Gene/Protein
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Drug
Enzyme
Compound
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Target Concepts:
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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Transcription of metallothionein genes is activated by heavy metals such as zinc and cadmium, and a DNA element called metal responsive element (MRE) is essential for this process. By mobility-shift assay, we identified a HeLa-cell nuclear protein which specifically binds to MREa of human metallothionein-IIA gene. This protein, named
ZRF
(zinc-regulatory factor), is present in the cells untreated with heavy metals. Zinc is essential for, and increases in a dose-dependent manner, the binding of
ZRF
to MREa. Other heavy metals which can also induce metallothioneins, including cadmium, copper and mercury, do not activate
ZRF
. A MREa-containing oligonucleotide that can bind
ZRF
confers heavy metal-inducibility to a heterologous promoter, suggesting that
ZRF
is a zinc-dependent
transcriptional activator
. In addition to the MRE core sequence, the surrounding sequences are also important for both
ZRF
binding in vitro, and zinc-dependent transcriptional activation in vivo. MREa by itself responds not only to zinc but also to other metallothionein-inducing heavy metals, indicating that the
ZRF
protein, not the MREa sequence, is responsible for the zinc specificity.
...
PMID:Zinc-specific activation of a HeLa cell nuclear protein which interacts with a metal responsive element of the human metallothionein-IIA gene. 145 36
Heavy metal-induced transcriptional activation of the genes coding for metallothionein (MT) is mediated by a cis-acting DNA element, the metal-responsive element (MRE).
MRE-binding transcription factor-1
(
MTF-1
) is a highly conserved heavy metal-induced
transcriptional activator
.
MTF-1
also activates transcription in response to oxidative stress and regulates the expression of several cytoprotective factor genes, including MT, gamma-glutamylcysteine synthetase, and Cu/Zn-superoxide dismutase. It is thus thought that
MTF-1
plays a role in cellular stress response. The physiological role of
MTF-1
remains unclear because of the lack of
MTF-1
-specific activators and/or inhibitors. To obtain an
MTF-1
-specific inhibitor, we constructed an MTFDeltaC (amino acids 1-317), a C-terminal deletion mutant of
MTF-1
. MTFDeltaC could bind MRE and competed with
MTF-1
for MTF-MRE complex formation. Transient expression of MTFDeltaC in HepG2 cells reduced MRE-driven gene expression, demonstrating that MTFDeltaC is dominant to
MTF-1
. HepG2 cells stably expressing MTFDeltaC showed increased susceptibility to the cytotoxic effects of tert-butyl hydroperoxide (tBH). Furthermore, we constructed Ad5MTFDeltaC, a recombinant adenovirus that expresses MTFDeltaC. Infection with the virus induced MTFDeltaC expression and increased susceptibility to the cytotoxic effects of tBH. These results indicate that
MTF-1
participates in controlling the cellular redox state.
...
PMID:C-terminal deletion mutant of MRE-binding transcription factor-1 inhibits MRE-driven gene expression. 1537 1
