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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Androgen receptor (AR) and glucocorticoid receptor (GR) belong to the same subfamily of steroid/nuclear receptors and have been shown to bind qualitatively to the same hormone response element (HRE) DNA sequences. Despite this similarity in target gene recognition, AR and GR have differential affects on the transcriptional regulation of genes containing both simple and complex HRE control regions. Using HREs from the mouse mammary tumor virus (MMTV), tyrosine aminotransferase (TAT), prostatein (C3) or sex-limited protein (SLP) genes, linked to the thymidine kinase promoter, we found receptor-selective differences in the ability of rat AR and rat GR to induce transcription of these various reporter genes. Since AR and GR have a 20% amino acid sequence difference in their DNA binding domains (DBDs), which could result in altered DNA binding affinities, we measured the ability of purified AR and GR DBDs to bind selectively and with high affinity to these HRE sequences in vitro. Gel shift mobility assays showed that the GR DBD had a higher affinity for a consensus HRE than did the AR DBD, and quantitative DNase I footprinting revealed that AR and GR DBDs bound to the MMTV, TAT, C3 and SLP HREs with different affinities. It was found that AR had a dissociation constant (Kd) that was 2-3 times higher than GR on the TAT, C3 and SLP HREs and that the Kd of AR for the C3 and SLP HREs differed by an order of magnitude (43 nM and 460 nM, respectively). Taken together, these data suggest that amino acid differences in the AR and GR DBDs contribute to altered receptor-DNA interactions, however it is likely that non-receptor factors are involved in further modulating receptor-selective DNA binding and transactivation functions.
Mol Cell Endocrinol 1995 Mar
PMID:Quantitative differences in androgen and glucocorticoid receptor DNA binding properties contribute to receptor-selective transcriptional regulation. 778 9

Intraperitoneal administration of 150 mg dexamethasone (DEX) Kg-1 body wt for four days to rhesus monkeys resulted in statistically significant increases in the activities of hepatic tyrosine aminotransferase (3 fold), microsomal cytochrome P450 (2 fold) and erythromycin N-demethylase (4 fold), but no change in the activities of aminopyrine N-demethylase and NADPH cytochrome c reductase. Three peaks were obtained from control or DEX-treated monkey livers on fractionation of detergent solubilized microsomes by anion exchange chromatography on DE-52. Peak II obtained from DEX-treated monkey microsomes on DE-52 demonstrated the highest specific activity of cytochrome P450 (5.84 nmol mg-1 protein) as compared to other peaks from the same microsomes or any of the peaks obtained from the control microsomes. Sodium dodecyl sulfate polyacrylamide gel electrophoresis of the microsomes from control and experimental animals and peak II obtained after anion exchange chromatography of DEX-treated microsomes demonstrated the intensification of two polypeptides of 52.5 and 50 kDa. The results indicate that DEX is an inducer of cytochrome P450 and dependent erythromycin N-demethylase in non-human primate, Macaca mulatta.
Biochem Mol Biol Int 1994 Aug
PMID:Induction of hepatic microsomal cytochrome P450 by dexamethasone in rhesus monkey (Macaca mulatta). 780 39

Ginsenoside-Rg1 (G-Rg1) present in the roots of Panax ginseng (C. A. Meyer) has been shown to induce the enzyme activity of tyrosine aminotransferase (TAT) EC(2.6.1.5) in rat hepatocyte cultures. Thus, we investigated whether the inductive effect of G-Rg1 may act through glucocorticoid receptor- or cAMP-mediated action mechanism in the hepatocyte cultures. G-Rg1 induced the TAT activity by 2-fold with a similar time course to that of dexamethasone in the cell cultures. This effect of G-Rg1 was abolished to the basal level when RU486, a specific glucocorticoid antagonist was added to 10(-5)M. Furthermore, the additive effect of G-Rg1 and dexamethasone was inhibited as well by RU486. G-Rg1 and dibutyryl-cAMP (Bt2-cAMP) also revealed an additive effect but this additive effect was inhibited only to the G-Rg1-induced level by Rp-cAMPS, a specific inhibitor of protein kinase A. From these results, we suggest that the action mechanism of G-Rg1 leading to the induction of TAT activity may be mediated through glucocorticoid receptor binding and may not directly act through cAMP-mediated induction mechanism.
Biochem Mol Biol Int 1994 Oct
PMID:Inductive effect of ginsenoside-Rg1 on tyrosine aminotransferase gene expression in rat primary hepatocyte cultures. 786 12

