Discovery of nonsteroidal glucocorticoid receptor ligands based on 6-indole-1,2,3,4-tetrahydroquinolines

A series of nonsteroidal glucocorticoid receptor (GR) ligands based on a 6-indole-1,2,3,4-tetrahydroquinoline scaffold are reported. Structure-activity relationship (SAR) of the pendent indole group identified compound 20 exhibiting good GR binding affinity (K(i)=1.5nM) and 100- to 1000-fold selectivity over MR, PR, and AR while showing activity in an E-selectin repression assay.     

Identification of dissociated non-steroidal glucocorticoid receptor agonists

A new series of ligands for the glucocorticoid receptor (GR) is described. SAR development was guided by docking 3 into the GR active site and optimizing an unsubstituted phenyl ring for key interactions found in the steroid A-ring binding pocket. To identify compounds with an improved side effect profile over marketed steroids the functional activity of compounds was evaluated in cell based assays for transactivation (aromatase) and transrepression (IL-6). Through this effort, 36 has been identified as a partial agonist with a dissociated profile in these cell based assays.     

Synthesis and identification of novel oxa-steroids as progesterone receptor antagonists

A novel series of oxa-steroids 6 derived from (8S, 13S, 14R)-7-oxa-estra-4,9-diene-3,17-dione 1 have been synthesized and identified as potent and selective progesterone receptor antagonists. These novel oxa-steroids showed similar potency to mifepristone. Preliminary SAR study resulted in the most potent 17-phenylethynyl oxa-steroid 6i wih an IC(50) of 1.4nM. In contrast to the equipotent mifepristone toward the progesterone receptor (PR) and glucocorticoid receptor (GR), compound 6i had over 200-fold selectivity for PR over GR.     

Discovery and SAR study of novel dihydroquinoline-containing glucocorticoid receptor agonists

We have recently reported the discovery of a novel class of glucocorticoid receptor (GR) antagonists, exemplified by 3, containing a 1,2-dihydroquinoline molecular scaffold. Further SAR studies of these antagonists uncovered chemical modifications conveying agonist functional activity to this series. These agonists exhibit good GR binding affinity and are selective against other nuclear hormone receptors.     

Discovery of a potent and dissociated non-steroidal glucocorticoid receptor agonist containing an alkyl carbinol pharmacophore

Synthesis and structure–activity relationship (SAR) of a series of alkyl and cycloalkyl containing non-steroidal dissociated glucocorticoid receptor (GR) agonists is reported. This series of compounds was identified as part of an effort to replace the CF₃ group in a scaffold represented by 1a. The study culminated in the identification of compound 14, a t-butyl containing derivative, which has shown potent activity for GR, selectivity against the progesterone receptor (PR) and the mineralocorticoid receptor (MR), in vitro anti-inflammatory activity in an IL-6 transrepression assay, and dissociation in a MMTV transactivation counter-screen. In a collagen-induced arthritis mouse model, 14 displayed prednisolone-like efficacy, and lower impact on body fat and free fatty acids than prednisolone at an equivalent anti-inflammatory dose.     

Parallel synthesis and SAR study of novel oxa-steroids as potent and selective progesterone receptor antagonists

Efficient parallel synthesis of novel 7-oxa-steroids 4 has been achieved from the key intermediate 3 via a one-pot four-step sequence. oxa-Steroids 4 with various ortho-, meta-, and para-monosubstituents on the phenyl ring, as well as disubstituted phenyl and heterocycles, were evaluated for progesterone receptor (PR) and glucocorticoid receptor (GR) antagonist activities. SAR study demonstrated that the para-fluorinated substituents on the phenyl ring not only increased the potency for PR in a T47D cell functional assay, but also improved the selectivity over GR in an A549 cell functional assay. The para-fluorophenyl oxa-steroid 4l and the para-trifluoromethylphenyl oxa-steroid 4p were found to be remarkably more potent and more selective PR antagonists than mifepristone, with subnanomolar potency and about 140-fold selectivity over GR. Molecular modeling of the oxa-steroid bound to PR provided meaningful insight for the SAR study. oxa-Steroids 4a and 4b were found to be more efficacious than mifepristone in vivo in a rat uterine complement C3 assay via the oral route, although they were less than or equally potent to mifepristone in the T47D assay.     

Synthesis and structure–activity relationships of novel indazolyl glucocorticoid receptor partial agonists

SAR was used to further develop an indazole class of non-steroidal glucocorticoid receptor agonists aided by a GR LBD (ligand-binding domain)-agonist co-crystal structure described in the accompanying paper. Progress towards discovering a dissociated GR agonist guided by human in vitro assays biased the optimization of this compound series towards partial agonists that possessed excellent selectivity against other nuclear hormone receptors.     

