乳腺癌雌激素受体β不同亚型表达载体的构建及其转录活性分析

目的：构建人乳腺癌中雌激素受体B（ERβ）3种亚型ERβ1、ERβ2和ERβ5的真核表达载体,测定不同亚型ERβ的转录活性。方法：以乳腺癌细胞MCF7的cDNA为模板,PCR扩增ERβ1、ERβ2和ERβ5万基因,分别克隆到pXJ40-Mye载体,Western印迹检测克隆载体在293T细胞内的表达;将上述载体与含雌激素应答元件（ERE）的萤光素酶（Luc）报告基因载体（ERE—luc）共转293T细胞,测定各亚型ER／3的转录活性。结果：构建了Myc—ERβ1、Myc—ERβ2和Mye—ERβ5表达载体,转录活性结果显示上述表达载体均具有活性,雌激素可升高ERβ5的转录活性,不能升高Eβ2和ER5的转录活性。结论：该研究为进-步探讨不同亚型ERβ在乳腺癌中的功能奠定了基础。     

雌激素受体β真核表达载体的构建及其转录活性

目的：构建雌激素受体（ER）β的哺乳动物细胞表达载体,并检测其转录活性。方法：利用PCR扩增带有Flag标签的人类ERβ全长编码序列,将扩增片段克隆到哺乳动物细胞表达载体pIRESpuro2中,得到重组质粒pIRESpuro2-Flag-ERβ;用Western blot鉴定Flag-ERβ重组蛋白在人胚肾293T细胞中的表达;用含雌激素应答元件（ERE）的报告基因系统检测Flag-ERβ的转录活性。结果：构建了pIRESpuro2-Flag-ERβ重组质粒,其介导的融合蛋白在293T细胞中得到表达,并可以激活含ERE的报告基因的表达。结论：ERβ高效真核表达载体的构建,为进一步研究ERβ在乳腺癌等疾病中的功能奠定了基础。     

Estrogen induces c-myc gene expression via an upstream enhancer activated by the estrogen receptor and the AP-1 transcription factor

c-myc oncogene is implicated in tumorigenesis of many cancers, including breast cancer. Although c-myc is a well-known estrogen-induced gene, its promoter has no estrogen-response element, and the underlying mechanism by which estrogen induces its expression remains obscure. Recent genome-wide studies by us and others suggested that distant elements may mediate estrogen induction of gene expression. In this study, we investigated the molecular mechanism by which estrogen induces c-myc expression with a focus on these distal elements. Estrogen rapidly induced c-myc expression in estrogen receptor (ER)-positive breast cancer cells. Although estrogen had little effect on c-myc proximal promoter activity, it did stimulate the activity of a luciferase reporter containing a distal 67-kb enhancer. Estrogen induction of this luciferase reporter was dependent upon both a half-estrogen response element and an activator protein 1 (AP-1) site within this enhancer, which are conserved across 11 different mammalian species. Small interfering RNA experiments and chromatin immunoprecipitation assays demonstrated the necessity of ER and AP-1 cross talk for estrogen to induce c-myc expression. TAM67, the AP-1 dominant negative, partially inhibited estrogen induction of c-myc expression and suppressed estrogen-induced cell cycle progression. Together, these results demonstrate a novel pathway of estrogen regulation of gene expression by cooperation between ER and AP-1 at the distal enhancer element and that AP-1 is involved in estrogen induction of the c-myc oncogene. These results solve the long-standing question in the field of endocrinology of how estrogen induces c-myc expression.     

Psoralidin,a coumestan analogue,as a novel potent estrogen receptor signaling molecule isolated from Psoralea corylifolia

A novel biological activity of psoralidin as an agonist for both estrogen receptor (ER)α and ERβ agonist has been demonstrated in our study. Psoralidin has been characterized as a full ER agonist, which activates the classical ER-signaling pathway in both ER-positive human breast and endometrial cell lines as well as non-human cultured cells transiently expressing either ERα or ERβ. The estrogenic activity was determined using the relative expression levels of either reporter or the endogenous genes dependent on the agonist-bound ER to the estrogen response element (ERE). Psoralidin at 10 μM was able to induce the maximum reporter gene expression corresponding to that of E₂-treated cells and such activation of the ERE-reporter gene by psoralidin was completely abolished by the cotreatment of a pure ER antagonist, implying that the biological activities of psoralidin are mediated by ER. Psoralidin was also able to induce the endogenous estrogen-responsive gene, pS2, in human breast cancer cells MCF-7. It was observed that activation of the classical ER-signaling pathway by psoralidin is mediated via induction of ER conformation by psoralidin and direct binding of the psoralidin–ER complex to the EREs present in the promoter region of estrogen-responsive genes, as shown by chromatin immunoprecipitation assay results. Finally, molecular docking of psoralidin to the ligand binding pocket of the ERα showed that psoralidin is able to mimic the binding interactions of E₂, and thus, it could act as an ER agonist in the cellular environment.     

