The glucocorticoid receptor resource.

The glucocorticoid receptor resource focuses on the structure-function relationships of the glucocorticoid receptor. As well as links to sequence and bibliographic databases via the World Wide Web, the database contains sequence comparisons of receptors from different species and source information for glucocorticoid receptor clones, probes, cell lines and antibodies. The resource allows the electronic publication of essays, unpublished data and reviews on steroid receptors. These publications will not be reviewed or edited and should allow the rapid dissemination of information to the scientific community. The resource can be reached at: http://biochem1.basic- sci.georgetown.edu/grr/grr.html.     

Lipopolysaccharide increases glucocorticoid receptor expression in murine macrophages. A possible mechanism for glucocorticoid-mediated suppression of endotoxicity.

In a previous study we demonstrated that IFN-gamma induced an increase in the number of glucocorticoid receptors (GR) in murine macrophages. To examine further the environmental signals involved in regulation of macrophage GR availability, we asked whether another classical macrophage-activating factor, LPS, would induce an increase in GR number in the macrophage cell line, RAW 264.7, and in primary macrophages from C3H mice. We report that treatment of RAW 264.7 cells and peritoneal exudate macrophages from C3H/OuJ mice with protein-free, phenol water-extracted LPS (PW-LPS) induced an increase in the number of GR. A significant increase in GR number was observed as early as 4 h after PW-LPS treatment, was maximal at 12 h, and remained heightened through 48 h. Optimal induction of the GR by PW-LPS was observed when murine macrophages were treated with 10 ng/ml of PW-LPS. The LPS-induced increase in macrophage GR number could be inhibited by polymyxin B. Macrophages obtained from the LPS hyporesponsive C3H/HeJ strain did not respond to PW-LPS, but did respond to protein-rich, butanol-extracted LPS with a modest increase in GR number after treatment with 2 micrograms/ml. Moreover, taxol, an antineoplastic agent with LPS mimetic activity, also increased GR number in murine macrophages. These results suggest that LPS is not only an important macrophage-activating signal, but may also be important in sensitizing the cell for negative regulatory events such as feedback inhibition by glucocorticoids.     

The neuronal mineralocorticoid receptor as a mediator of glucocorticoid response

The cloning of the mineralocorticoid receptor (MR) and the glucocorticoid receptor (GR) cDNAs provides a basis for understanding the actions of glucocorticoids in the central nervous system. Structural evidence is presented for the identity of the type I corticosteroid binding site as the MR expressed in the brain. This identification is supported by the anatomical distribution of MR mRNA, determined by in situ hybridization histochemistry, which parallels the steroid autoradiographic localization of the type I sites. An in vitro assay for MR and GR function demonstrates that these receptors respond to different levels of glucocorticoid, suggesting that together they confer a larger dynamic range of sensitivity to this hormone. These studies lead to a new hypothesis for glucocorticoid action in the central nervous system.     

IFN-gamma mediates increased glucocorticoid receptor expression in murine macrophages.

Exposure of the murine macrophage cell line, RAW 264.7, to murine rIFN-gamma resulted in a significant increase in the number of glucocorticoid receptors (GcR). A doubling in the number of GcR was observed as early as 24 h after rIFN-gamma treatment, and receptor number was maximal by 36 h after rIFN-gamma treatment and represented approximately a fourfold increase. Scatchard analysis indicated that a twofold increase in GcR affinity was concomitant with the rIFN-gamma-induced increase in GcR number in RAW 264.7 cells. Increased GcR numbers were induced after exposure of RAW 264.7 cells to as little as 0.1 U/ml rIFN-gamma, and optimal expression was observed at 5 U/ml. Treatment of peritoneal exudate macrophages from C3H/OuJ mice and the LPS hyporesponsive mouse strain, C3H/HeJ, with rIFN-gamma induced an approximately twofold increase in the GcR with no concomitant change in receptor affinity. These results suggest that IFN-gamma may be essential not only for macrophage activation, but also for increasing macrophage sensitivity to feedback inhibition by glucocorticoids by increasing the number and/or affinity of available GcR.     

