Synthesis and estrogenic activities of novel 7-thiosubstituted estratriene derivatives

A diastereomerically pure series of 7alpha-thioestratrienes was prepared and evaluated for its affinity for both the human estrogen receptor alpha and the more recently discovered estrogen receptor beta. The functional estrogenic activities of the compounds were measured in a MCF-7 ERE-tk-luciferase assay. The activities and selectivities of the compounds were sensitive to the nature of the thioether side chain.     

Design and synthesis of 1,3-biarylsulfanyl derivatives as new anti-breast cancer agents

A new series of 1,3-biarylsulfanyl derivatives (homodibenzyl core motif) have been designed and synthesized as new estrogen receptor ligands by chopping benzothiophene core of raloxifene to engender seco-raloxifene scaffold. All the synthesized compounds were screened for anti-proliferative, anti-osteoporotic, and anti-implantation activity. Compounds (35, 36) having basic amino anti-estrogenic side chain were exhibiting potential anti-proliferative activity in MCF-7, MDA-MB-231 and ishikawa cell lines. Some of the synthesized compounds having homodibenzyl motif (5, 8, 10) have shown moderate anti-osteoporotic activity.     

Tyrosine B10 inhibits stabilization of bound carbon monoxide and oxygen in soybean leghemoglobin

Detailed comparisons of the carbon monoxide FTIR spectra and ligand-binding properties of a library of E7, E11, and B10 mutants indicate significant differences in the role of electrostatic interactions in the distal pockets of wild-type sperm whale myoglobin and soybean leghemoglobin. In myoglobin, strong hydrogen bonds from several closely related conformations of the distal histidine (His(E7)) side chain preferentially stabilize bound oxygen. In leghemoglobin, the imidazole side chain of His(E7) is confined to a single conformation, which only weakly hydrogen bonds to bound ligands. The phenol side chain of Tyr(B10) appears to "fix" the position of His(E7), probably by donating a hydrogen bond to the Ndelta atom of the imidazole side chain. The proximal pocket of leghemoglobin is designed to favor strong coordination bonds between the heme iron and axial ligands. Thus, high oxygen affinity in leghemoglobin is established by a favorable staggered geometry of the proximal histidine. The interaction between His(E7) and Tyr(B10) prevents overstabilization of bound oxygen. If hydrogen bonding from His(E7) were as strong as it is in mammalian myoglobin, the resultant ultrahigh affinity of leghemoglobin would prevent oxygen transport in root nodules.     

Estrogen receptor ligands. Part 13: Dihydrobenzoxathiin SERAMs with an optimized antagonist side chain

An optimized side chain for dihydrobenzoxathiin SERAMs was discovered and attached to four dihydrobenzoxathiin platforms. The novel SERAMs show exceptional estrogen antagonist activity in uterine tissue and an MCF-7 breast cancer cell assay.     

Structural requirements for high affinity ligand binding by estrogen receptors: a comparative analysis of truncated and full length estrogen receptors expressed in bacteria, yeast, and mammalian cells.

In order to better understand the structural requirements for effective high affinity binding of estrogens and antiestrogens by the human estrogen receptor (ER), a comparative study was undertaken in which we examined: 1) native ER from the MCF-7 ER-positive human breast cancer cell line; 2) full length ER expressed in yeast; 3) the ER hormone binding domain (amino acid residues 302-595) expressed in yeast; 4) a bacterially expressed protein A fusion product encoding a truncated ER (amino acid residues 240-595); and 5) a synthetic peptide encompassing amino acids 510-551 of the ER. The binding parameters studied included affinity, kinetics, structural specificity for ligands, and stability. Full length ER expressed in yeast was very similar to the MCF-7 ER in its affinity [dissociation constant (Kd), 0.35 +/- 0.05 nM], dissociation rate (t1/2, 3-4 h at 25 C), and structural specificity for both reversible and covalently attaching affinity ligands. While the truncated ER expressed in yeast was similar to MCF-7 ER in its specificity of ligand binding, it showed a slightly reduced affinity for estradiol (Kd, 1.00 +/- 0.17 nM). The bacterially expressed ER also had a lower affinity for estradiol (Kd, 1.49 +/- 0.16 nM), which may be due in part to an increase in the dissociation rate (t1/2, 0.5 h at 25 C). The attachment of covalent affinity ligands and structural specificity for a variety of reversible ligands was comparable in the bacterially expressed ER to that observed for the receptors expressed in MCF-7 cells and yeast.(ABSTRACT TRUNCATED AT 250 WORDS)     

Estrogen receptor ligands. Part 5: The SAR of dihydrobenzoxathiins containing modified basic side chains

Dihydrobenzoxathiin analogs (1-11) with modifications on the basic side chain region were prepared and evaluated for estrogen/anti-estrogen activity in both in vitro and in vivo models. The compounds generally maintained a high degree of selectivity for ERalpha over ERbeta, similar to the original lead compound I. Many of the compounds also maintained high potency in the inhibition of human carcinoma MCF-7 cell growth. However, all were less potent in the inhibition of estradiol-triggered uterine growth. This work demonstrates the sensitive nature of modification to the antagonist basic side chain region.     

