| Reference | [1]. Endocrinology. 1984 Jun;114(6):2252-63. doi: 10.1210/endo-114-6-2252.<br />
Glucocorticoid versus antiglucocorticoid activity: can a single functional group modification of glucocorticoid steroids always convey antiglucocorticoid activity?<br />
Lamontagne N, Mercier L, Pons M, Thompson EB, Simons SS Jr.<br />
Single functional group modifications of glucocorticoid steroids have been performed in an effort to obtain antiglucocorticoids with high affinity and specificity for glucocorticoid receptors. This approach tests the hypothesis that the structural determinants of biological activity and receptor binding are independent so that modification of more potent glucocorticoids could yield more potent antiglucocorticoids . In this study, a new functional group capable of conferring antiglucocorticoid activity has been identified, i.e. the spiro C-17 oxetan -3'-one group. Using three glucocorticoids of greatly different potency ( deacylcortivazol greater than dexamethasone greater than cortisol), we examined the effects of incorporation of the oxetanone group and the previously described, alkylating C-21 mesylate group on steroid affinity for receptors and biological activity. In both series of modified steroids, the receptor affinity of the derivatives paralleled that of the parent steroids. The biological activities of the dexamethasone and cortisol derivatives were predominantly or totally antagonistic, while both deacylcortivazol derivatives were full agonists. We conclude that antiglucocorticoid activity can arise from the incorporation of a single functional group into glucocorticoid steroid structures, but that the expression of agonist vs. antagonist activity is determined by a balance of structural group determinants which are not restricted to a common region of the steroid. Within a given class of derivatives, receptor affinity correlated with the amount of agonist activity. The structure-activity relationships for dexamethasone oxetanone and deacylcortivazol mesylate were studied in detail. Dexamethasone oxetanone is a potent antiglucocorticoid in HTC cells. [3H]Dexamethasone oxetanone binds to cell-free glucocorticoid receptors with a Kd of 3.2 X 10(-8) M. No specific antiglucocorticoid binder was detected. Direct binding experiments with [3H]dexamethasone oxetanone as well as indirect studies of the kinetics of cell-free competition of [3H]dexamethasone binding demonstrated that dexamethasone oxetanone binds to receptors faster (by about a factor of 2) and dissociates from receptors much faster than does dexamethasone. Deacylcortivazol mesylate was a more potent agonist and binder to receptors than dexamethasone, but displayed no irreversible interactions with HTC cell receptors under those conditions that afforded a covalent receptor-steroid complex with the closely related dexamethasone mesylate.(ABSTRACT TRUNCATED AT 400 WORDS)<br />
DOI: 10.1210/endo-114-6-2252 PMID: 6547091 [Indexed for MEDLINE]<br />
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[2]. Biochemistry. 2005 Mar 8;44(9):3547-61. doi: 10.1021/bi048777i.<br />
Role of activation function domain-1, DNA binding, and coactivator GRIP1 in the expression of partial agonist activity of glucocorticoid receptor-antagonist complexes.<br />
Cho S(1), Blackford JA Jr, Simons SS Jr.<br />
Author information: (1)Steroid Hormones Section, NIDDK/LMCB, National Institutes of Health, Bethesda, Maryland 20892, USA.<br />
The determinants of the partial agonist activity of most antisteroids complexed with steroid receptors are not well understood. We now examine the role of the N-terminal half of the glucocorticoid receptor (GR) including the activation domain (AF-1), the DNA binding site sequence, receptor contact with DNA, and coactivator binding on the expression of partial agonist activity in two cell lines for GRs bound by five antiglucocorticoids: dexamethasone mesylate (Dex-Mes), dexamethasone oxetanone (Dex-Ox), progesterone (Prog), deoxycorticosterone (DOC), and RU486. Using truncated GRs, we find that the N-terminal half of GR and the AF-1 domain are dispensable for the partial agonist activity of antiglucocorticoids. This contrasts with the AF-1 domain being required for the partial agonist activity of antisteroids with most steroid receptors. DNA sequence (MMTV vs a simple GRE enhancer) and cell-specific factors (CV-1 vs Cos-7) exert minor effects on the level of partial agonist activity. Small activity differences for some complexes of GAL4/GR chimeras with GR- vs GAL-responsive reporters suggest a contribution of DNA-induced conformational changes. A role for steroid-regulated coactivator binding to GRs is compatible with the progressively smaller increase in partial agonist activity of Dex-Mes > Prog > RU486 with added GRIP1 in CV-1 cells. This hypothesis is consistent with titration experiments, where low concentrations of GRIP1 more effectively increase the partial agonist activity of Dex-Mes than Prog complexes. Furthermore, ligand-dependent GRIP1 binding to DNA-bound GR complexes decreases in the order of Dex > Dex-Mes > Prog > RU486. Thus, the partial agonist activity of a given GR-steroid complex in CV-1 cells correlates with its cell-free binding of GRIP1. The ability to modify the levels of partial agonist activity through changes in steroid structure, DNA sequence, specific DNA-induced conformational changes, and coactivator binding suggests that useful variations in endocrine therapies may be possible by the judicious selection of these parameters to afford gene and tissue selective results.<br />
DOI: 10.1021/bi048777i PMID: 15736964 [Indexed for MEDLINE]<br />
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[3]. Mol Endocrinol. 2001 Feb;15(2):255-70. doi: 10.1210/mend.15.2.0596.<br />
New antiprogestins with partial agonist activity: potential selective progesterone receptor modulators (SPRMs) and probes for receptor- and coregulator-induced changes in progesterone receptor induction properties.<br />
Giannoukos G(1), Szapary D, Smith CL, Meeker JE, Simons SS Jr.<br />
Author information: (1)Steroid Hormones Section, Laboratory of Molecular and Cellular Biology, National Institute of Diabetes, Digestive and Kidney Diseases, National Institutes of Health, Bethesda, MD 20892-0805, USA.<br />
A pharmacologically relevant property of steroid hormone-regulated gene induction is the partial agonist activity of antisteroid complexes. We now report that dexamethasone-mesylate (Dex-Mes) and dexamethasone-oxetanone (Dex-Ox), each a derivative of the glucocorticoid-selective steroid dexamethasone (Dex), are two new antiprogestins with significant amounts of agonist activity with both the A and B isoforms of progesterone receptor (PR), for different progesterone-responsive elements, and in several cell lines. These compounds continue to display activity under conditions where another partial antiprogestin (RTI-020) is inactive. These new antiprogestins were used to determine whether the partial agonist activity of PR complexes can be modified by changing concentrations of receptor or coregulator, as we have recently demonstrated for glucocorticoid receptors (GRs). Because GR and coregulator concentrations simultaneously altered the position of the physiologically relevant dose-response curve, and associated EC(50), of GR-agonist complexes, we also examined this phenomenon with PR. We find that elevated PR or transcriptional intermediary factor 2 (TIF2) concentrations increase the partial agonist activity of Dex-Mes and Dex-Ox, and the EC(50) of agonists, independently of changes in total gene transactivation. Furthermore, the corepressors SMRT (silencing mediator for retinoid and thyroid receptors) and NCoR (nuclear receptor corepressor) each suppresses gene induction but NCoR acts opposite to SMRT and, like the coactivator TIF2, reduces the EC(50) and increases the partial agonist activity of antiprogestins. These comparable responses of GR and PR suggest that variations in receptor and coregulator concentrations may be a general mechanism for altering the induction properties of other steroid receptors. Finally, the magnitude of coregulator effects on PR induction properties are often not identical for agonists and the new antagonists, suggesting subtle mechanistic differences. These properties of Dex-Mes and Dex-Ox, plus the sensitivity of their activity to cellular differences in PR and coregulator concentrations, make these steroids potential new SPRMs (selective progesterone receptor modulators) that should prove useful as probes of PR induction properties.<br />
DOI: 10.1210/mend.15.2.0596 PMID: 11158332 [Indexed for MEDLINE]<br />
