scholarly journals Identification of a TPA-responsive element mediating preferential transactivation of the galanin gene promoter in chromaffin cells.

1994 ◽  
Vol 269 (9) ◽  
pp. 6823-6831
Author(s):  
Y. Anouar ◽  
L. MacArthur ◽  
J. Cohen ◽  
A.L. Iacangelo ◽  
L.E. Eiden
Keyword(s):  
Chromaffin Cells ◽  
Gene Promoter ◽  
Responsive Element

scholarly journals A natural sequence consisting of overlapping glucocorticoid-responsive elements mediates glucocorticoid, but not androgen, regulation of gene expression

2000 ◽  
Vol 350 (1) ◽  
pp. 123-129 ◽  
Author(s):  
Charbel MASSAAD ◽  
Michèle GARLATTI ◽  
Elizabeth M. WILSON ◽  
Françoise CADEPOND ◽  
Robert BAROUKI
Keyword(s):  
Gene Expression ◽  
Thymidine Kinase ◽  
Transcriptional Activation ◽  
Regulation Of Gene Expression ◽  
Gene Promoter ◽  
Mobility Shift ◽  
Liver And Kidney ◽  
Androgen Regulation ◽  
Responsive Element ◽  
Half Site

Cytosolic aspartate aminotransferase (cAspAT) is regulated by glucocorticoids in rat liver and kidney. Part of this regulation is mediated by an unusual glucocorticoid-responsive element (GRE)-like sequence called GRE A. GRE A is composed of two overlapping imperfect GREs, each comprising a conserved half-site (half-sites 1 and 4 respectively) and a poorly conserved half-site (half-sites 2 and 3 respectively). The sequence binds co-operatively two dimers of the glucocorticoid receptor (GR) and mediates efficient glucocorticoid regulation of gene expression. Analysis of deletions of the cAspAT gene promoter and subcloning of GRE A upstream of the thymidine kinase promoter indicate that this sequence is responsive to glucocorticoids, but not to androgens. Electrophoretic mobility shift assays indicate that the GRE A unit does not bind the androgen receptor (AR). The modification of three nucleotides in the poorly conserved half-sites 2 and 3, converting GRE A into two overlapping high-affinity GREs (ov-cGRE), resulted in co-operative binding of the AR. Furthermore, ov-cGRE efficiently mediated androgen regulation of the thymidine kinase promoter. A single base modification in half-site 2 or 3 in GRE A allowed the binding of the AR as one or two dimers respectively, and restored transcriptional activation by androgens only in the latter case. Thus the poor affinity of the AR for half-sites 2 and 3 prevented its binding to GRE A, indicating that the overlapping GRE A sequence of the cAspAT gene promoter discriminates a glucocorticoid-mediated from an androgen-mediated response.

scholarly journals Characterization of a Putative Insulin-Responsive Element and Its Binding Protein(s) in Rat Angiotensinogen Gene Promoter: Regulation by Glucose and Insulin*

Endocrinology ◽  
2001 ◽  
Vol 142 (6) ◽  
pp. 2577-2585 ◽  
Author(s):  
Xing Chen ◽  
Shao-Ling Zhang ◽  
Li Pang ◽  
Janos G. Filep ◽  
Shiow-Shih Tang ◽  
...  
Keyword(s):  
Binding Protein ◽  
Gene Promoter ◽  
Protein S ◽  
Promoter Regulation ◽  
Angiotensinogen Gene ◽  
Responsive Element

scholarly journals Hepatocyte nuclear factor 1 binding element within the promoter of microsomal triglyceride transfer protein (MTTP) gene is crucial for MTTP basal expression and insulin responsiveness

2008 ◽  
Vol 41 (4) ◽  
pp. 229-238 ◽  
Author(s):  
Wo-Shing Au ◽  
Liwei Lu ◽  
Chung-Man Yeung ◽  
Ching-Chiu Liu ◽  
Oscar G Wong ◽  
...  
Keyword(s):  
Insulin Response ◽  
Microsomal Triglyceride Transfer Protein ◽  
Gene Promoter ◽  
Nuclear Factor ◽  
Hepatocyte Nuclear Factor ◽  
Insulin Effect ◽  
Transfer Protein ◽  
Insulin Responsiveness ◽  
Nuclear Factor 1 ◽  
Responsive Element

