Estrogen receptor alpha is cell cycle-regulated and regulates the cell cycle in a ligand-dependent fashion

Estrogen receptor alpha (ERα) has been implicated in several cell cycle regulatory events and is an important predictive marker of disease outcome in breast cancer patients. Here, we aimed to elucidate the mechanism through which ERα influences proliferation in breast cancer cells. Our results show that ERα protein is cell cycle-regulated in human breast cancer cells and that the presence of 17-β-estradiol (E2) in the culture medium shortened the cell cycle significantly (by 4.5 hours, P < 0.05) compared with unliganded conditions. The alterations in cell cycle duration were observed in the S and G₂/M phases, whereas the G₁ phase was indistinguishable under liganded and unliganded conditions. In addition, ERα knockdown in MCF-7 cells accelerated mitotic exit, whereas transfection of ERα-negative MDA-MB-231 cells with exogenous ERα significantly shortened the S and G₂/M phases (by 9.1 hours, P < 0.05) compared with parental cells. Finally, treatment of MCF-7 cells with antiestrogens revealed that tamoxifen yields a slower cell cycle progression through the S and G₂/M phases than fulvestrant does, presumably because of the destabilizing effect of fulvestrant on ERα protein. Together, these results show that ERα modulates breast cancer cell proliferation by regulating events during the S and G₂/M phases of the cell cycle in a ligand-dependent fashion. These results provide the rationale for an effective treatment strategy that includes a cell cycle inhibitor in combination with a drug that lowers estrogen levels, such as an aromatase inhibitor, and an antiestrogen that does not result in the degradation of ERα, such as tamoxifen.     

Estrogen receptor alpha is essential for the proliferation of prostatic smooth muscle cells stimulated by 17β-estradiol and insulin-like growth factor 1

Estradiol (E₂) and its receptor estrogen receptor alpha (ERα) are implicated in the pathology of stromal‐predominant benign prostatic hyperplasia (BPH). Insulin‐like growth factor 1(IGF1) is produced primarily by stromal cells in the prostate. Recent study showed that E₂‐mediated regulation of IGF1 in mouse uterus requires the DNA binding ability of ERα. However, the crosstalk between ERα and IGF1 in the prostate has not been addressed yet. Therefore, in this study we employed mouse prostatic smooth muscle cells (PSMCs) as a model to demonstrate that E₂ stimulated the proliferation of PSMCs and up‐regulated the expression of IGF1 and its receptor IGF1R as well as cyclin D1 in PSMCs, all of which could be inhibited by shRNA‐mediated knockdown of ERα. Furthermore, we found that exogenous IGF1 could not promote cell proliferation and cyclin D1 expression in PSMCs subjected to shRNA‐mediated knockdown of ERα. Interestingly, blockage of IGF1R by antibody could inhibit E₂‐stimulated PSMCs proliferation. Altogether our present study provides the first line of evidence that there is crosstalk between ERα and IGF1 signaling in PSMCs proliferation in which ERα up‐regulates the expression of IGF1 and IGF1R, and IGF1 signaling is indispensable to mediate downstream effects of E₂ and ERα. Copyright © 2011 John Wiley & Sons, Ltd.     

雌激素受体β转录激活系统的构建

目的：构建雌激素受体β（ERβ）的转录激活系统。方法：以pcDNA3-ERβ质粒为模板,利用PCR技术扩增ERβ全长及转录激活结构域1（AF1）、DNA结合结构域（DBD）、转录激活结构域2（AF2）等不同长度的基因片段,分别插入pGAL载体中,构建重组质粒,转染293T细胞,利用免疫杂交方法鉴定其表达情况,用萤光素酶报告基因（Gal4-LUC）检测转录活性。结果：构建了ERβ全长及不同功能区片段编码基因的重组质粒,转染293T细胞后检测到相应蛋白的表达;在活性实验中,雌激素（E2）诱导下pGAL-ERβ使Gal4-LUC活性升高约17倍,pGAL-ERβAF1在有无E2诱导下均能使Gal4-LUC活性升高2倍,pGAL-ERβAF2在E2诱导下使Gal4-LUC活性升高约7倍,pGAL-ERβDBD对Gal4-LUC活性没有明显作用。结论：ERβ的转录激活系统构建成功。     