The cellular mechanism of glucocorticoid acceleration of fetal lung maturation. Fibroblast-pneumonocyte factor stimulates choline-phosphate cytidylyltransferase activity

The cellular mechanism by which glucocorticoids stimulate phosphatidylcholine biosynthesis has been studied in the fetal rat lung in vivo and in cultured fetal rat lung cells of varying levels of complexity. Administration of dexamethasone to pregnant rats at 18 days gestation resulted in a significant increase in saturated phosphatidylcholine content in fetal lung 24 h after injection. Dexamethasone administration increased the activity of fetal lung choline-phosphate cytidylyltransferase by 34%. It had no effect on the activities of fetal lung choline kinase and choline phosphotransferase. Exposure of fetal lung type II cells in organotypic cultures (which contain both type II cells and fibroblasts) to cortisol resulted in a 1.6-fold increase in the incorporation of [Me-3H]choline into saturated phosphatidylcholine. The activities of the enzymes in the choline pathway for the de novo biosynthesis of phosphatidylcholine were not significantly altered except for a 105% increase in choline-phosphate cytidylyltransferase activity. Treatment of monolayer cultures of fetal type II cells with cortisol-conditioned medium from fetal lung fibroblasts resulted in a 1.5-fold increase in saturated phosphatidylcholine production. This effect correlated with a doubling of choline-phosphate cytidylyltransferase activity. Additional evidence that this stimulatory action is mediated by fibroblast-pneumonocyte factor, produced by fetal lung fibroblasts in response to cortisol, was obtained. The factor was partially purified from cortisol-conditioned medium of fetal lung fibroblasts by gel filtration and affinity chromatography. Based on biological activity, a 3000-fold purification was obtained. Stimulation of saturated phosphatidylcholine synthesis in type II cells by fibroblast-pneumonocyte factor was maximal within 60 min of incubation. Pulse-chase experiments indicated that the stimulatory effect was correlated with an increased conversion of choline phosphate into CDP choline. Moreover, the enhanced phosphatidylcholine formation by fetal type II cells in response to fibroblast-pneumonocyte factor was accompanied by decreased levels of cellular choline phosphate. These findings further support the concept that glucocorticoid action on surfactant-associated phosphatidylcholine synthesis occurs ultimately at the level of the alveolar type II cell and involves fibroblast-pneumonocyte factor which stimulates the activity of choline-phosphate cytidylyltransferase.     

The cellular response to neuregulins is governed by complex interactions of the erbB receptor family.

Deregulated signaling by the four members of the epidermal growth factor receptor tyrosine kinase family (erbB family) is implicated in the genesis or progression of human cancers. However, efforts to analyze signaling by these receptors have been hampered by the diversity of ligands and extensive interreceptor cross talk. We have expressed the four human erbB family receptors, singly and in pairwise combinations, in a pro-B-lymphocyte cell line (Ba/F3) and investigated the range of interactions activated by the epidermal growth factor homology domain of the agonist neuregulin beta. The results provide the first comprehensive analysis of the response of this receptor family to a single peptide agonist. This peptide induced complex patterns of receptor tyrosine phosphorylation and regulation of Ba/F3 cell survival and proliferation. These data demonstrate the existence of several previously undocumented receptor interactions driven by neuregulin.     

Monoclonal antipeptide antibodies to the glucocorticoid receptor.

The generation of monoclonal antibodies to synthetic peptides of the glucocorticoid receptor is described. Two antibodies to sequences from the DNA binding region are IgMs. Two other antibodies to sequences in the steroid binding region and the C-terminus belong to the IgG class. The specificity of the IgG binding to the receptor in an ELISA assay is demonstrated by competition with the relevant peptides. Both IgGs are able to recognize the receptor in Western blots, but do not form stable complexes in sucrose gradients. Steroid binding to the receptor is not influenced by preincubation with antibodies. This indicates that denaturation or distortion of the receptor is necessary for the accessibility of these antibodies to their epitopes. Both antibodies can be used to stain the glucocorticoid receptor in neoplastic cells of patients suffering from chronic lymphatic leukemia.     