Synthesis, pharmacological evaluation, and structure-activity relationships of benzopyran derivatives with potent SERM activity

The synthesis, binding affinity for estrogen receptor subtypes (ER alpha and ER beta) and pharmacological activity on rat uterus of a new class of potent ligands, characterized by a 3-phenylbenzopyran scaffold with a basic side chain in position 4, are reported. Some of these compounds, endowed with very high receptor affinity, showed potent inhibition of agonist-stimulated uterine growth, with no or limited proliferative effect. Binding affinity mostly depended on the nature and position of substituents at the 3-phenyl ring, while the uterine activity seems to be affected by basic chain length. Compound 9c (CHF4227) showed excellent binding affinity and antagonist activity on the uterus. The docking of benzopyran derivatives explained the structure-affinity relationships observed for 3-phenyl substitution: a small, hydrophobic 4'-substituent could interact with a small accessory binding cavity, while di-substitution at 4' and 3' led to some ER alpha selectivity. This selectivity can be ascribed to differences in amino acid composition and side chain conformation in the region accommodating the 3-phenyl ring at human ER alpha and ER beta ligand-binding domain.     

Chemical synthesis and biochemical characterization of a biotinylated derivative of 17beta-estradiol with a long side chain covalently attached to its C-7alpha position

High-affinity biotinylated derivatives of 17beta-estradiol (E(2)) are of value for isolation of various estrogen-binding proteins (including estrogen receptors) and also for studying protein-protein interactions involving these proteins. In this study, we developed a simplified route for the chemical synthesis of a biotinylated derivative of E(2) (compound 7) with a side chain attached to its C-7alpha position. Compound 7, i.e., 7alpha-{7-[8-(biotinamido)-octanamido]-heptyl}-estradiol, could be readily synthesized from 6-keto-estradiol-3,17beta-di-tetrahydropyranyl ether (compound 2, which can be prepared from E(2)), with a final yield of 36%. In vitro receptor-binding assay confirmed that the synthesized affinity ligand has a high binding affinity for both human estrogen receptor alpha and beta. When the affinity ligand (compound 7) was immobilized with avidin on an affinity column, it effectively bound human estrogen receptor alpha, and the receptor protein could be selectively eluted with a biotin-containing buffer. Using the same affinity ligand, prolyl 4-hydroxylase beta-subunit (also known as protein disulfide isomerase) was identified as one of the high-affinity E(2)-binding proteins in the whole cytosolic protein mixture prepared from MCF-7 human breast cancer cells. Computational molecular modeling analysis showed that compound 7 can bind to human estrogen receptor alpha in a similar manner as ICI-182,780 and raloxifene, and their binding energy values are also similar.     

Novel 1-(azacyclyl)-3-arylsulfonyl-1H-pyrrolo[2,3-b]pyridines as 5-HT6 agonists and antagonists

1-Aminoethyl-3-arylsulfonyl-1H-indoles 1 are 5-HT(6) receptor ligands with modest activity in a 5-HT(6) cyclase assay. Introduction of an additional nitrogen in the indole ring provides 1-aminoethyl-3-arylsulfonyl-1H-pyrrolo[2,3-b]pyridines 2 with both enhanced 5-HT(6) affinity and cyclase activity, many acting as 5-HT(6) agonists. We constrained the basic side chain as part of a ring to make 1-(azacyclyl)-3-arylsulfonyl-1H-pyrrolo[2,3-b]pyridines incorporating a pyrrolidinyl 3 or piperidinyl 4 ring system. Preparation of compounds 3 and 4 required synthesis of the key intermediates, 1-(pyrrolidin-3-yl)-1H-pyrrolo[2,3-b]pyridines 7 and 1-(piperidin-3-yl)-1H-pyrrolo[2,3-b]pyridines 8, respectively. Intermediates 7 were prepared through alkylation of 7-azaindole while the intermediates 8 required an alternate synthesis. The compounds of both series 3 and 4 were shown to have high binding affinities for the 5-HT(6) receptor. The in vitro functional activity at the 5-HT(6) receptor varied depending on various functionalities including the selection of the arylsulfonyl, the substitution on the arylsulfonyl group, the ring size, and the substitution on the basic amine moiety producing either 5-HT(6) receptor agonists or antagonists.     

