Science 19 February 1993: Vol. 259. no. 5098, pp. 1161 - 1165 DOI: 10.1126/science.8382376

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Articles

Structure-function relationships in the mineralocorticoid receptor.

J. B Pippal and P. J Fuller (2008)
J. Mol. Endocrinol. 41, 405-413
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Nuclear Receptor Coregulators Differentially Modulate Induction and Glucocorticoid Receptor-Mediated Repression of the Corticotropin-Releasing Hormone Gene.

S. van der Laan, S. B. Lachize, E. Vreugdenhil, E. R. de Kloet, and O. C. Meijer (2008)
Endocrinology 149, 725-732
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Separating Transrepression and Transactivation: A Distressing Divorce for the Glucocorticoid Receptor?.

R. Newton and N. S. Holden (2007)
Mol. Pharmacol. 72, 799-809
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The Glucocorticoid Receptor Represses Cyclin D1 by Targeting the Tcf-beta-Catenin Complex.

S. Takayama, I. Rogatsky, L. E. Schwarcz, and B. D. Darimont (2006)
J. Biol. Chem. 281, 17856-17863
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Heregulins Implicated in Cellular Functions Other Than Receptor Activation.

M. Breuleux, F. Schoumacher, D. Rehn, W. Kung, H. Mueller, and U. Eppenberger (2006)
Mol. Cancer Res. 4, 27-37
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Differential Promotion of Glutamate Transporter Expression and Function by Glucocorticoids in Astrocytes from Various Brain Regions.

J. Zschocke, N. Bayatti, A. M. Clement, H. Witan, M. Figiel, J. Engele, and C. Behl (2005)
J. Biol. Chem. 280, 34924-34932
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The Mineralocorticoid Receptor: A Journey Exploring Its Diversity and Specificity of Action.

L. Pascual-Le Tallec and M. Lombes (2005)
Mol. Endocrinol. 19, 2211-2221
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Glucocorticoid Receptor (GR)-Associated SMRT Binding to C/EBP{beta} TAD and Nrf2 Neh4/5: Role of SMRT Recruited to GR in GSTA2 Gene Repression.

S. H. Ki, I. J. Cho, D. W. Choi, and S. G. Kim (2005)
Mol. Cell. Biol. 25, 4150-4165
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A Serine/Threonine-rich Motif Is One of Three Nuclear Localization Signals That Determine Unidirectional Transport of the Mineralocorticoid Receptor to the Nucleus.

R. F. Walther, E. Atlas, A. Carrigan, Y. Rouleau, A. Edgecombe, L. Visentin, C. Lamprecht, G. C. Addicks, R. J. G. Hache, and Y. A. Lefebvre (2005)
J. Biol. Chem. 280, 17549-17561
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Steroid Receptor Coactivator-1 Splice Variants Differentially Affect Corticosteroid Receptor Signaling.

O. C. Meijer, E. Kalkhoven, S. van der Laan, P. J. Steenbergen, S. H. Houtman, T. F. Dijkmans, D. Pearce, and E. R. de Kloet (2005)
Endocrinology 146, 1438-1448
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Chronic Steroid and Immunosuppressant Therapy in Children.

A. Gedalia and A. K. Shetty (2004)
Pediatr. Rev. 25, 425-434
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A nuclear isoform of the focal adhesion LIM-domain protein Trip6 integrates activating and repressing signals at AP-1- and NF-{kappa}B-regulated promoters.

O. Kassel, S. Schneider, C. Heilbock, M. Litfin, M. Gottlicher, and P. Herrlich (2004)
Genes & Dev. 18, 2518-2528
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Pituitary Expression of Type I and Type II Glucocorticoid Receptors during Chicken Embryonic Development and Their Involvement in Growth Hormone Cell Differentiation.

I. Bossis, S. Nishimura, M. Muchow, and T. E. Porter (2004)
Endocrinology 145, 3523-3531
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Visualization of Glucocorticoid Receptor and Mineralocorticoid Receptor Interactions in Living Cells with GFP-Based Fluorescence Resonance Energy Transfer.

M. Nishi, M. Tanaka, K.-i. Matsuda, M. Sunaguchi, and M. Kawata (2004)
J. Neurosci. 24, 4918-4927
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ARA67/PAT1 Functions as a Repressor To Suppress Androgen Receptor Transactivation.