Synergism in transcription is said to occur when the combined response from two DNA elements for the binding of trans-acting factors is greater than the sum of the responses from each element in isolation. The synergism of steroid receptors with themselves or with other trans-acting factors at saturating concentrations of steroid has proved to be an important component of steroid-regulated gene transcription. We have recently described a glucocorticoid modulatory element (GME) of the rat tyrosine aminotransferase gene that, in conjunction with a trans-acting factor, modulates the transcriptional activity of receptor-glucocorticoid and -antiglucocorticoid complexes with homologous and heterologous genes and promoters (Oshima, H., and Simons, S. S., Jr. (1992) Mol. Endocrinol. 6, 416-428). We now report that, under certain circumstances, the GME displays synergistic activity with a glucocorticoid-responsive element (GRE). However, several properties of GME action are different from those previously observed for synergism. The effects of the GME were marked at subsaturating or physiological concentrations of glucocorticoids but insignificant at saturating concentrations, which are the established conditions for synergism. The GME was found to increase the agonist activity of partial antiglucocorticoids, while synergism involving antisteroids has yet to be reported. Furthermore, the GRE was active in conjunction with two tandem repeats of a GRE, which was a combination that did not support conventional synergism. Most importantly, the effects of the GME were greater than with any other trans-acting factor binding element tested, indicative of a sequence-selective activity. The efficacy of the GME was also insensitive to the spacing between elements. Thus, the GME provides a mechanism for selective transcriptional modulation by physiological concentrations of steroid, and by antisteroids, of a common class of genes that are under the control of two or more GREs.
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PMID:Sequence-selective interactions of transcription factor elements with tandem glucocorticoid-responsive elements at physiological steroid concentrations. 790 99

The insulin-dependent tyrosine kinase activity (TKA) of the insulin receptor (IR) plays an essential role in insulin signaling. Thus, dysregulation of IR-TKA might be an important element in the states of insulin resistance. A phosphorylated rat hepatic glycoprotein (pp63) acting as an inhibitor of IR-TK has been described. In search of the human homolog of pp63, we isolated a cDNA clone from a human liver lambda gt11 cDNA library. DNA sequence analysis reveals identity with the mRNA product of a human gene AHSG encoding a serum protein, alpha 2-Heremans Scmid-glycoprotein (alpha 2HSG), with heretofore unknown physiological function. Northern blot analysis demonstrates a 1.8-kilobase mRNA in human liver and HepG2 hepatoma cells. alpha 2HSG, purified from human serum, specifically inhibits insulin-stimulated IR autophosphorylation in vitro and in vivo as well as exogenous substrate tyrosine phosphorylation. alpha 2HSG also inhibits both insulin-induced tyrosine phosphorylation of IRS-1 and the association of IRS-1 with the p85 subunit of phosphatidylinositol-3 kinase in H-35 hepatoma cells. alpha 2HSG inhibits insulin-dependent mitogenesis, but does not affect insulin-stimulated induction of the metabolic enzyme tyrosine aminotransferase. alpha 2HSG does not compete with insulin for binding to IR. Finally, the action of alpha 2HSG is specific toward the IR-TK; its effect does not extend to insulin-like growth factor-I-stimulated TKA. Our results allow us to assign a biochemical function for human alpha 2HSG, namely regulation of insulin action at the IR-TK level.
Mol Endocrinol 1993 Nov
PMID:Serum alpha 2-HS-glycoprotein is an inhibitor of the human insulin receptor at the tyrosine kinase level. 790 61