Methyl p-hydroxyphenyllactate. An inhibitor of cell growth and proliferation and an endogenous ligand for nuclear type-II binding sites

We previously described and partially characterized endogenous ligands for nuclear type II sites in normal and malignant tissues. Chromatography of these ligands on Sephadex LH-20 revealed that two peaks with binding activity (alpha and beta) could be resolved. The beta-peak component was present in all normal tissues that we examined, but not in malignant tissues, and it inhibited the growth of MCF-7 human breast cancer cells in vitro. Conversely, the alpha-peak component was found to be present in both normal and malignant tissues, and did not inhibit MCF-7 cell growth. The present studies describe the purification and identification of the alpha-peak and beta-peak components in bovine serum and an assessment of the effects of these compounds on normal and malignant cell growth. Gas chromatography-mass spectroscopy analysis of the purified beta-peak component demonstrated that the compound was methyl p-hydroxyphenyllactate (MeHPLA). Competition analysis revealed that MeHPLA binds to nuclear type II sites with a high binding affinity, while physiological levels of this compound blocked estradiol stimulation of uterine growth in vivo and inhibited the growth of MCF-7 human breast cancer cells in vitro. The alpha-peak component was found to be the corresponding acid, p-hydroxyphenyllactic acid (HPLA). This compound interacted with nuclear type II sites with a relatively low affinity and did not block uterotropic response to estradiol or inhibit MCF-7 cell growth. These studies demonstrate that HPLA and MeHPLA are ligands for nuclear type II sites and that MeHPLA may be a very important regulator of normal and malignant cell growth.     

Synthesis and estrogen receptor affinity of a 4-hydroxytamoxifen-labeled ligand for diagnostic imaging

A 10-step synthesis of a novel 4-hydroxytamoxifen-DTPA ligand (HOTam-DTPA) is reported. Tamoxifen and its primary metabolite 4-hydroxytamoxifen are common estrogen receptor ligands. Consequently, tamoxifen has found utility as the targeting component of various diagnostic agents for selective imaging of estrogen receptor-rich tissue, specifically breast cancer. An L-aspartic acid-derived DTPA analogue was attached to the ethyl side chain of 4-hydroxy-tamoxifen using N,N'-dimethylethylenediamine as a hydrophilic linker. A competitve estrogen receptor binding assay using [3H]-17beta-estradiol was performed to determine the effect of the ethyl side chain modification on estrogen receptor affinity. The results show that while the relative affinity of HOTam-DTPA for the estrogen receptor is approximately 10-fold lower than that of tamoxifen, it still remains a potent ligand at relatively low concentrations.     

3-(3-Aryloxyaryl)imidazo[1,2-a]pyridine sulfones as liver X receptor agonists

Replacement of a quinoline with an imidazo[1,2-a]pyridine in a series of liver X receptor (LXR) agonists incorporating a [3-(sulfonyl)aryloxyphenyl] side chain provided high affinity LXR ligands 7. In functional assays of LXR activity, good agonist potency and efficacy were found for several analogs.     

Solid-phase synthesis and investigation of benzofurans as selective estrogen receptor modulators

A library of benzofurans was prepared by solid-phase synthesis methods, and several analogues were identified as potent ligands for the estrogen receptors ER-alpha and ER-beta, with some compounds having selectivity for ER-alpha. Analogues designed to more closely mimic Raloxifene were less effective. Certain benzofurans were effective in a bone pit assay, but were characterized as agonists in a MCF-7 breast tumor cell proliferation assay.     

Promising core structure for nuclear receptor ligands: design and synthesis of novel estrogen receptor ligands based on diphenylamine skeleton

Novel diphenylamine-type estrogen receptor ligands were designed and synthesized, and their biological activities were evaluated by means of binding assays for estrogen receptor-alpha and -beta and cell proliferation assay using MCF-7 cells. Compounds 4f, 11b, 12c, and 8 showed moderate estrogenic activities. We propose that the diphenylamine skeleton may be a privileged structure for various nuclear receptor ligands, including RAR, RXR, and AR ligands.     