雌激素受体α真核表达载体的构建及其转录活性

目的：构建雌激素受体α（ERα）高效真核表达载体,并检测其转录活性。方法：用常规PCR方法特异扩增带有Flag标签的人ERα全长编码序列,经双酶切后将其克隆到真核表达载体pIRESpuro2中,构建重组质粒pIRESpuro2-Flag-ERα;用Westernblot鉴定该重组质粒介导的Flag-ERα在人胚肾细胞株293T中的表达情况;用含雌激素应答元件的报告基因系统检测ERα的转录活性。结果：构建了pIRESpuro2-Flag-ERα重组质粒,该质粒介导的融合蛋白在293T细胞中得到表达,并可以激活含雌激素应答元件的报告基因的活性。结论：ERα高效真核表达载体的构建为进一步研究ERα在乳腺癌中的作用奠定了基础。     

Furanodienone inhibits cell proliferation and survival by suppressing ERα signaling in human breast cancer MCF-7 cells

Estrogen receptor alpha (ERα) plays an important role in the development and progression of breast cancer and thus the attenuation of ERα activities is a promising treatment strategy. Furanodienone is one of the main bioactive chemical components of Rhizoma Curcumae which is commonly used in Chinese medicine for the treatment of cancer. In this study, we investigated the effects of furanodienone on human breast cancer MCF‐7, T47D, and MDA‐MB‐231 cells. Our results showed that furanodienone could inhibit MCF‐7, T47D, and MDA‐MB‐231 cells proliferation in a dose (10–160 µM) dependent manner. ERα‐negative MDA‐MB‐231 cells were less sensitive to furanodienone than ERα‐positive MCF‐7 and T47D cells. Furanodienone could effectively block 17β‐estradiol (E2)‐stimulated MCF‐7 cell proliferation and cell cycle progression and induce apoptosis evidenced by the flow cytometric detection of sub‐G1 DNA content and the appearance of apoptotic nuclei after DAPI staining. Furanodienone specifically down‐regulated ERα protein and mRNA expression levels without altering ERβ expression. Furanodienone treatment inhibited E2‐stimulation of estrogen response element (ERE)‐driven reporter plasmid activity and ablated E2‐targeted gene (e.g., c‐Myc, Bcl‐2, and cyclin D1) expression which resulted in the inhibition of cell cycle progression and cell proliferation, and in the induction of apoptosis. Knockdown of ERα in MCF‐7 cells by ERα‐specific siRNA decreased the cell growth inhibitory effect of furanodienone. These findings suggest that effects of furanodienone on MCF‐7 cells are mediated, at least in part, by inhibiting ERα signaling. J. Cell. Biochem. 112: 217–224, 2011. © 2010 Wiley‐Liss, Inc.     

Inhibition of the actions of peroxisome proliferator-activated receptor alpha on obesity by estrogen

Objective: To determine whether the major ovarian factor estrogen modulates peroxisome proliferator‐activated receptor (PPAR) α actions on obesity and to investigate the mechanism by which estrogen regulates PPARα actions. Research Methods and Procedures: Female ovariectomized mice were randomly divided into four groups (n = 8/group). After they were treated with combinations of high fat, fenofibrate (FF), or 17β‐estradiol (E) for 13 weeks, variables and determinants of obesity and lipid metabolism were measured using in vivo and in vitro approaches. Results: When female ovariectomized mice were given a high‐fat diet with either FF or E, body weight gain and white adipose tissue mass were significantly reduced and serum lipid profiles were improved compared with control mice fed a high‐fat diet alone. When mice were concomitantly treated with FF and E, however, E reversed the effects of FF on body weight gain, serum lipid profiles, and hepatic PPARα target gene expression. Consistent with the in vivo data, E not only decreased basal levels of PPARα reporter gene activation but also significantly decreased Wy14,643‐induced luciferase reporter activity. In addition, inhibition of PPARα functions by E did not seem to occur by interfering with the DNA binding of PPARα. Discussion: Our results demonstrate that in vivo and in vitro treatment of estrogen inhibited the actions of FF‐activated PPARα on obesity and lipid metabolism through changes in the expression of PPARα target genes, providing evidence that FF does not regulate obesity in female mice with functioning ovaries.     

