Jan-Åke Gustafsson

Interaction of estrogenic chemicals and phytoestrogens with estrogen receptor beta.

The rat, mouse and human estrogen receptor (ER) exists as two subtypes, ERα and ERβ, which differ in the C-terminal ligand-binding domain and in the N-terminal transactivation domain. In this study, we investigated the estrogenic activity of environmental chemicals and phytoestrogens in competition binding assays with ERα or ERβ protein, and in a transient gene expression assay using cells in which an acute estrogenic response is created by cotransfecting cultures with recombinant human ERα or ERβ complementary DNA (cDNA) in the presence of an estrogen-dependent reporter plasmid. Saturation ligand-binding analysis of human ERα and ERβ protein revealed a single binding component for[ 3H]-17β-estradiol (E2) with high affinity[ dissociation constant (Kd) = 0.05 - 0.1 nm]. All environmental estrogenic chemicals [polychlorinated hydroxybiphenyls, dichlorodiphenyltrichloroethane (DDT) and derivatives, alkylphenols, bisphenol A, methoxychlor and chlordecone] compete with E2 for binding to both ER subtypes with a...

Tissue Distribution and Quantitative Analysis of Estrogen Receptor-α (ERα) and Estrogen Receptor-β (ERβ) Messenger Ribonucleic Acid in the Wild-Type and ERα-Knockout Mouse

Until recently, only a single type of estrogen receptor (ER) was thought to exist and mediate the genomic effects of the hormone 17beta-estradiol in mammalian tissues. However, the cloning of a gene encoding a second type of ER, termed ERbeta, from the mouse, rat, and human has prompted a reevaluation of the estrogen signaling system. Based on in vitro studies, the ERbeta protein binds estradiol with an affinity similar to that of the classical ER (now referred to as ERalpha) and is able to mediate the effects of estradiol in transfected mammalian cell lines. Essential to further investigations of the possible physiological roles of ERbeta, and its possible interactions with ERalpha, are data on the tissue distribution of the two ER types. Herein, we have described the optimization and use of an RNase protection assay able to detect and distinguish messenger RNA (mRNA) transcripts from both the ERalpha and ERbeta genes in the mouse. Because this assay is directly quantitative, a comparison of the levels of expression within various tissues was possible. In addition, the effect of disruption of the ERalpha gene on the expression of the ERbeta gene was also investigated using the ERalpha-knockout (ERKO) mouse. Transcripts encoding ERalpha were detected in all the wild-type tissues assayed from both sexes. In the female reproductive tract, the highest expression of ERbeta mRNA was observed in the ovary and showed great variation among individual animals; detectable levels were observed in the uterus and oviduct, whereas mammary tissue was negative. In the male reproductive tract, significant expression of ERbeta was seen in the prostate and epididymis, whereas the testes were negative. In other tissues of both sexes, the hypothalamus and lung were clearly positive for both ERalpha and ERbeta mRNA. The ERKO mice demonstrated slightly reduced levels of ERbeta mRNA in the ovary, prostate, and epididymis. These data, in combination with the several described phenotypes in both sexes of the ERKO mouse, suggest that the biological functions of the ERbeta protein may be dependent on the presence of ERalpha in certain cell types and tissues. Further characterization of the physiological phenotypes in the ERKO mice may elucidate possible ERbeta specific actions.

Increased Expression of Estrogen Receptor-β mRNA in Male Blood Vessels After Vascular Injury

Estrogen exerts direct effects on vascular endothelial and smooth muscle cells that are important for vascular protection. Estrogen receptor-alpha (ERalpha) is expressed in vascular cells from males and females and may mediate some of the effects of estrogen on vascular tissue. However, we recently found that estrogen is able to protect against vascular injury in ovariectomized female ERalpha knockout mice. These mice express the newly described estrogen receptor-beta (ERbeta) in their aortas, suggesting that ERbeta may also mediate some of the direct effects of estrogen on the vasculature. In this study, the level of expression of ERalpha and ERbeta mRNA in male rat aortas was examined before and after vascular injury using en face (Häutchen) preparations and in situ hybridization. Little or no change in ERalpha expression was observed after vascular injury in either vascular endothelial or smooth muscle cells at any time point. In contrast, ERbeta mRNA was found to be expressed markedly after balloon injury. In endothelial cells, ERbeta was increased by 2 days after injury, and high levels of expression were maintained at 8 and 14 days. Furthermore, ERbeta expression was high in luminal smooth muscle cells at 8 and 14 days after injury and had decreased to low levels by 28 days after injury. These data demonstrate the presence of ERbeta in male vascular tissues and the induction of ERbeta mRNA expression after vascular injury, supporting a role for ERbeta in the direct vascular effects of estrogen.

Hepatic steroid hydroxylating enzymes are controlled by the sexually dimorphic pattern of growth hormone secretion in normal and dwarf rats.