Y. Zhang, Y. Yang, S. Yeh, and C. Chang (2004)
Mol. Cell. Biol. 24, 1044-1057
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Identification of Glucocorticoid Receptor Domains Involved in Transrepression of Transforming Growth Factor-{beta} Action.

G. Li, S. Wang, and T. D. Gelehrter (2003)
J. Biol. Chem. 278, 41779-41788
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Potency and Specificity of the Pharmacological Action of a New, Antiasthmatic, Topically Administered Soft Steroid, Etiprednol Dicloacetate (BNP-166).

I. Kurucz, S. Toth, K. Nemeth, K. Torok, V. Csillik-Perczel, A. Pataki, C. Salamon, Z. Nagy, J. I. Szekely, K. Horvath, et al. (2003)
J. Pharmacol. Exp. Ther. 307, 83-92
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Multiple Corticosteroid Receptors in a Teleost Fish: Distinct Sequences, Expression Patterns, and Transcriptional Activities.

A. K. Greenwood, P. C. Butler, R. B. White, U. DeMarco, D. Pearce, and R. D. Fernald (2003)
Endocrinology 144, 4226-4236
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The Interplay between the Glucocorticoid Receptor and Nuclear Factor-{kappa}B or Activator Protein-1: Molecular Mechanisms for Gene Repression.

K. De Bosscher, W. Vanden Berghe, and G. Haegeman (2003)
Endocr. Rev. 24, 488-522
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c-fos Reduces Corticosterone-Mediated Effects on Neurotrophic Factor Expression in the Rat Hippocampal CA1 Region.

A. C. Hansson, W. Sommer, R. Rimondini, B. Andbjer, I. Stromberg, and K. Fuxe (2003)
J. Neurosci. 23, 6013-6022
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A Synergy Control Motif within the Attenuator Domain of CCAAT/Enhancer-binding Protein alpha Inhibits Transcriptional Synergy through Its PIASy-enhanced Modification by SUMO-1 or SUMO-3.

L. Subramanian, M. D. Benson, and J. A. Iniguez-Lluhi (2003)
J. Biol. Chem. 278, 9134-9141
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Attenuation of Glucocorticoid Signaling through Targeted Degradation of p300 via the 26S Proteasome Pathway.

Q. Li, A. Su, J. Chen, Y. A. Lefebvre, and R. J. G. Hache (2002)
Mol. Endocrinol. 16, 2819-2827
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Rapid Corticosteroid-Dependent Regulation of Mineralocorticoid Receptor Protein Expression in Rat Brain.

B. A. Kalman and R. L. Spencer (2002)
Endocrinology 143, 4184-4195
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Inhibition of Glucocorticoid-induced Apoptosis in 697 Pre-B Lymphocytes by the Mineralocorticoid Receptor N-terminal Domain.

S. L. Planey, A. Derfoul, A. Steplewski, N. M. Robertson, and G. Litwack (2002)
J. Biol. Chem. 277, 42188-42196
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Disturbances of Na/K Balance: Pseudohypoaldosteronism Revisited.

O. Bonny and B. C. Rossier (2002)
J. Am. Soc. Nephrol. 13, 2399-2414
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Glucocorticoid modulation of androgen receptor nuclear aggregation and cellular toxicity is associated with distinct forms of soluble expanded polyglutamine protein.

W. J. Welch and M. I. Diamond (2001)
Hum. Mol. Genet. 10, 3063-3074
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Homology modelling of the ligand-binding domain of glucocorticoid receptor: binding site interactions with cortisol and corticosterone.

R. Dey, P. Roychowdhury, and C. Mukherjee (2001)
Protein Eng. Des. Sel. 14, 565-571
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The Serum- and Glucocorticoid-Induced Kinase Is a Physiological Mediator of Aldosterone Action.

A. Bhargava, M. J. Fullerton, K. Myles, T. M. Purdy, J. W. Funder, D. Pearce, and T. J. Cole (2001)
Endocrinology 142, 1587-1594
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Mineralocorticoid and glucocorticoid receptors inhibit UCP expression and function in brown adipocytes.

S. Viengchareun, P. Penfornis, M.-C. Zennaro, and M. Lombes (2001)
Am J Physiol Endocrinol Metab 280, E640-E649
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Cooperative Effects of STAT5 (Signal Transducer and Activator of Transcription 5) and C/EBP {beta} (CCAAT/Enhancer-Binding Protein-{beta}) on {beta}-Casein Gene Transcription Are Mediated by the Glucocorticoid Receptor.