Generation and characterization of an estrogen receptor alpha‐iCre knock‐in mouse

Two estrogen receptors, ESR1 and ESR2, are responsible for the classical actions of estrogens in mammalian species. They display different spatiotemporal expression patterns and nonoverlapping functions in various tissues and physiological conditions. In this study, a novel knock‐in mouse line that expresses codon‐improved Cre recombinase (iCre) under regulation of the natural Esr1 promoter (Esr1–iCre) was developed. Functional characterization of iCre expression by crossing them with reporter lines (ROSA26‐lacZ or Ai9‐RFP) showed that iCre is faithfully expressed in Esr1‐lineage cells. This novel transgenic mouse line will be a useful animal model for lineage‐tracing Esr1‐expressing cells, selective gene ablation in the Esr1‐lineage cells and for generating global Esr1 knockout mice.     

Roles of ERα during mouse trophectoderm lineage differentiation: revealed by antagonist and agonist of ERα

During mouse early embryogenesis, blastomeres increase in number by the morula stage. Among them, the outer cells are polarized and differentiated into trophectoderm (TE), while the inner cells remain unpolarized and give rise to inner cell mass (ICM). TE provides an important liquid environment for ICM development. In spite of extensive research, the molecular mechanisms underlying TE formation are still obscure. In order to investigate the roles of estrogen receptor α (ERα) in this course, mouse 8‐cell embryos were collected and cultured in media containing ERα specific antagonist MPP and/or agonist PPT. The results indicated that MPP treatment inhibits blastocyst formation in a dose‐dependent manner, while PPT, at proper concentration, promotes the cavitation ratio of mouse embryos. Immunofluorescence staining results showed that MPP significantly decreased the nuclear expression of CDX2 in morula, but no significant changes of OCT4 were observed. Moreover, after MPP treatment, the expression levels of the genes related to TE specification, Tead4, Gata3 and Cdx2, were significantly reduced. Overall, these results indicated that ERα might affect mouse embryo cavitation by regulating TE lineage differentiation.     

Distribution of estrogen receptor α and progesterone receptor B in the bovine oviduct during the follicular and luteal phases of the sexual cycle: an immunohistochemical and semi-quantitative study

Abstract

The aim of our study was to determine the distribution of estrogen receptor α (ERα) and progesterone receptor B (PR-B) in the bovine oviduct during the follicular and luteal phases. Bovine oviducts from 23 animals were obtained from a local slaughterhouse. Blood samples from these animals also were taken before death to measure estrogen and progesterone levels. The serum levels of estradiol-17β and progesterone changed during the estrous cycle. Tissue distribution of ERα and PR-B was examined using immunohistochemical techniques and the results showed that ERα and PR-B were stained in nuclei of cells and could be detected in all compartments along the entire oviduct during both the follicular and luteal phases. During the follicular phase, no significant differences were found between ERα and PR-B distribution (p < 0.05), while significant differences were found between ERα and PR-B during the luteal phase (p < 0.05). We results indicated that the frequency and intensity of ERα and PR-β immunoreactivity in the oviduct of bovines varied according to the oviductal cell types and the phases of the sexual cycle.     

Efficient,specific, developmentally appropriate cre‐mediated recombination in anterior pituitary gonadotropes and thyrotropes

Tissue‐specific expression of cre recombinase is a well‐established genetic tool to analyze gene function, and it is limited only by the efficiency and specificity of available cre mouse strains. Here, we report the generation of a transgenic line containing a cre cassette with codon usage optimized for mammalian cells (iCre) under the control of a mouse glycoprotein hormone α‐subunit (αGSU) regulatory sequences in a bacterial artificial chromosome genomic clone. Initial analysis of this transgenic line, Tg(αGSU‐iCre), with cre reporter strains reveals onset of cre activity in the differentiating cells of the developing anterior pituitary gland at embryonic day 12.5, with a pattern characteristic of endogenous αGSU. In adult mice, αGSU‐iCre was active in the anterior lobe of the pituitary gland and in the cells that produce αGSU (gonadotropes and thyrotropes) with high penetrance. Little or no activity was observed in other tissues, including skeletal and cardiac muscle, brain, kidney, lungs, testis, ovary, and liver. This αGSU‐iCre line is suitable for efficient, specific, and developmentally regulated deletion of floxed alleles in anterior pituitary gonadotropes and thyrotropes. genesis 51:785–792. © 2013 Wiley Periodicals, Inc.