LUAD. In conclusion, we constructed a global regulation network to show that USP22 may promote the development of LUAD through ubiquitination and immunosuppression.
...
PMID:USP22 promotes development of lung adenocarcinoma through ubiquitination and immunosuppression. 3229 25
The ubiquitin (Ub) proteasome system is important for maintaining protein homeostasis and has various roles in cell signaling, proliferation, and cell cycle regulation. In mammals, Ub is encoded by two monoubiquitin and two
polyubiquitin
genes. Although reduced levels of Ub due to the disruption of one
polyubiquitin
gene are known to decrease cell proliferation, the effect of disrupting both
polyubiquitin
genes remains elusive. Polyubiquitin gene Ubc knockout mice are embryonically lethal and
polyubiquitin
gene Ubb knockout mice are infertile. Thus, it is difficult to study the effects of double knockouts (DKOs). In the present study, the CRISPR/Cas9 system was used to simultaneously knockout both
polyubiquitin
genes, UBB and
UBC
, in HEK293T and HeLa cells. In DKO cells, growth decreased significantly compared to the control cells. We observed reduced proteasome function and reduced levels of free Ub in DKO cells. However, the levels of purified proteasome were not different between control and DKO cells, although the mRNA levels of proteasomal subunits were significantly increased in latter. We propose that the reduction of Ub levels, by disruption of both
polyubiquitin
genes, resulted in an altered proteasomal status, leading to the reduced proteasome activity, and decreased cellular proliferation.
...
PMID:Simultaneous Disruption of Both Polyubiquitin Genes Affects Proteasome Function and Decreases Cellular Proliferation. 3270 36
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