Review of fluorescent steroidal ligands for the estrogen receptor 1995-2018

An overview on Estrogen receptors signaling and its ligands in breast cancer

Estrogen governs the regulations of various pathological and physiological actions throughout the body in both males and females. Generally, 17β-estradiol an endogenous estrogen is responsible for different health problems in pre and postmenopausal women. The major activities of endogenous estrogen are executed by nuclear estrogen receptors (ERs) ERα and ERβ while non-genomic cytoplasmic pathways also govern cell growth and apoptosis. Estrogen accomplished a fundamental role in the formation and progression of breast cancer. In this review, we have hyphenated different studies regarding ERs and a thorough and detailed study of estrogen receptors is presented. This review highlights different aspects of estrogens ranging from receptor types, their isoforms, structures, signaling pathways of ERα, ERβ and GPER along with their crystal structures, pathological roles of ER, ER ligands, and therapeutic strategies to overcome the resistance.

Novel 11β-substituted estradiol conjugates: Transition from ERα agonizts to effective PROTAC degraders

Endocrine therapy is widely used in clinic for breast cancer treatment, but long-term treatment inevitably causes drug resistance. Most of endocrine therapy-resistant breast cancers continue to depend on ERα signaling for growth and survival. In this regard, small molecule-induced ERα degradation, i.e. proteolysis targeting chimeras (PROTACs), represents an effective strategy to overcome endocrine resistance. Herein, we describe the design, synthesis, and biological evaluation of novel ERα-targeting PROTACs, wherein a E3 ligase ligand was attached to the 11β-position of estradiol via various linkers. Our efforts have identified a potent ERα PROTAC 15b that achieved excellent ERα degradation activity (DC₅₀ = 67 nM) and induced comparable inhibition of cell growth to that of fulvestrant in MCF-7 cells. Besides, 15b displayed antagonistic effects in uterine cells and favorable physicochemical properties, making it as a good lead compound for further development as anti-breast agents.

Recent advances in estrogen receptor-targeted probes conjugated to BODIPY dyes

Estrogens, is a class of steroid hormones associated with the occurrence and development of breast cancer, that bind to estrogen receptors (ER). The development of BODIPY-based fluorescent ligands for the ER has continued to gain tremendous attention over the past 20 years. This review focuses on the synthesis methods, optical properties, and biological activity of BODIPY fluorescent probes conjugated to ER ligands. These will provide new strategy for designing fluorescent probes for targeting estrogen receptors.

Monitoring ligand-mediated helix 12 transitions within the human estrogen receptor α using bipartite tetracysteine display

Estrogen receptor α ligand-binding domains (ERα-LBD) expressing tetracysteine motifs bind FlAsH-EDT₂ upon transition of helix 12 (H12) to a folded state. Changes in fluorescence intensity allowed surveillance of ligand-mediated H12 transitions and facilitated the determination of FlAsH association rates (k_on) and apparent equilibrium dissociation constants (K_app) to ERα-LBDs in the presence of estrogenic ligands.

ER subtype selectivity of m-carborane-containing phenols: C-alkyl groups on the m-carborane cage enhance ERα selectivity

Estrogen receptor (ER) exhibits two subtypes, ERα and ERβ, whose biological functions are quite different despite expression in the same tissues. We developed diiodo-m-carborane derivative 3a, which showed 14-fold selectivity for ERβ with high binding affinity toward ERβ. Interestingly, introduction of an alkyl group into the carbon atom of the m-carborane cage of 3a markedly enhanced the binding affinity toward ERα and decreased affinity toward ERβ. C-n-propyl derivative 3d showed 28-fold selectivity for ERα in an ER binding assay and promoted proliferation of MCF-7 breast cancer cells. Docking simulation studies suggest that the directions of the n-propyl group and the diiodo substituent introduced on the m-carborane cage play important roles for the control of ER subtype selectivity. As 3a and 3d showed ERβ and ERα selectivity with high binding affinity, respectively, these ligands may be useful as biological tools to aid in understanding the different roles of ER subtypes.

Design and synthesis of fluorescently labeled steroidal antiestrogens

A set of derivatives of 11β-(4-oxyphenyl)estradiol were prepared as potential fluorescent imaging agents for the evaluation of the estrogen receptor. The compounds were designed based on the established affinity and selectivity of 11β-[4-(dimethylethoxy)phenyl]estradiol (RU39411) as an estrogen receptor (ER) antagonist. The 5-(dimethylamino) naphathalene-1-sulfonyl (dansyl) and 7-nitrobenzo[c][1,2,5] oxadiaol-4-yl (NBD) moieties were selected based on their fluorescent and physicochemical properties. A convergent synthesis was developed that culminated in the [3 + 2] copper (I) assisted alkyne-azide cycloaddition coupling of the steroidal and fluorescent components. Good yields were obtained for the intermediates and final products, and the structural variations in the steroid component will permit evaluation of ER affinity and selectivity.