S. L. Wyszomierski and J. M. Rosen (2001)
Mol. Endocrinol. 15, 228-240
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Multiple aspects of mineralocorticoid selectivity.

N. Farman and M.-E. Rafestin-Oblin (2001)
Am J Physiol Renal Physiol 280, F181-F192
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Sodium-Potassium-Adenosinetriphosphatase-Dependent Sodium Transport in the Kidney: Hormonal Control.

E. Feraille and A. Doucet (2001)
Physiol Rev 81, 345-418
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A Common Motif within the Negative Regulatory Regions of Multiple Factors Inhibits Their Transcriptional Synergy.

J. A. Iñiguez-Lluhí and D. Pearce (2000)
Mol. Cell. Biol. 20, 6040-6050
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The mineralocorticoid receptor mediates aldosterone-induced differentiation of T37i cells into brown adipocytes.

P. Penfornis, S. Viengchareun, D. Le Menuet, F. Cluzeaud, M.-C. Zennaro, and M. Lombes (2000)
Am J Physiol Endocrinol Metab 279, E386-E394
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Molecular mechanisms of glucocorticoid action: what is important?.

R. Newton (2000)
Thorax 55, 603-613
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Interaction of the tau 2 Transcriptional Activation Domain of Glucocorticoid Receptor with a Novel Steroid Receptor Coactivator, Hic-5, Which Localizes to Both Focal Adhesions and the Nuclear Matrix.

L. Yang, J. Guerrero, H. Hong, D. B. DeFranco, and M. R. Stallcup (2000)
Mol. Biol. Cell 11, 2007-2018
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Glucocorticoid Negative Feedback Selectively Targets Vasopressin Transcription in Parvocellular Neurosecretory Neurons.

K. J. Kovacs, A. Foldes, and P. E. Sawchenko (2000)
J. Neurosci. 20, 3843-3852
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Plasma Membrane Calcium Pump Isoform 1 Gene Expression Is Repressed by Corticosterone and Stress in Rat Hippocampus.

A. Bhargava, O. C. Meijer, M. F. Dallman, and D. Pearce (2000)
J. Neurosci. 20, 3129-3138
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A Tissue-Specific Coactivator of Steroid Receptors, Identified in a Functional Genetic Screen.

D. Knutti, A. Kaul, and A. Kralli (2000)
Mol. Cell. Biol. 20, 2411-2422
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The p23 molecular chaperones act at a late step in intracellular receptor action to differentially affect ligand efficacies.

B. C. Freeman, S. J. Felts, D. O. Toft, and K. R. Yamamoto (2000)
Genes & Dev. 14, 422-434
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How Do Glucocorticoids Influence Stress Responses? Integrating Permissive, Suppressive, Stimulatory, and Preparative Actions.

R. M. Sapolsky, L. M. Romero, and A. U. Munck (2000)
Endocr. Rev. 21, 55-89
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Regulation of expanded polyglutamine protein aggregation and nuclear localization by the glucocorticoid receptor.

M. I. Diamond, M. R. Robinson, and K. R. Yamamoto (2000)
PNAS 97, 657-661
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Regulation of the Rat Serotonin-1A Receptor Gene by Corticosteroids.

S. Wissink, O. Meijer, D. Pearce, B. van der Burg, and P. T. van der Saag (2000)
J. Biol. Chem. 275, 1321-1326
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AML3/CBFalpha 1 Is Required for Androgen-specific Activation of the Enhancer of the Mouse Sex-limited Protein (Slp) Gene.

Y.-M. Ning and D. M. Robins (1999)
J. Biol. Chem. 274, 30624-30630
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Selective Binding of Steroid Hormone Receptors to Octamer Transcription Factors Determines Transcriptional Synergism at the Mouse Mammary Tumor Virus Promoter.

G. G. Prefontaine, R. Walther, W. Giffin, M. E. Lemieux, L. Pope, and R. J. G. Hache (1999)
J. Biol. Chem. 274, 26713-26719
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Early aldosterone action: toward filling the gap between transcription and transport.

F. Verrey (1999)
Am J Physiol Renal Physiol 277, F319-F327
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Antiglucocorticoid activity of hepatocyte nuclear factor-6.

C. E. Pierreux, J. Stafford, D. Demonte, D. K. Scott, J. Vandenhaute, R. M. O'Brien, D. K. Granner, G. G. Rousseau, and F. P. Lemaigre (1999)
PNAS 96, 8961-8966
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Valine 571 Functions as a Regional Organizer in Programming the Glucocorticoid Receptor for Differential Binding of Glucocorticoids and Mineralocorticoids.