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[4]. J Steroid Biochem. 1986 Jul;25(1):11-20. doi: 10.1016/0022-4731(86)90275-x.<br />
Antiglucocorticoid steroids have increased agonist activity in those hepatoma cell lines that are more sensitive to glucocorticoids.<br />
Mercier L, Miller PA, Simons SS Jr.<br />
FU5-5 rat hepatoma (Reuber H35) cells are hypersensitive in that the same percentages of full induction of tyrosine aminotransferase (TAT) occur at much lower concentrations of glucocorticoids than in the related HTC rat hepatoma (Morris) cells. Unexpectedly, these hypersensitive FU5-5 cells also exhibited more agonist activity with the affinity labeling antiglucocorticoids cortisol 21-mesylate and dexamethasone 21-mesylate than did HTC cells (Mercier et al., Endocrinology 112, 601-609 [1983]). In the present study, several other antiglucocorticoids (11-desoxycortisone, progesterone, dexamethasone oxetanone, and RU 486 in addition to dexamethasone 21-mesylate) and the antiandrogen cyproterone acetate were examined to see if chemically unreactive, reversible antisteroids also would exhibit an altered activity (i.e. increased agonist activity) in FU5-5 cells. Each antiglucocorticoid examined did display a 2-fold increased amount of agonist activity in FU5-5 cells, as compared to HTC cells; only RU 486 was predominantly an antagonist in FU5-5 cells but the potency of RU 486 was about 9-fold less than in HTC cells. Dexamethasone, and especially progesterone, was metabolized in FU5-5 and HTC cells. However, differential metabolism in FU5-5 vs HTC cells cannot account for the increased induction of TAT in FU5-5 cells since the amount of agonist activity seen for dexamethasone mesylate (or its metabolites) depended not on the cell type used but rather on the glucocorticoid inducible enzyme monitored, i.e. TAT or glutamine synthetase. The combined data suggest that the hypersensitivity of FU5-5 cells towards glucocorticoid induction of TAT may be linked with the ability of both reversible and irreversible antiglucocorticoids to display increased TAT agonist activity in FU5-5 cells. This behavior was somewhat steroid specific since the antiandrogen cyproterone acetate did not display increased TAT agonist activity in FU5-5 cells compared to HTC cells and was only 2-fold less effective as an antiglucocorticoid in FU5-5.<br />
DOI: 10.1016/0022-4731(86)90275-x PMID: 2875214 [Indexed for MEDLINE]<br />
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[5]. J Steroid Biochem. 1986 Sep;25(3):315-22. doi: 10.1016/0022-4731(86)90242-6.<br />
Analysis of the relation between receptor binding affinity and antagonist efficacy of antiglucocorticoids.<br />
Gagne D, Pons M, Crastes de Paulet A.<br />
The biological potencies of four antiglucocorticoids, RU486 (RU), dexamethasone-oxetanone (DOX), R5020, and progesterone have been studied with respect to dexamethasone induction of tyrosine aminotransferase (TAT) in rat hepatoma tissue culture (HTC) cells. Their inhibitory effects in whole-cell competition binding studies (at 37 degrees C) and in TAT induction studies were analyzed by Dixon plots and Schild plots, respectively. We show that: In both cases, there is an actual competition of each antiglucocorticoid with the agonist dexamethasone for the same binding site; the two Kd values derived from the two plots are almost identical for each antiglucocorticoid; RU486 can be distinguished from the three other antiglucocorticoids by its high biological efficacy and its high affinity for the glucocorticoid receptor in whole cells at 37 degrees C (identical to its affinity in cytosol at 0 degree C). These results imply that: There is a linear correlation between the antagonist efficacies of antiglucocorticoids and their affinities for the glucocorticoid receptor in whole cells at 37 degrees C; the antagonistic action is solely mediated by competition with the agonist for the receptor binding site; this is verified by the fact that in all cases, in the presence or absence of antiglucocorticoids, a specific TAT induction level was always related to the same level of receptor saturation by the agonist in whole cells; the phenomena responsible for the high antagonist efficacy of RU486 are also responsible for its high affinity in whole cells at 37 degrees C.<br />
DOI: 10.1016/0022-4731(86)90242-6 PMID: 2877119 [Indexed for MEDLINE]
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