Insulin inhibits the transcription of the microsomal triglyceride transfer protein (MTTP), which plays a pivotal role in lipoprotein assembly and secretion. Here, we provide evidence that a hepatocyte nuclear factor 1 binding element (HNF1A element) within the MTTP promoter serves as a novel negative insulin-responsive element. Deletion/mutation mapping of the MTTP gene promoter identified a modified HNF1A element that is crucial to the negative insulin effect. Chimeric promoter containing this HNF1A element and minimal TEAD1 promoter also responded negatively toward insulin treatment. Gel shift assay demonstrated that HNF1A but not HNF1B binds to this element. Enforced expression of HNF1A was sufficient to reconstitute the negative insulin responsiveness of MTTP promoter in TM4SF1 myocytes that are HNF1A negative. Furthermore, replacing this element with consensus HNF1A element preserved the negative insulin response, suggesting that negative insulin responsiveness is a generic characteristic of HNF1A element. Given that many genes implicated in diabetes contain HNF1A element, the potential regulation of these genes by insulin via HNF1A element may provide important clues for the manifestation and treatment of diabetic metabolic syndromes.

scholarly journals Isolation of pig mitochondrial 3-hydroxy-3-methylglutaryl-CoA synthase gene promoter: characterization of a peroxisome proliferator-responsive element

1999 ◽  
Vol 337 (2) ◽  
pp. 329 ◽  
Author(s):  
José A. ORTIZ ◽  
Judith MALLOLAS ◽  
Carine NICOT ◽  
Josep BOFARULL ◽  
Joan C. RODRÍGUEZ ◽  
...  
Keyword(s):  
Gene Promoter ◽  
Peroxisome Proliferator ◽  
Promoter Characterization ◽  
Responsive Element

scholarly journals Identification of distal silencing elements in the murine interferon-A11 gene promoter

1996 ◽  
Vol 317 (3) ◽  
pp. 697-706 ◽  
Author(s):  
Pascal ROFFET ◽  
Sébastien LOPEZ ◽  
Sébastien NAVARRO ◽  
Marie-Thérèse BANDU ◽  
Colette COULOMBEL ◽  
...  
Keyword(s):  
Transcriptional Response ◽  
Gene Promoter ◽  
Inhibitory Effect ◽  
Transient Transfection Assay ◽  
Nuclear Extracts ◽  
Nuclear Factors ◽  
Multigenic Family ◽  
Responsive Element ◽  
Related Proteins ◽  
Distal Promoter

The murine interferon-A11 (Mu IFN-A11) gene is a member of the IFN-A multigenic family. In mouse L929 cells, the weak response of the gene's promoter to viral induction is due to a combination of both a point mutation in the virus responsive element (VRE) and the presence of negatively regulating sequences surrounding the VRE. In the distal part of the promoter, the negatively acting E1E2 sequence was delimited. This sequence displays an inhibitory effect in either orientation or position on the inducibility of a virus-responsive heterologous promoter. It selectively represses VRE-dependent transcription but is not able to reduce the transcriptional activity of a VRE-lacking promoter. In a transient transfection assay, an E1E2-containing DNA competitor was able to derepress the native Mu IFN-A11 promoter. Specific nuclear factors bind to this sequence; thus the binding of trans-regulators participates in the repression of the Mu IFN-A11 gene. The E1E2 sequence contains an IFN regulatory factor (IRF)-binding site. Recombinant IRF2 binds this sequence and anti-IRF2 antibodies supershift a major complex formed with nuclear extracts. The protein composing the complex is 50 kDa in size, indicating the presence of IRF2 or antigenically related proteins in the complex. The Mu IFN-A11 gene is the first example within the murine IFN-A family, in which a distal promoter element has been identified that can negatively modulate the transcriptional response to viral induction.

Repression of the alpha-fetoprotein gene promoter by progesterone and chimeric receptors in the presence of hormones and antihormones

1990 ◽  
Vol 10 (9) ◽  
pp. 5002-5006
Author(s):  
B Turcotte ◽  
M E Meyer ◽  
M T Bocquel ◽  
L Bélanger ◽  
P Chambon
Keyword(s):  
Progesterone Receptor ◽  
Gene Promoter ◽  
Transient Transfection ◽  
Negative Regulation ◽  
Alpha Fetoprotein ◽  
Deletion Mutants ◽  
Chimeric Receptors ◽  
Glucocorticoid Responsive Element ◽  
Responsive Element

Using transient transfection assays, we showed that repression of the alpha-fetoprotein promoter by intact and deletion mutants of the progesterone receptor and by chimeric progesterone/glucocorticoid-estrogen receptors in the presence of their cognate hormones was closely correlated with their ability to bind to a progesterone/glucocorticoid-responsive element. This negative regulation was also observed in the presence of antihormones, providing evidence that receptor-antihormone complexes can bind to their responsive elements in vivo.

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