U. Lind, P. Greenidge, J.-A. Gustafsson, A. P. H. Wright, and J. Carlstedt-Duke (1999)
J. Biol. Chem. 274, 18515-18523
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Ku Antigen-DNA Conformation Determines the Activation of DNA-Dependent Protein Kinase and DNA Sequence-Directed Repression of Mouse Mammary Tumor Virus Transcription.

W. Giffin, W. Gong, C. Schild-Poulter, and R. J. G. Hache (1999)
Mol. Cell. Biol. 19, 4065-4078
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Aldosterone action: induction of p21ras and fra-2 and transcription-independent decrease in myc, jun, and fos.

B. Spindler and F. Verrey (1999)
Am J Physiol Cell Physiol 276, C1154-C1161
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Glucocorticoid Induction of Epithelial Sodium Channel Expression in Lung and Renal Epithelia Occurs via trans-Activation of a Hormone Response Element in the 5'-Flanking Region of the Human Epithelial Sodium Channel alpha  Subunit Gene.

R. Sayegh, S. D. Auerbach, X. Li, R. W. Loftus, R. F. Husted, J. B. Stokes, and C. P. Thomas (1999)
J. Biol. Chem. 274, 12431-12437
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Cyclic Adenosine-3',5'-Monophosphate-Mediated Activation of a Glutamine Synthetase Composite Glucocorticoid Response Element.

J. Richardson, C. Vinson, and J. Bodwell (1999)
Mol. Endocrinol. 13, 546-554
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Angiotensin AT1 Receptor Subtype as a Cardiac Target of Aldosterone : Role in Aldosterone-Salt–Induced Fibrosis.

V. Robert, C. Heymes, J.-S. Silvestre, A. Sabri, B. Swynghedauw, and C. Delcayre (1999)
Hypertension 33, 981-986
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Aldosterone, Not Estradiol, Is the Physiological Agonist for Rapid Increases in cAMP in Vascular Smooth Muscle Cells.

M. Christ, A. Gunther, M. Heck, B. M. W. Schmidt, E. Falkenstein, and M. Wehling (1999)
Circulation 99, 1485-1491
 |  Abstract »  |  Full Text »  |  PDF »

Epithelial sodium channel regulated by aldosterone-induced protein sgk.

S.-y. Chen, A. Bhargava, L. Mastroberardino, O. C. Meijer, J. Wang, P. Buse, G. L. Firestone, F. Verrey, and D. Pearce (1999)
PNAS 96, 2514-2519
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Discrimination between NL1- and NL2-Mediated Nuclear Localization of the Glucocorticoid Receptor.

J. G. A. Savory, B. Hsu, I. R. Laquian, W. Giffin, T. Reich, R. J. G. Hache, and Y. A. Lefebvre (1999)
Mol. Cell. Biol. 19, 1025-1037
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Dysfunctional glucocorticoid receptor with a single point mutation ablates the CCAAT/enhancer binding protein-dependent growth suppression response in a steroid-resistant rat hepatoma cell variant.

R. A. Ramos, W. J. Meilandt, E. C. Wang, and G. L. Firestone (1999)
FASEB J 13, 169-180
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Up- and Down-Regulation by Glucocorticoids of the Constitutive Expression of the Mast Cell Growth Factor Stem Cell Factor by Human Lung Fibroblasts in Culture.

O. Kassel, F. Schmidlin, C. Duvernelle, F. de Blay, and N. Frossard (1998)
Mol. Pharmacol. 54, 1073-1079
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Concerted actions of IL-1beta inhibit Na+ absorption and stimulate anion secretion by IMCD cells.

R. F. Husted, C. Zhang, and J. B. Stokes (1998)
Am J Physiol Renal Physiol 275, F946-F954
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Glucocorticoid Receptor Transcriptional Activity Determined by Spacing of Receptor and Nonreceptor DNA Sites.

D. Pearce, W. Matsui, J. N. Miner, and K. R. Yamamoto (1998)
J. Biol. Chem. 273, 30081-30085
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AF-2-Dependent Potentiation of CCAAT Enhancer Binding Protein {beta}-Mediated Transcriptional Activation by Glucocorticoid Receptor.