The bipyridyl compound metyrapone is a potent inhibitor of cytochromes P450, a gene superfamily of haemoproteins involved in the metabolism of many xenobiotics as well as endogenous compounds such as steroid hormones. Administration of metyrapone to male rats induces the expression of the cytochrome P450 sub-family 3A (CYP3A). In order to determine whether metyrapone was causing the induction of CYP3A by blocking endogenous glucocorticoid metabolism, CYP3A levels were examined in rat hepatocytes cultured in serum-free medium supplemented with hydrocortisone 21-hemisuccinate plus or minus metyrapone. Western blotting indicated that metyrapone alone induces CYP3A and that hydrocortisone 21-hemisuccinate is ineffective. However, hydrocortisone 21-hemisuccinate enhanced the levels of CYP3A induced by metyrapone. In contrast, glucocorticoid-inducible tyrosine aminotransferase (TAT) activity was unaffected by metyrapone but metyrapone enhanced the levels induced by hydrocortisone 21-hemisuccinate. An examination of the metabolism of hydrocortisone by rat hepatocytes in vitro indicated that metyrapone perturbed the catabolism of hydrocortisone under conditions which give rise to an enhancement of hydrocortisone 21-hemisuccinate and hydrocortisone-dependent TAT induction. However, evidence is presented to suggest that such a perturbation of hydrocortisone metabolism could not account for the glucocorticoid potency amplifying property of metyrapone. Thus the induction of CYP3A and the enhancement of glucocorticoid-mediated TAT induction appears not to be associated with any perturbation in glucocorticoid metabolism but with some other as yet undefined mechanism(s).
J Steroid Biochem Mol Biol 1994 Feb
PMID:Induction of rat hepatic glucocorticoid-inducible cytochrome P450 3A by metyrapone. 790 22

We have previously shown that two remote glucocorticoid-responsive units (GRUs) of the rat tyrosine aminotransferase (TAT) gene contain multiple binding sites for several transcription factor families, including the glucocorticoid receptor (GR). We report here the identification of two novel binding sites for members of the Ets family of transcription factors in one of these GRUs. One of these binding sites overlaps the major GR-binding site (GRBS), whereas the other is located in its vicinity. Inactivation of the latter binding site leads to a twofold reduction of the glucocorticoid response, whereas inactivation of the site overlapping the GRBS has no detectable effect. In vivo footprinting analysis reveals that the active site is occupied in a glucocorticoid-independent manner, in a TAT-expressing cell line, even though it is located at a position where there is a glucocorticoid-dependent alteration of the nucleosomal structure. This same site is not occupied in a cell line that does not express TAT but expresses Ets-related DNA-binding activities, suggesting the existence of an inhibitory effect of chromatin structure at a hierarchical level above the nucleosome. The inactive Ets-binding site that overlaps the GRBS is not occupied even in TAT-expressing cells. However, this same overlapping site can confer Ets-dependent stimulation of both basal and glucocorticoid-induced levels when it is isolated from the GRU and duplicated. Ets-1 expression in COS cells mimics the activity of the Ets-related activities present in hepatoma cells. These Ets-binding sites could participate in the integration of the glucocorticoid response of the TAT gene with signal transduction pathways triggered by other nonsteroidal extracellular stimuli.
Mol Cell Biol 1994 Jun
PMID:Participation of Ets transcription factors in the glucocorticoid response of the rat tyrosine aminotransferase gene. 791 Sep 45

Transcription of the rat tyrosine aminotransferase gene (TAT) is stimulated in liver by glucocorticoid hormones or by cAMP-increased protein kinase A activity via enhancers located 2.5 kilobases (kb) and 3.6 kb upstream of the start site of transcription. The proteins mediating induction have been characterized, and protein binding in the two enhancer regions has been analyzed in vivo and in vitro. The TAT gene is therefore a useful model system with which to study cross-talk between different signal transduction pathways. We find that activation of the second messenger pathway leading from protein kinase C to the transcription factor AP-1 by the phorbol ester 12-O-tetradecanoyl-phorbol-13-acetate (TPA) impairs induction of the TAT gene both by glucocorticoid hormones and cAMP. The effects of TPA treatment on chromatin structure of the TAT gene and protein-DNA interactions in vivo were assayed. Under conditions in which TPA impairs glucocorticoid induction of TAT mRNA, the glucocorticoid receptor and other proteins binding within the glucocorticoid-inducible enhancer occupy their binding sites, indicating that inhibition occurs at a later step necessary for transcriptional stimulation. On the other hand, inhibition of cAMP induction correlates with reduced occupancy of the cAMP response element in vivo.
Mol Endocrinol 1994 Apr
PMID:Cross-talk modulation of signal transduction pathways: two mechanisms are involved in the control of tyrosine aminotransferase gene expression by phorbol esters. 791 48