1H-Pyrazolo[3,4-g]hexahydro-isoquinolines as selective glucocorticoid receptor antagonists with high functional activity

Addition of the 4-fluorophenylpyrazole group to the previously described 2-azadecalin glucocorticoid receptor (GR) antagonist 1 resulted in significantly enhanced functional activity. SAR of the bridgehead substituent indicated that whereas groups as small as methyl afforded high GR binding, GR functional activity was enhanced by larger groups such as benzyl, substituted ethers, and aminoalkyl derivatives. GR antagonists with binding and functional activity comparable to mifepristone were discovered (e.g., 52: GR binding K(i) 0.7 nM; GR reporter gene functional K(i) 0.6 nM) and found to be highly selective over other steroid receptors. Analogues 43 and 45 had >50% oral bioavailability in the dog.     

Discovery of potent and selective nonsteroidal indazolyl amide glucocorticoid receptor agonists

Modification of a phenolic lead structure based on lessons learned from increasing the potency of steroidal glucocorticoid agonists lead to the discovery of exceptionally potent, nonsteroidal, indazole GR agonists. SAR was developed to achieve good selectivity against other nuclear hormone receptors with the ultimate goal of achieving a dissociated GR agonist as measured by human in vitro assays. The specific interactions by which this class of compounds inhibits GR was elucidated by solving an X-ray co-crystal structure.     

Synthesis of novel steroidal agonists,partial agonists,and antagonists for the glucocorticoid receptor

Adverse effects of glucocorticoids could be limited by developing new compounds that selectively modulate anti-inflammatory activity of the glucocorticoid receptor (GR). We have synthesized a novel series of steroidal GR ligands, including potent agonists, partial agonists and antagonists with a wide range of effects on inhibiting secretion of interleukin-6. Some of these new ligands were designed to directly impact conformational stability of helix-12, in the GR ligand-binding domain (LBD). These compounds modulated GR activity and glucocorticoid-induced gene expression in a manner that was inversely correlated to the degree of inflammatory response. In contrast, compounds designed to directly modulate LBD epitopes outside helix-12, led to dissociated levels of GR-mediated gene expression and inflammatory response. Therefore, these new series of compounds and their derivatives will be useful to dissect the ligand-dependent features of GR signaling specificity.     

Novel methylene-linked heterocyclic EP1 receptor antagonists

We describe the SAR, in terms of heterocyclic replacements, for a series of pyrazole EP(1) receptor antagonists. This study led to the identification of several aromatic heterocyclic replacements for the pyrazole in the original compound. Investigation of replacements for the methylene linker uncovered disparate SAR in the thiazole and pyridine series.     

New progesterone receptor antagonists: phosphorus-containing 11beta-aryl-substituted steroids

A new series of phosphorus-containing 11beta-aryl-substituted steroids have been synthesized in an eight-step sequence involving a palladium-catalyzed coupling reaction to introduce a phosphorus group onto the aromatic ring. The compounds were evaluated for progesterone receptor (PR) antagonist activity in a T47D cell-based assay and for glucocorticoid receptor (GR) antagonist activity in an A549 cell-based assay. The structure-activity relationships of these compounds are discussed. Selected compounds were tested in vivo in a rat complement C3 assay.     

The purified activated glucocorticoid receptor is a homodimer

The structure of purified preparations of activated (DNA-binding) glucocorticoid receptor (GR) was analyzed in the presence or absence of DNA. A 35-base pair DNA fragment harboring a strong GR-binding site from the mouse mammary tumor virus promoter (-189/-166) was used for stoichiometric analysis of the GR.DNA complex. Glycerol gradient centrifugation was utilized in order to separate the 6 S GR.DNA complex from the 4 S GR and the 3 S DNA fragment. Synthetic glucocorticoid [3H]triamcinolone acetonide bound to GR and 32P-5'-end-labeled DNA fragment were used as probes for quantitation of each component. Such experiments demonstrated that two hormone molecules (two 87.5-kDa GR peptides) are associated with each cognate DNA site. Quantitative DNase I footprinting confirmed this result. The formation of the GR.DNA complex was ligand-dependent, but once formed the complex remained stable after ligand dissociation. Incubation of GR with 0.01-0.1% (w/v) glutaraldehyde resulted in a shift in its sedimentation rate from 4 to 6 S. Gel filtration chromatography of glutaraldehyde-treated GR resulted in a complex of slightly larger size than the gamma-globulin standard (158 kDa). Gel filtration of GR without glutaraldehyde treatment gave the identical result. This suggests that a GR multimer, probably a homodimer, is stable during gel filtration chromatography but needs to be stabilized by glutaraldehyde cross-linking or DNA during glycerol gradient centrifugation. We conclude that the activated GR exists as a homodimer when unbound as well as when bound to DNA.     

Nonsteroidal 2,3-dihydroquinoline glucocorticoid receptor agonists with reduced PEPCK activation

Continuing studies based on dihydroquinoline glucocorticoid receptor agonists lead to the discovery of a series of C4-oxime analogs. Representative compounds exhibited potent transrepression activity with minimal transactivation of phosphoenolpyruvate caboxykinase (PEPCK), a key protein in the gluconeogenesis pathway. These compounds represent promising leads in identifying GR agonists with high anti-inflammatory activity and attenuated potential for glucose elevation.     

