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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We demonstrate that the hormone-binding domain (HBD) of the human estrogen receptor (ER) can function as an autonomous regulatory domain in the budding yeast, Saccharomyces cerevisiae. As in mammalian cells, the HBD can subject the activity of a heterologous protein, which is fused to it, to hormonal control. Thus, a chimeric
transcriptional activator
consisting of (i) the DNA-binding domain of GAL4, (ii) the ER HBD, and (iii) the activation domain of viral protein 16 (VP16) stimulates both episomal and integrated reporter genes exclusively in the presence of steroid hormone.
Steroids
being gratuitous signals for yeast, this fusion protein is a convenient tool for highly regulated production of proteins of interest. Notably, it can be exploited to activate the commonly used galactose-inducible expression vectors without switching the carbon source.
...
PMID:Fusion of GAL4-VP16 to a steroid-binding domain provides a tool for gratuitous induction of galactose-responsive genes in yeast. 837 May 33
4Alpha-(2-propenyl)-5alpha-cholestan-3alpha-ol (LY295427) was previously identified from a Chinese hamster ovary (CHO) cell-based low density lipoprotein receptor/luciferase (LDLR/Luc) assay to be a potent
transcriptional activator
of the LDL receptor promoter in the presence of 25-hydroxycholesterol. To investigate the effect of the 24,25-unsaturation in the D-ring side chain (desmosterol D-ring side chain) on antagonizing the repressing effect of 25-hydroxycholesterol, 4alpha-(2-propenyl)-5alpha-cholest-24-en-3alpha-ol (17), a 24,25-dehydro analog of LY295427, was thus synthesized from lithocholic acid via the formation of 3alpha-[[(1,1-dimethylethyl)dimethylsilyl]oxy]-4alpha- (2-propenyl)-5alpha-cholan-24-al (15). Test results showed that 17 had an EC30 value of 2.6 microM, comparable to 2.9 microM of LY295427, in the CHO cell-based LDLR/Luc assay in the presence of 25-hydroxycholesterol. Apparently, the built-in 24,25-unsaturation in the D-ring side chain of 17 had added little effect to antagonizing the repressing effect of 25-hydroxycholesterol. In the [1-14C-acetate]cholesterol biosynthesis inhibition assay, 17 at 10 microg/ml (23 microM) has been shown to inhibit the cholesterol biosynthesis in CHO cells by 38% relative to the vehicle control; whereas LY295427 showed no inhibition in the same assay in our previous studies. In contrast to LY295427, the built-in 24,25-unsaturation in the D-ring side chain of 17 has conferred an inhibitory effect on cholesterol biosynthesis in CHO cells. In summary, the observed LDL receptor promoter activity of 17 is related to its ability to prevent 25-hydroxycholesterol from exerting the repressing effect via an undetermined mechanism and, in part, to inhibit the cholesterol biosynthesis.
Steroids
1999 Mar
PMID:Synthesis and in vitro biological activity of 4alpha-(2-propenyl)-5alpha-cholest-24-en-3alpha-ol: a 24,25-dehydro analog of the hypocholesterolemic agent 4alpha-(2-propenyl)-5alpha-cholestan-3alpha-ol. 1040 Mar 83
4alpha-(2-Propenyl)-5alpha-cholest-24-en-3alpha-ol (3) was shown recently in a Chinese hamster ovary (CHO) cell-based low-density lipoprotein receptor/luciferase (LDLR/Luc) assay to be a potent
transcriptional activator
of the LDL receptor promoter in the presence of 25-hydroxycholesterol. Because of the involvement of 12alpha-hydroxylation in the metabolism of cholesterol, we are interested in investigating the effect of introducing a 12alpha-hydroxyl group to 3 on the transcriptional activity of the LDL receptor promoter. Thus 4alpha-(2-propenyl)-5alpha-cholest-24-en-3alpha,12a lpha-diol (14), a 12alpha-hydroxyl analog of 3, was synthesized from deoxycholic acid via the formation of 12alpha-[[(tertbutyl)dimethylsilyl]oxy]-4alpha-( 2-propenyl)-5alpha-cholest-24-en-3-one (11). Test results show that 14 is inactive at concentrations of up to 20 microg/ml, compared to 3 with an EC30 value of 2.6 microM, in the CHO cell-based LDLR/Luc assay. Apparently introduction of a 12alpha-hydroxyl group abolishes the capability of 3alpha-sterol 14 to activate the transcription of the LDL receptor promoter. However, in the [1-14C-acetate]cholesterol biosynthesis inhibition assay in CHO cells, 14 at 10 microg/ml (23 microM) is shown to inhibit the cholesterol biosynthesis by 51% relative to the control cells. Our previous studies indicated that 3 showed a 38% inhibition, but 4alpha-(2-propenyl)-5alpha-cholestan-3alpha-ol (1) exhibited no inhibition in the same assay at 10 microg/ml. In summary the results indicate that, in addition to the 24,25-unsaturation, the 12alpha-hydroxyl group in 14 has also conferred an inhibitory effect on cholesterol biosynthesis in CHO cells; however, the inhibition of cholesterol biosynthesis by 14 does not lead to the transcriptional activation of the LDL receptor promoter.
Steroids
1999 Oct
PMID:Synthesis and in vitro biological activity of 4alpha-(2-propenyl)-5alpha-cholest-24-en-3alpha,12 alpha-diol, a 12alpha-hydroxyl analog of 4alpha-(2-propenyl)-5alpha-cholest-24-en-3alpha-ol: the latter is a potent activator of the low-density lipoprotein receptor promoter. 1049 32
Thyroid hormone (TH) is essential for neuronal migration and synaptogenesis in the developing brain. Assembly of neuronal circuits depends on guidance cues provided by the extracellular matrix. These cues are interpreted by the migrating neuron and its growing neurites through transmembrane signaling proteins anchored in place by the actin cytoskeleton. One of the best examples of a non-genomic action of thyroid hormone is its dynamic regulation of the number and quantity of actin fibers in astrocytes. Thyroxine (T4) and its transcriptionally inactive metabolite, 3',5',3-triiodothyronine (reverse T3) are responsible for modulating microfilament organization, while the
transcriptional activator
, 3',3,5-triiodothyronine (T3) is inert. The biological consequence of the loss of the actin filaments in astrocytes is the inability of the cell to anchor laminin, to its cell surface, and the loss of this key guidance molecule interrupts neurite pathfinding and neuronal migration. These data provide the essentials to construct a physiological pathway where TH-dependent regulation of the polymerization state of actin in the astrocyte and the developing neuron modulates the production and recognition of guidance cues--cues that if disrupted lead to abnormal neuronal migration and neuronal process formation--and lead to the morphological deficits observed in the cretinous brain.
Steroids
2008 Oct
PMID:Non-genomic actions of thyroid hormone in brain development. 1828 May 26