M. Boruk, J. G. A. Savory, and R. J. G. Haché (1998)
Mol. Endocrinol. 12, 1749-1763
 |  Abstract »  |  Full Text »

Reconstitution of the N-terminal Transcription Activation Function of Human Mineralocorticoid Receptor in a Defective Human Glucocorticoid Receptor.

M. V. Govindan and N. Warriar (1998)
J. Biol. Chem. 273, 24439-24447
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Human T-Cell Leukemia Virus Type 1 Tax Induction of NF-kappa B Involves Activation of the Ikappa B Kinase alpha  (IKKalpha ) and IKKbeta Cellular Kinases.

R. Geleziunas, S. Ferrell, X. Lin, Y. Mu, E. T. Cunningham Jr., M. Grant, M. A. Connelly, J. E. Hambor, K. B. Marcu, and W. C. Greene (1998)
Mol. Cell. Biol. 18, 5157-5165
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Regulation of the Human Na/K-ATPase beta 1 Gene Promoter by Mineralocorticoid and Glucocorticoid Receptors.

A. Derfoul, N. M. Robertson, J. B Lingrel, D. J. Hall, and G. Litwack (1998)
J. Biol. Chem. 273, 20702-20711
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Brain Corticosteroid Receptor Balance in Health and Disease.

E. R. de Kloet, E. Vreugdenhil, M. S. Oitzl, and M. Joëls (1998)
Endocr. Rev. 19, 269-301
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Recruitment of Octamer Transcription Factors to DNA by Glucocorticoid Receptor.

G. G. Préfontaine, M. E. Lemieux, W. Giffin, C. Schild-Poulter, L. Pope, E. LaCasse, P. Walker, and R. J. G. Haché (1998)
Mol. Cell. Biol. 18, 3416-3430
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Dehydroepiandrosterone and Analogs Inhibit DNA Binding of AP-1 and Airway Smooth Muscle Proliferation.

R. Dashtaki, A. R. Whorton, T. M. Murphy, P. Chitano, W. Reed, and T. P. Kennedy (1998)
J. Pharmacol. Exp. Ther. 285, 876-883
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A second enzyme protecting mineralocorticoid receptors from glucocorticoid occupancy.

D. J. Morris, S. A. Latif, M. D. Rokaw, C. O. Watlington, and J. P. Johnson (1998)
Am J Physiol Cell Physiol 274, C1245-C1252
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Intracellular Signaling Pathways Confer Specificity of Transactivation by Mineralocorticoid and Glucocorticoid Receptors.

S. S. Lim-Tio and P. J. Fuller (1998)
Endocrinology 139, 1653-1661
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Aldosterone stimulates intestinal Na+ absorption in rats by increasing NHE3 expression of the proximal colon.

J. H. Cho, M. W. Musch, C. M. Bookstein, R. L. McSwine, K. Rabenau, and E. B. Chang (1998)
Am J Physiol Cell Physiol 274, C586-C594
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Aldosterone responsiveness of A6 cells is restored by cloned rat mineralocorticoid receptor.

S.-Y. Chen, J. Wang, W. Liu, and D. Pearce (1998)
Am J Physiol Cell Physiol 274, C39-C46
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Both Androgen Receptor and Glucocorticoid Receptor Are Able to Induce Prostate-Specific Antigen Expression, but Differ in Their Growth-Stimulating Properties of LNCaP Cells.

C. B. J. M. Cleutjens, K. Steketee, C. C. E. M. van Eekelen, J. A. G. M. van der Korput, A. O. Brinkmann, and J. Trapman (1997)
Endocrinology 138, 5293-5300
 |  Abstract »  |  Full Text »  |  PDF »

Interaction between the Amino- and Carboxyl-terminal Regions of the Rat Androgen Receptor Modulates Transcriptional Activity and Is Influenced by Nuclear Receptor Coactivators.

T. Ikonen, J. J. Palvimo, and O. A. Janne (1997)
J. Biol. Chem. 272, 29821-29828
 |  Abstract »  |  Full Text »  |  PDF »

Protein-Protein Interactions Are Implied in Glucocorticoid Receptor Mutant 465*-mediated Cell Death.

H. Chen, G. Srinivasan, and E. B. Thompson (1997)
J. Biol. Chem. 272, 25873-25880
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Pit-1 and GATA-2 Interact and Functionally Cooperate to Activate the Thyrotropin beta -Subunit Promoter.

D. F. Gordon, S. R. Lewis, B. R. Haugen, R. A. James, M. T. McDermott, W. M. Wood, and E. C. Ridgway (1997)
J. Biol. Chem. 272, 24339-24347
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The Rat Glucocorticoid Receptor Mutant K461A Differentiates between Two Different Mechanisms of Transrepression.