Discovery and optimization of novel, non-steroidal glucocorticoid receptor modulators

A virtual screening approach comprising a 3-D similarity search based on known GR modulators was used to identify a novel series of non-steroidal glucocorticoid receptor (GR) antagonists. Optimization of the initial hit to provide potent compounds which exhibit good selectivity against other steroidal nuclear hormone receptors is described.     

Regulation of the dynamics of hsp90 action on the glucocorticoid receptor by acetylation/deacetylation of the chaperone

It is known that inhibition of histone deacetylases (HDACs) leads to acetylation of the abundant protein chaperone hsp90. In a recent study, we have shown that knockdown of HDAC6 by a specific small interfering RNA leads to hyperacetylation of hsp90 and that the glucocorticoid receptor (GR), an established hsp90 "client" protein, is defective in ligand binding, nuclear translocation, and gene activation in HDAC6-deficient cells (Kovacs, J. J., Murphy, P. J. M., Gaillard, S., Zhao, X., Wu, J-T., Nicchitta, C. V., Yoshida, M., Toft, D. O., Pratt, W. B., and Yao, T-P. (2005) Mol. Cell 18, 601-607). Using human embryonic kidney wild-type and HDAC6 (small interfering RNA) knockdown cells transiently expressing the mouse GR, we show here that the intrinsic properties of the receptor protein itself are not affected by HDAC6 knockdown, but the knockdown cytosol has a markedly decreased ability to assemble stable GR.hsp90 heterocomplexes and generate stable steroid binding activity under cell-free conditions. HDAC6 knockdown cytosol has the same ability to carry out dynamic GR.hsp90 heterocomplex assembly as wild-type cytosol. Addition of purified hsp90 to HDAC6 knockdown cytosol restores stable GR.hsp90 heterocomplex assembly to the level of wild-type cytosol. hsp90 from HDAC6 knockdown cytosol has decreased ATP-binding affinity, and it does not assemble stable GR.hsp90 heterocomplexes when it is a component of a purified five-protein assembly system. Incubation of knockdown cell hsp90 with purified HDAC6 converts the hsp90 to wild-type behavior. Thus, acetylation of hsp90 results in dynamic GR.hsp90 heterocomplex assembly/disassembly, and this is manifest in the cell as a approximately 100-fold shift to the right in the steroid dose response for gene activation.     

Interaction of RNA with transformed glucocorticoid receptor. I. Isolation and purification of the RNA

The glucocorticoid receptor (GR) from mouse AtT-20 pituitary tumor cells, when transformed using a variety of in vitro protocols, yields a DNA-binding RNA-containing 6 S form. In order to better understand the physiological role of RNA interaction with the transformed GR, we have isolated and purified the putative RNA from AtT-20 cells. [3H]Triamcinolone acetonide-labeled cytosolic GR was transformed, using Sephadex G-25 filtration, to yield the RNA-containing 6 S GR. The transformed 6 S GR was separated on DEAE-cellulose into the 4 S GR (eluting at about 100 mM KCl) while its associated RNA eluted at 0.30-0.45 M KCl. The addition of only these RNA fractions to the 4 S GR can reconstitute 6 S GR as shown on 5-20% sucrose gradients. RNA (0.3-0.45 M KCl fractions) was further purified by hydroxylapatite chromatography, and the bound RNA (eluted at approximately 70 mM PO4(-2)) was then loaded onto preparative 5-20% sucrose gradients to separate RNA on the basis of size (sedimentation rate). A uniform class of RNA sedimenting at 4 S was obtained and then adsorbed to oligo(dT)-cellulose columns. The unbound fraction (poly(A-)) was capable of shifting 4 S GR to 6 S. Using these chromatographic procedures about 90% of the cellular RNA, incapable of reconstituting the 6 S GR from the 4 S form, was eliminated. The 4 S GR was covalently cross-linked with the purified RNA (termed PIVB RNA) using formaldehyde. The resulting cross-linked GR X RNA complexes were shown to sediment at the density of ribonucleoprotein (1.38 g/cm3) in CsCl gradients and at the 6 S position in high salt sucrose gradients. The hydrolysis of PIVB RNA with ribonuclease A prevented the formation of high salt-resistant ribonucleoprotein complexes, indicating that the GR may be in close contact with PIVB RNA. Electrophoresis of the PIVB RNA on 5% agarose-formaldehyde-denaturing gels yielded one major band with a molecular size of approximately 75 bases. It thus appears that an endogenous 4 S RNA (PIVB RNA) of about 25 kDa specifically interacts with the monomeric 4 S GR to yield the 6 S GR.     

Non-imidazole heterocyclic histamine H3 receptor antagonists

Continued exploration of the SAR around the lead imidazopyridine histamine H(3) antagonist 1 has led to the discovery of several related series of heterocyclic histamine H(3) antagonists. The synthesis and SAR of indolizine, indole and pyrazolopyridine based compounds are now described.