A review of the molecular conformations of melatonin ligands at the melatonin receptor

This review examines the 1992-2000 literature on studies of the molecular conformations of melatonin ligands at the melatonin receptor. In order to investigate quantitative structure-affinity relationships between different chemical classes of melatonergic ligands binding to the melatonin GPCR, CoMFA has been applied to extended sets of compounds, to obtain 3D-QSAR agonist/antagonist models. The results of several authors have suggested that the active conformation of the C-3 aminoethyl side chain of melatonin and related compounds is in a folded form, orthogonal to the aromatic ring. Positive steric potentials were found in the C-2 region, surrounding the C-5 methoxy group and near the N -acyl group of the side chain, while substituents in positions C-6 and C-7 cause a decrease in affinity. Negative steric regions were found between indole N-1 and C-2. Receptor binding affinities have been predicted for a range of structurally diverse compounds for the sheep brain melatonin receptor considering steric, electrostatic and lipophilic fields.     

Analogies and differences in the modulation of progesterone receptor induction and cell proliferation by estrogens and antiestrogens in MCF-7 human breast cancer cells: study with 24 triphenylacrylonitrile derivatives

Structure-activity relationships in a homogeneous series of 24 triphenylacrylonitrile derivatives were examined with respect to the stimulation of progesterone receptor induction and cell proliferation in MCF-7 cells. In general, triphenylacrylonitrile derivatives were found to be full or partial agonists for both responses; the partial agonists were also able to antagonize the stimulatory action of estradiol. The agonistic activities of these molecules decreased as the size of the lateral side chain increased, but the side-chains correlated with partial agonism of progesterone receptor induction were bulkier than those correlated with partial agonism of cell proliferation. Agonistic and antagonistic effects on both responses were correlated with affinity for the estrogen receptor. Half maximal effects on the two responses occurred at different concentrations (4-fold) of the compounds. It can be concluded that in MCF-7 cells, triphenylacrylonitrile modulation of progesterone receptor induction and cell proliferation are mediated by the estrogen receptor; the two effects, which occur at different concentrations and with slightly different substituents of the compounds, are differentially modulated.     

C-11 diamino cryptolepine derivatives NSC748392, NSC748393, and NSC748394: Anticancer profile and G-quadruplex stabilization

G-Quadruplex DNA ligands are promising novel anticancer agents with potentially fewer side effects and greater selectivity than standard anticancer drugs. However, the design of G-quadruplex ligands remains challenging since known chemical features increasing selectivity have often compromised drugability. Three C-11 diamino cryptolepine derivatives, with significant chemical differences between the side chains, low cytotoxicity to mammalian non-tumor cells (Vero cells) and drug-like properties, were selected for anticancer drug screening in the NCI Developmental Therapeutics Program. The three compounds showed good in vitro anticancer profiles with GI₅₀ averages at sub-micromolar concentrations (0.32–0.78 μM), cytostatic effects (TGI) at micromolar concentrations (1.3–6.9 μM) and moderate cytotoxic effects to cancer cells (LC₅₀) also at micromolar concentrations (4.7–33 μM), but only the compound with a linear alkylamine side chain (NSC748393) showed a good score in the in vivo anticancer Hollow Fiber assay. compare analysis of growth inhibition profile of NSC748393 suggested a multi-target mechanism. G-Quadruplex DNA binding affinity and selectivity studies by FRET-melting assays showed that NSC748392 and NSC478393, with aliphatic amine side chains, are good G-quadruplex ligands but not selective, whereas a C-11 aromatic side chain, as in NSC748394, increases selectivity although with decreasing binding affinity. Overall, NSC748393 can be considered a lead molecule for the design of effective but more selective anticancer drugs targeting telomeric G-quadruplexes.     

Tamoxifen and AEBS ligands induced apoptosis and autophagy in breast cancer cells through the stimulation of sterol accumulation

Tamoxifen (Tx) interacts with high affinity to the microsomal antiestrogen binding site (AEBS) which is a hetero-oligomeric complex involved in cholesterol metabolism. We established that Tx and other AEBS ligands induce breast cancer cell differentiation, apoptosis and autophagy through the induction of sterol accumulation. We determined that cell death is sterol- and ROS-dependent and is prevented by the antioxidant vitamin E. Macroautophagy is characterized by the accumulation of autophagic vacuoles, an increase in the expression of Beclin 1 and the stimulation of autophagic flux. We established that macroautophagy is sterol-dependent and is associated with cell survival rather than cytotoxicity, since blockage of macroautophagy sensitizes cells to AEBS ligands. These results show that the accumulation of sterols by AEBS ligands in MCF-7 cells induces both apoptosis and macroautophagy. Collectively, these data support a therapeutic potential for selective AEBS ligands in breast cancer management and reveal a mechanism that explains the induction of autophagy in MCF-7 cells by Tx and other selective estrogen receptor modulators. Moreover these data give pharmacological clues to improve the apoptotic efficacy of AEBS ligands.