The DNA-binding domain (DBD) of the androgen, mineralocorticoid, and glucocorticoid receptors and the steroid-binding domain (SBD) of the androgen receptor (AR) were expressed separately as fusion proteins with glutathione-S-transferase (GST) in Escherichia coli. Native polyacrylamide gel electrophoresis and gel exclusion HPLC demonstrated that the GST-ARDBD fusion protein was present as a dimer. On the other hand, the GST-ARSBD fusion protein formed a high-molecular weight oligomer, which seemed to be formed by two separate interactions, i.e. GST-GST and ARSBD-ARSBD between the fusion molecules. These findings strongly suggest that ARSBD has a potent ability to form a homodimer and that ARDBD does not. GST-ARDBD specifically interacted with the glucocorticoid response elements of the mouse mammary tumor virus long terminal repeat (GREMMTV). Cleavage of the fusion protein by thrombin abolished the binding, while the nonspecific DNA-cellulose binding ability was retained. Therefore, the dimeric configuration of GST-ARDBD, even if accomplished through the interaction with the GST moiety, is needed for high-affinity binding to the response element. The binding of GST-ARDBD to GREMMTV was strongly competed by the glucocorticoid response element of rat tyrosine aminotransferase gene, followed by the androgen response element of the rat probasin gene. A palindromic thyroid response element showed no competition. Unexpectedly, no apparent different in the binding affinity to these response elements was observed among the DBDs of androgen, mineralocorticoid and glucocorticoid receptors.
J Steroid Biochem Mol Biol 1994 Sep
PMID:Dimerization characteristics of the DNA- and steroid-binding domains of the androgen receptor. 791 8

The cytosolic and mitochondrial isozymes of aspartate aminotransferase (AspAT) function in the C4 photosynthetic cycle in NAD-malic enzyme-type C4 plants and are expressed at high levels in mesophyll cells and bundle sheath cells, respectively. We constructed a genomic library from Panicum miliaceum, a NAD-malic enzyme-type C4 plant, and cloned the genes for these isozymes. The sequence of the cloned gene for cytosolic AspAT spans 7800 bp and consists of 12 exons. The sequence of the cloned gene for mitochondrial AspAT spans 9000 bp and consists of 10 exons. The results of primer-extension analysis suggest that transcription may be initiated from multiple adjacent sites. Both genes have significant GC-rich regions around the site of initiation of transcription, and these regions showed no CpG suppression. The 5'- flanking regions of both genes include several short sequences similar to the regulatory elements found in other genes for components of the photosynthetic machinery. In particular, the cytosolic AspAT gene contains sequences similar to nuclear protein-binding sites in other mesophyll-expressed C4 photosynthetic genes and the mitochondrial AspAT gene contains elements for light-sensitive and constitutive expression of a bundle sheath-expressed gene. The results of Southern analysis indicated that there are at least two genes that encode each isozyme in the genome of P. miliaceum. A comparison of intron-insertion positions between AspAT genes of plants and animals revealed that several introns are located at identical positions. On the basis of a phylogenetic tree among AspATs and tyrosine aminotransferase, we have shown that the introns of aminotransferase genes antedate the divergence of eubacteria, archaebacteria, and eukaryotes.
Plant Mol Biol 1994 Oct
PMID:Structure of genes that encode isozymes of aspartate aminotransferase in Panicum miliaceum L., a C4 plant. 794 26


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