A Bipartite Recombinant Yeast System for the Identification of Subtype-Selective Estrogen Receptor Ligands

Abstract

Since the estrogen receptor alpha (ERalpha) and beta (ERbeta) are thought to mediate different biological effects, there is intense interest in designing or screening subtype-selective ER ligands. Here, we constructed a biosensor identified as bipartite recombinant yeast system (BRYS) to screen and evaluate subtype-selective ER ligands. Uniform design and immunoblotting was used to determine an optimal dose of copper which control the expression of ERs through a copper inducible metallothionine promoter (CUP1). Some chemicals including natural estrogen (17beta-estradiol), specific estrogen receptor agonist (PPT and DPN), and phytoestrogens (genistein) were tested to validate this system. There was obvious and anticipative discrimination between the agonistic activities when these chemicals were identified and characterized. Furthermore, antagonist (ICI 182,780), which could antagonize the transactivation of estrogen, and chromatin immunoprecipitation (ChIP) were used to confirm that the agonistic effects were mediated through ERs. Comparative studies showed that this system was reproducible and sensitive. 4.7 pM (1.3 ng/l) estrogen was the lowest concentration that could be detected to ERalpha and 0.12 nM (33.5 ng/l) for ERbeta. The results from our study showed that in vitro screening for subtype-selective ER ligands could be conducted in a simple yeast system that is rapid, sensitive, reliable, and quantitative.