2-methoxyestrone and afimoxifene

2-methoxyestrone has been researched along with afimoxifene* in 1 studies

Other Studies

1 other study(ies) available for 2-methoxyestrone and afimoxifene

Article	Year
Probing the structure and function of the estrogen receptor ligand binding domain by analysis of mutants with altered transactivation characteristics. Molecular and cellular biology, 1997, Volume: 17, Issue:8 We have developed a genetic screen for the yeast Saccharomyces cerevisiae to isolate estrogen receptor (ER) mutants with altered transactivation characteristics. Use of a "reverse" ER, in which the mutagenized ligand binding domain was placed at the N terminus of the receptor, eliminated the isolation of truncated constitutively active mutants. A library was screened with a low-affinity estrogen, 2-methoxyestrone (2ME), at concentrations 50-fold lower than those required for activation of the unmutagenized ER. Several mutants displaying enhanced sensitivity to 2ME were isolated. We further characterized a mutant carrying the substitution L536P, which was located immediately N terminal to the AF-2-activating domain of the receptor. Amino acid 536 corresponds to a ligand contact residue in retinoic acid receptor gamma, suggesting that key contact points are conserved among receptors. Introduction of L536P into the original ER cDNA isolate HE0, which contains the substitution G400V, rendered the receptor more sensitive to a variety of agonists. When introduced into the wild-type ER HEG0, L536P also rendered the receptor more sensitive to agonists, and, in addition, induced high levels of constitutive activity that could be inhibited by antiestrogens. Estrogens containing a keto substitution in the steroid D ring, but not those containing a hydroxyl group, were full agonists of L536P-HEG0. Limited proteolytic analysis suggested that the L536P substitution, which is located immediately N terminal to the AF-2 domain, induces a conformational change in the ER that partially mimics binding by hormone. Both HEG0 and L536P-HEG0 formed complexes with hsp90 in vitro, indicating a lack of correlation between interaction with hsp90 in vitro and hormonal regulation of ER transactivation in vivo. This supports the idea that a factor(s) acting downstream of hsp90 is important for controlling activity of the hormone-free receptor. Topics: Amino Acid Sequence; Animals; Cloning, Molecular; COS Cells; Estradiol; Estrogen Antagonists; Estrone; HSP90 Heat-Shock Proteins; Hydroxyestrones; Ligands; Molecular Sequence Data; Mutation; Nuclear Proteins; Polyunsaturated Alkamides; Receptors, Estrogen; Saccharomyces cerevisiae; Sequence Alignment; Tamoxifen; Transcriptional Activation	1997

Article

Year

Probing the structure and function of the estrogen receptor ligand binding domain by analysis of mutants with altered transactivation characteristics.

Molecular and cellular biology, 1997, Volume: 17, Issue:8

We have developed a genetic screen for the yeast Saccharomyces cerevisiae to isolate estrogen receptor (ER) mutants with altered transactivation characteristics. Use of a "reverse" ER, in which the mutagenized ligand binding domain was placed at the N terminus of the receptor, eliminated the isolation of truncated constitutively active mutants. A library was screened with a low-affinity estrogen, 2-methoxyestrone (2ME), at concentrations 50-fold lower than those required for activation of the unmutagenized ER. Several mutants displaying enhanced sensitivity to 2ME were isolated. We further characterized a mutant carrying the substitution L536P, which was located immediately N terminal to the AF-2-activating domain of the receptor. Amino acid 536 corresponds to a ligand contact residue in retinoic acid receptor gamma, suggesting that key contact points are conserved among receptors. Introduction of L536P into the original ER cDNA isolate HE0, which contains the substitution G400V, rendered the receptor more sensitive to a variety of agonists. When introduced into the wild-type ER HEG0, L536P also rendered the receptor more sensitive to agonists, and, in addition, induced high levels of constitutive activity that could be inhibited by antiestrogens. Estrogens containing a keto substitution in the steroid D ring, but not those containing a hydroxyl group, were full agonists of L536P-HEG0. Limited proteolytic analysis suggested that the L536P substitution, which is located immediately N terminal to the AF-2 domain, induces a conformational change in the ER that partially mimics binding by hormone. Both HEG0 and L536P-HEG0 formed complexes with hsp90 in vitro, indicating a lack of correlation between interaction with hsp90 in vitro and hormonal regulation of ER transactivation in vivo. This supports the idea that a factor(s) acting downstream of hsp90 is important for controlling activity of the hormone-free receptor.

Topics: Amino Acid Sequence; Animals; Cloning, Molecular; COS Cells; Estradiol; Estrogen Antagonists; Estrone; HSP90 Heat-Shock Proteins; Hydroxyestrones; Ligands; Molecular Sequence Data; Mutation; Nuclear Proteins; Polyunsaturated Alkamides; Receptors, Estrogen; Saccharomyces cerevisiae; Sequence Alignment; Tamoxifen; Transcriptional Activation

1997