Correlation between nuclear glucocorticoid receptor levels and casein gene expression in murine mammary gland in vitro

The relationship between nuclear binding of glucocorticoid-receptor complex and casein gene expression was studied in organ culture of the whole mammary gland of the mouse. Pyridoxal 5'-phosphate was used as a modulatory agent for measuring nuclear binding of the receptor complex. Addition of 2 mM and 5mM pyridoxal-5'-P in the medium (Waymouth's MB752/1) resulted in 4- and 12-fold increase of its concentration in the glands incubated with insulin, prolactin, and hydrocortisone. Pyridoxal-5'-P also caused a 52% and 92% inhibition of nuclear binding of [3H]dexamethasone in the glands at 2 mM and 5 mM concentration in the presence of the same hormones in the medium. Corresponding to the reduced nuclear binding of the receptor complex casein mRNA levels, measured by a specific cDNA probe was reduced 86% and over 90% in the glands exposed to 2 mM and 5 mM pyridoxal-5'-P, respectively, in presence of insulin, prolactin, and hydrocortisone in the medium. Withdrawal of pyridoxal-5'-P from the medium restored nuclear binding of the receptor complex near the level of control glands incubated only with the hormones. mRNA casein levels also increased in the gland in the pyridoxal-5'-P-free medium containing the same hormones. This indicates that pyridoxal-5'-P does not alter the specific hormone responsiveness of the mammary cells and its action mediated at the level of the glucocorticoid receptor can influence hormone-inducible expression of the casein genes. Thus, glucocorticoid plays a major role in the multiple hormone regulation of the milk protein gene(s). The findings also suggest that the breast tissue concentration of the vitamin B6 derivative may influence the physiology of lactation in nursing mothers.     

Enhanced MYCN oncogene expression in human neuroblastoma cells is associated with altered FGF receptor expression and cellular growth response to basic FGF.

We have examined the effect of human basic fibroblast growth factor (bFGF) on the proliferation of human neuroblastoma cells with normal and enhanced MYCN oncogene expression. bFGF stimulated the proliferation of the neuroblastoma cells with enhanced, but not normal, MYCN expression. Both cell species express FGFR-1, but not FGFR-2, receptors and both harbor FGF receptor species of Mr 145.000, but they differ in their pattern of lower and higher-molecular weight FGF receptor species. Our results demonstrate that enhanced MYCN expression confers to neuroblastoma cells the ability to respond to bFGF, possibly by inducing functional FGF receptors. This mechanism may contribute to the advanced malignant phenotype of human neuroblastomas with enhanced MYCN expression.     

Mouse oocytes suppress cAMP-induced expression of LH receptor mRNA by granulosa cells in vitro

Mouse oocytes suppress follicle-stimulating hormone (FSH)–induced luteinizing hormone receptor (LHR) messenger ribonucleic acid (mRNA) expression in cultured granulosa cells. The objective of this study was to assess the mechanism by which oocytes suppress FSH-induced LHR expression. The effect of cumulus cell–denuded, germinal-vesicle-stage oocytes, isolated from antral follicles, on FSH-induced cyclic adenosine monophosphate (cAMP) production by cultured granulosa cells was determined by radioimmunoassays. In addition, the effect of oocytes on 8Br-cAMP–induced LHR mRNA steady-state expression by granulosa cells was assessed by RNase protection assays. Oocytes had no detectable effect on FSH-induced cAMP production. However, oocytes dramatically suppressed 8Br-cAMP–induced LHR mRNA steady-state expression by granulosa cells. It was concluded that the mechanism by which oocytes suppress FSH-induced steady-state expression of LHR mRNA is not by inactivating FSH, preventing functional interactions of FSH with its granulosa cell receptors, or by interfering with the signal-transduction mechanisms required for FSH-dependent cAMP production. In addition, since oocytes suppressed the 8Br-cAMP–induced increase in steady-state expression of mRNA for LHR, oocyte-derived factors probably suppress expression by acting downstream of FSH-induced elevation of granulosa cell cAMP. Mol. Reprod. Dev. 49:327–332, 1998. © 1998 Wiley-Liss, Inc.