LRP16与 ERα相互作用增强ERα介导的转录活性

LRP16是一个雌激素（E2）通过受体α（ERα）诱导表达的靶基因,LRP16不仅促进人乳腺癌MCF-7细胞的增殖,而且促进细胞的侵袭生长,但对LRP16作用的分子机制尚不清楚.首先,检测到LRP16表达缺陷明显削弱了MCF-7细胞对E2的反应性增殖能力;采用Northern 印迹与Western印迹法,进一步检测到抑制LRP16表达,明显损害了ERα靶基因对E2诱导上调的反应性,这些基因包括了cyclin D1, c-myc, c-fos,MTA3, pS2和维甲酸受体α基因（RARα）等;以上结果提示,LRP16参与了ERα介导的信号途径.将ERα模式启动子报告基因3×ERE-TATA-luc,ERα以及LRP16表达载体共转染MCF-7与HeLa细胞.结果发现,LRP16增强了ERα对报告基因的转录激活,并呈现对LRP16的剂量依赖性;进而采用GST-pull down以及免疫共沉淀方法证实了LRP16与ERα之间的直接相互作用,该作用不依赖于E2的存在,但可被E2增强;采用哺乳动物双杂交方法进一步证实了ERα与LRP16相互作用位点存在于A/B区的激活功能域-１（AF1）.以上结果表明,LRP16是ERα的一个共激活因子,通过相互作用,LRP16增强了ERα介导转录活性.该研究为LRP16促进ERα阳性乳腺癌细胞增殖与侵袭生长提供了合理的分子解释.     

Point mutation of estrogen receptor (ER) in the ligand-binding domain changes the pharmacology of antiestrogens in ER-negative breast cancer cells stably expressing complementary DNAs for ER.

The antiestrogen tamoxifen is used in the treatment of hormone-responsive breast cancer. However, therapeutic failure has frequently been observed in both patients and animal models after long term treatment. We have studied the effect of a point mutation that leads to the substitution of Val for Gly at codon 400 in the ligand-binding domain of the estrogen receptor (ER) on estrogenic and antiestrogenic activities of 4-hydroxytamoxifen (4-OHT) and its derivatives. Stable ER transfectants derived from MDA-MB-231 CL10A, an ER-negative breast cancer cell line, have been used in these studies. 4-OHT and its fixed ring derivatives showed more estrogen-like activity in ER transfectants than in MCF-7, an ER-positive breast cancer cell line. In this study, 4-OHT was a partial agonist of cell growth in the transfectant S30 cells, which express the wild-type ER. However, it was a full agonist in the mutant ER transfectant ML alpha 2H, which expressed ER with Val at codon 400. The increased estrogenic activity of 4-OHT in ML alpha 2H cells was not due to the preferential isomerization of trans 4-OHT to cis 4-OHT, since the nonisomerizable fixed ring trans 4-OHT was a partial agonist for cell growth in S30 cells and was a full agonist in ML alpha 2H cells. Transient transfection using a reporter plasmid containing an estrogen response element demonstrated that fixed ring trans 4-OHT had estrogenic activity in ML alpha 2H cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

GFP-reporter for a high throughput assay to monitor estrogenic compounds

In vitro test systems using yeast cells are a useful tool for the determination of the estrogenic activity of estrogens, phyto- and xeno-estrogens and can be used for monitoring large sample numbers in a routine analysis procedure. Our conventional transactivation assay functions with an expression plasmid expressing estrogen receptor α (ERα) under the control of a copper-inducible CUP1 promoter and a reporter plasmid expressing β-galactosidase under the control of the vitellogenin estrogen response element (ERE). In the novel yeast screen system the lacZ gene in the reporter plasmid was substituted by a gene for green fluorescent protein (GFP). Incubation of yeast with various concentrations of estrogenically active substances led to expression of the reporter gene product GFP in a dose dependent manner. The yeast transactivation assay was further down-scaled to be performed in a microplate scale, which is an important step to facilitate handling of large sample numbers. The sensitivity and reproducibility of the novel test system could be confirmed by analysis of the potencies of various estrogenically active substances. Thus, the newly developed yeast estrogen screen using GFP as a reporter can substitute the assay that has been used for a period of several years.