Differential activation of wild-type estrogen receptor alpha and C-terminal deletion mutants by estrogens, antiestrogens and xenoestrogens in breast cancer cells

17beta-Estradiol (E2), diethylstilbestrol (DES) and several synthetic (or xenoestrogenic) compounds induced transactivation in MCF-7 or MDA-MB-231 cells transfected with wild-type estrogen receptor alpha (ERalpha) and a construct (pERE(3)) containing three tandem estrogen responsive elements (EREs) linked to a luciferase gene. In contrast, the antiestrogens ICI 182,780 and 4-hydroxytamoxifen (4-OHT) were inactive in this assay. We have investigated the effects of these compounds and several structurally-diverse estrogenic compounds on transactivation in cells transfected with pERE(3) and wild-type ERalpha, mutant ERalpha (1-553), and ERalpha (1-537) containing deletions of amino acids 595-554 and 595-538, respectively. These constructs were used to develop an in vitro assay to distinguish between different structural classes of estrogenic compounds. The results obtained using these constructs were highly cell context- and structure-dependent. Neither E2- nor diethylstilbestrol-induced transactivation in MCF-7 (or MDA-MB-231) cells transfected with pERE(3)/ERalpha (1-537) due to partial deletion of helix 12; however, octylphenol and nonlylphenol, resveratrol (a phytoestrogen), kepone and 2',3',4',5'-tetrachloro-4-biphenylol were "estrogenic" in MCF-7 cells transfected with pERE(3)/ERalpha (1-537). Moreover, the structure-dependent estrogenic activities of several synthetic estrogens (xenoestrogens) in MDA-MB-231 cells were different than those observed in MCF-7 cells. These results demonstrate that the estrogenic activity of many synthetic compounds do not require activation function 2 (AF-2) of ERalpha and are mechanistically different from E2. These data suggest that xenoestrogens are selective ER modulators (SERMs).     

Analysis of estrogen receptor alpha-Sp1 interactions in breast cancer cells by fluorescence resonance energy transfer

Estrogen-dependent regulation of several genes associated with cell cycle progression, proliferation, and nucleotide metabolism in breast cancer cells is associated with interactions of estrogen receptor (ER)alpha/Sp1 with GC-rich promoter elements. This study investigates ligand-dependent interactions of ERalpha and Sp1 in MCF-7 breast cancer cells using fluorescence resonance energy transfer (FRET). Chimeric ERalpha and Sp1 proteins fused to cyan fluorescent protein or yellow fluorescent protein were transfected into MCF-7 cells, and a FRET signal was induced after treatment with 17beta-estradiol, 4'-hydroxytamoxifen, or ICI 182,780. Induction of FRET by these ERalpha agonists/antagonists was paralleled by their activation of gene expression in cells transfected with a construct (pSp1(3)) containing three tandem Sp1 binding sites linked to a luciferase reporter gene. In contrast, interactions between ERalpha and Sp1DeltaDBD [a DNA binding domain (DBD) deletion mutant of Sp1] are not observed, and this is consistent with the critical role of the C-terminal DBD of Sp1 for interaction with ERalpha. Results of the FRET assay are consistent with in vitro studies on ERalpha/Sp1 interactions and transactivation, and confirm that ERalpha and Sp1 interact in living breast cancer cells.     

ERα与Sp1相互作用激活LRP16启动子转录活性

根据已报道的LRP1 6启动子序列 (2 6kb) ,采用PCR反应获得 6个启动子 5′删除突变体 ,分别插入pGL3 Basic载体 ,构建 6种 5′缺失报告基因表达载体 (pS1 ～pS6) .分别与ERα真核表达载体共转染MCF 7细胞 .用双荧光素酶报告系统测定荧光素酶活性 ,以明确LRP1 6基因上游启动子区域中的雌激素反应序列 .结果显示 ,pS1 ～pS6均有雌二醇反应性 .进而对pS5的 3′端缺失分析发现LRP1 6基因翻译起始位点上游 - 2 1 4至 - 2 5 1位置的序列具有雌激素应答 ,序列分析发现该片段序列中包含了一个供转录因子Sp1结合的GC富含位点和一个ERα反应元件的半位点 (1 2ERE Sp1 ) ,进一步突变分析显示这两个元件均为雌激素反应性所必需 .以含这两个顺式元件的序列 (- 2 5 3bp至 - 2 2 4bp)作为探针 ,超级迁移凝胶电泳试验结果表明了ERα和Sp1蛋白均可以和探针结合 .研究发现了雌激素上调LRP1 6基因表达的一个增强子元件— 1 2ERE Sp1 ,ERα和Sp1蛋白需要与DNA结合形成复合体 ,通过其相互作用激活转录     

Domains of estrogen receptor alpha (ERalpha) required for ERalpha/Sp1-mediated activation of GC-rich promoters by estrogens and antiestrogens in breast cancer cells

Estrogen receptor alpha (ERalpha)/Sp1 activation of GC-rich gene promoters in breast cancer cells is dependent, in part, on activation function 1 (AF1) of ERalpha, and this study investigates contributions of the DNA binding domain (C) and AF2 (DEF) regions of ERalpha on activation of ERalpha/Sp1. 17Beta-estradiol (E2) and the antiestrogens 4-hydroxytamoxifen and ICI 182,780 induced reporter gene activity in MCF-7 and MDA-MB-231 cells cotransfected with human or mouse ERalpha (hERalpha or MOR), but not ERbeta and GC-rich constructs containing three tandem Sp1 binding sites (pSp13) or other E2-responsive GC-rich promoters. Estrogen and antiestrogen activation of hERalpha/Sp1 was dependent on overlapping and different regions of the C, D, E, and F domains of ERalpha. Antiestrogen-induced activation of hERalpha/Sp1 was lost using hERalpha mutants deleted in zinc finger 1 [amino acids (aa) 185-205], zinc finger 2 (aa 218-245), and the hinge/helix 1 (aa 265-330) domains. In contrast with antiestrogens, E2-dependent activation of hERalpha/Sp1 required the C-terminal F domain (aa 579-595), which contains a beta-strand structural motif. Moreover, in peptide competition experiments overexpression of a C-terminal (aa 575-595) F domain peptide specifically blocked E2-dependent activation of hERalpha/Sp1, suggesting that F domain interactions with nuclear cofactors are required for ERalpha/Sp1 action.