T. Meyer, D. B. Starr, and J. Carlstedt-Duke (1997)
J. Biol. Chem. 272, 21090-21095
 |  Abstract »  |  Full Text »  |  PDF »

A New Function for the C-terminal Zinc Finger of the Glucocorticoid Receptor. REPRESSION OF RelA TRANSACTIVATION.

J. Liden, F. Delaunay, I. Rafter, J.-A. Gustafsson, and S. Okret (1997)
J. Biol. Chem. 272, 21467-21472
 |  Abstract »  |  Full Text »  |  PDF »

Overexpression of Unliganded Steroid Receptors Activates Endogenous Heat Shock Factor.

N. Xiao and D. B. DeFranco (1997)
Mol. Endocrinol. 11, 1365-1374
 |  Abstract »  |  Full Text »

Transcriptional Up-Regulation of the Human Androgen Receptor by Androgen in Bone Cells.

K. M. Wiren, X. Zhang, C. Chang, E. Keenan, and E. S. Orwoll (1997)
Endocrinology 138, 2291-2300
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Determinants of Specificity of Transactivation by the Mineralocorticoid or Glucocorticoid Receptor.

S. S. Lim-Tio, M.-C. Keightley, and P. J. Fuller (1997)
Endocrinology 138, 2537-2543
 |  Abstract »  |  Full Text »  |  PDF »

Androgen and Glucocorticoid Receptor Heterodimer Formation. A POSSIBLE MECHANISM FOR MUTUAL INHIBITION OF TRANSCRIPTIONAL ACTIVITY.

S.-y. Chen, J. Wang, G.-q. Yu, W. Liu, and D. Pearce (1997)
J. Biol. Chem. 272, 14087-14092
 |  Abstract »  |  Full Text »  |  PDF »

11{beta}-Hydroxysteroid Dehydrogenase and the Syndrome of Apparent Mineralocorticoid Excess.

P. C. White, T. Mune, and A. K. Agarwal (1997)
Endocr. Rev. 18, 135-156
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Mutant and Wild-Type Androgen Receptors Exhibit Cross-Talk on Androgen-, Glucocorticoid-, and Progesterone-Mediated Transcription.

P. M. Yen, Y. Liu, J. J. Palvimo, M. Trifiro, J. Whang, L. Pinsky, O. A. Jänne, and W. W. Chin (1997)
Mol. Endocrinol. 11, 162-171
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Intracellular receptors use a common mechanism to interpret signaling information at response elements..

D B Starr, W Matsui, J R Thomas, and K R Yamamoto (1996)
Genes & Dev. 10, 1271-1283
 |  Abstract »  |  PDF »

Short-range transcriptional repressors mediate both quenching and direct repression within complex loci in Drosophila..

S Gray and M Levine (1996)
Genes & Dev. 10, 700-710
 |  Abstract »  |  PDF »

Interaction of Oct-1 with TFIIB.

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Identification of Two Transcription Activation Units in the N-terminal Domain of the Human Androgen Receptor.

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Disorders of Aldosterone Biosynthesis and Action.

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Mineralocorticoids, glucocorticoids, receptors and response elements.

J. Funder (1993)
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Heterodimerization of Mineralocorticoid and Glucocorticoid Receptors at a Novel Negative Response Element of the 5-HT1A Receptor Gene.

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Regulation by Glucocorticoids of Expression and Activity of rBSC1, the Na+-K+(NH4+)-2Cl- Cotransporter of Medullary Thick Ascending Limb.

A. Attmane-Elakeb, V. Sibella, C. Vernimmen, X. Belenfant, S. C. Hebert, and M. Bichara (2000)
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Physical Interaction and Functional Synergy between Glucocorticoid Receptor and Ets2 Proteins for Transcription Activation of the Rat Cytochrome P-450c27 Promoter.

J. Mullick, H. K. Anandatheerthavarada, G. Amuthan, S. V. Bhagwat, G. Biswas, V. Camasamudram, N. K. Bhat, S. E. P. Reddy, V. Rao, and N. G. Avadhani (2001)
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Determinants of Subnuclear Organization of Mineralocorticoid Receptor Characterized through Analysis of Wild Type and Mutant Receptors.

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Regulation of the transcriptional coactivator PGC-1 via MAPK-sensitive interaction with a repressor.

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