Functional Analysis of a Novel Estrogen Receptor-β Isoform
Citations Over TimeTop 10% of 1999 papers
Abstract
A new level of complexity has recently been added to estrogen signaling with the identification of a second estrogen receptor, ERbeta. By screening a rat prostate cDNA library, we detected ERbeta as well as a novel isoform that we termed ERbeta2. ERbeta2 contains an in-frame inserted exon of 54 nucleotides that results in the predicted insertion of 18 amino acids within the ERbeta hormone-binding domain. We also have evidence for the expression of both ERbeta1 and ERbeta2 in human cell lines. Competition ligand binding analysis of bacterially expressed fusion proteins revealed an 8-fold lower affinity of ERbeta2 for 17beta-estradiol (E2) [dissociation constant (Kd approximately 8 nM)] as compared with ERbeta1 (Kd approximately 1 nM). In vitro transcribed and translated ERbeta1 and ERbeta2 bind specifically to a consensus estrogen responsive element in a gel mobility shift assay. Furthermore, we show heterodimerization of ERbeta1 and ERbeta2 with each other as well as with ERalpha. In affinity interaction assays for proteins that associate specifically with the hormone-binding domain of these receptors, we demonstrate that the steroid receptor coactivator SRC-1 interacts in an estrogen-dependent manner with ERalpha and ERbeta1, but not with ERbeta2. In cotransfection experiments with expression plasmids for ERalpha, ERbeta1, and ERbeta2 and an estrogen-responsive element-containing luciferase reporter, the dose response of ERbeta1 to E2 was similar to that of ERalpha although the maximal stimulation was approximately 50%. In contrast, ERbeta2 required 100- to 1000-fold greater E2 concentrations for maximal activation. Thus, ERbeta2 adds yet another facet to the possible cellular responses to estrogen.
Related Papers
- → Allosteric Regulation of Estrogen Receptor Structure, Function, and Coactivator Recruitment by Different Estrogen Response Elements(2002)240 cited
- → Differential Transcriptional Regulation of Rat Vasopressin Gene Expression by Estrogen Receptor α and β**This work was supported by Public Health Service Grant NS20311 and the Alzheimer’s Disease Research Center of the University of Washington, AG-05136. These sequence data have been submitted to the DNA Database of Japan/European Molecular Biology Laboratory/GenBank databases under accession number AF112362.(2000)99 cited
- → Allosteric Regulation of Estrogen Receptor Structure, Function, and Coactivator Recruitment by Different Estrogen Response Elements(2002)69 cited
- → Selective Activation of Estrogen Receptor-β Target Genes by 3,3′-Diindolylmethane(2010)36 cited
- → Transcriptional Synergism on the pS2 Gene Promoter between a p160 Coactivator and Estrogen Receptor-α Depends on the Coactivator Subtype, the Type of Estrogen Response Element, and the Promoter Context(2002)38 cited