In rats, the onset of the sexually dimorphic pattern of growth hormone (GH) secretion and increased hepatic GH‐binding capacity at puberty are temporally correlated with the sex‐dependent expression of some hepatic cytochrome P450 enzymes involved in steroid metabolism. There are indications that the expression of the GH receptor gene itself is dependent on the sexually differentiated pattern of GH secretion. However, the molecular mechanisms by which a given pattern of GH secretion turns on a specific set of genes in the hepatocyte are not yet understood. Studies of the cytochrome P450 2C gene subfamily in hypophysectomized rats and isolated hepatocytes suggest that one major mechanism of GH action in the liver occurs through modulation of gene transcriptional initiation. The occurrence, in dwarf rats and in rats treated neonatally with monosodium glutamate, of sex differences in GH secretion and liver steroid metabolism typical of normal rats, in spite of a 95% reduction in pituitary GH levels, is compatible with the notion that extremely low levels of circulating GH are sufficient to regulate the expression of liver steroid‐metabolizing enzymes. This, together with the fact that single daily subcutaneous injections of GH are sufficient to masculinize the liver of a hypophysectomized rat, indicates that neither the amplitude nor the frequency of the GH pulse is recognized as male or female by the hepatocyte, but rather the complete and prolonged suppression (in males) or the persistence (in females) of circulating GH during the trough period after a GH surge.—Legraverend, C.; Mode, A.; Wells, T.; Robinson, I.; Gustafsson, J.‐A. Hepatic steroid hydroxylating enzymes are controlled by the sexually dimorphic pattern of growth hormone secretion in normal and dwarf rats. FASEB J. 6: 711‐718; 1992.

4-Hydroxytamoxifen Trans-Represses Nuclear Factor-κB Activity in Human Osteoblastic U2-OS Cells through Estrogen Receptor (ER)α, and Not through ERβ1

Estrogens are important mediators of bone homeostasis, and postmenopausal estrogen replacement therapy is extensively used to prevent osteoporosis. The biological effects of estrogen are mediated by receptors belonging to the superfamily of steroid/thyroid nuclear receptors, estrogen receptor (ER)α and ERβ. ERα, not only trans-activates target genes in a hormone-specific fashion, but it can also neutralize other transcriptional activators, such as nuclear factor (NF)-κB, causing repression of their target genes. A major mechanism by which estrogens prevent osteoporosis seems to be repression of transcription of NF-κB target genes, such as the osteoclast-activating cytokines interleukin-6 and interleukin-1. To study the capacity of both ERs in repression of NF-κB signaling in bone cells, we first carried out transient transfections with ERα or ERβ of the human osteoblastic U2-OS cell line, in which endogenous NF-κB was stimulated by tumor necrosis factor α. Repression by ERα was already observed without 17...

Estrogen Receptor-β Inhibits Skeletal Growth and Has the Capacity to Mediate Growth Plate Fusion in Female Mice†

To determine the long‐term role of ERβ in the regulation of longitudinal bone growth, appendicular and axial skeletal growth was followed and compared in female ERβ−/−, ERα−/−, and ERα−/−β−/− mice. Our results show that ERβ inhibits appendicular and axial skeletal growth and has the capacity to induce fusion of the growth plates.

Genetic contributions to generalized arousal of brain and behavior

We have identified a generalized arousal component in the behavior of mice. Analyzed by mathematical/statistical approaches across experiments, investigators, and mouse populations, it accounts for about 1/3 of the variance in arousal-related measures. Knockout of the gene coding for the classical estrogen receptor (ER-α), a ligand-activated transcription factor, greatly reduced arousal responses. In contrast, disrupting the gene for a likely gene duplication product, ER-β, did not have these effects. A combination of mathematical and genetic approaches to arousal in an experimentally tractable mammal opens up analysis of a CNS function of considerable theoretical and practical significance.

Phytoestrogen-mediated inhibition of proliferation of the human T47D breast cancer cells depends on the ERα/ERβ ratio

This study investigates the importance of the intracellular ratio of the two estrogen receptors ERalpha and ERbeta for the ultimate potential of the phytoestrogens genistein and quercetin to stimulate or inhibit cancer cell proliferation. This is of importance because (i) ERbeta has been postulated to play a role in modulating ERalpha-mediated cell proliferation, (ii) genistein and quercetin may be agonists for both receptor types and (iii) the ratio of ERalpha to ERbeta is known to vary between tissues. Using human osteosarcoma (U2OS) ERalpha or ERbeta reporter cells it was shown that compared to estradiol (E2), genistein and quercetin have not only a relatively greater preference for ERbeta but also a higher maximal potential for activating ERbeta-mediated gene expression. Using the human T47D breast cancer cell line with tetracycline-dependent ERbeta expression (T47D-ERbeta), the effect of a varying intracellular ERalpha/ERbeta ratio on E2- or pythoestrogen-induced cell proliferation was characterised. E2-induced proliferation of cells in which ERbeta expression was inhibited was similar to that of the T47D wild type cells, whereas this E2-induced cell proliferation was no longer observed when ERbeta expression was increased. With increased expression of ERbeta the phytoestrogen-induced cell proliferation was also reduced. These results point at the importance of the cellular ERalpha/ERbeta ratio for the ultimate effect of (phyto)estrogens on cell proliferation.

Two Different Pathways for the Maintenance of Trabecular Bone in Adult Male Mice

Androgens may regulate the male skeleton either directly via activation of the androgen receptor (AR) or indirectly via aromatization of androgens into estrogen and, thereafter, via activation of estrogen receptors (ERs). There are two known estrogen receptors, ER‐α and ER‐β. The aim of this study was to investigate the relative roles of ER‐α, ER‐β, and AR in the maintenance of trabecular bone in male mice. Seven‐month‐old male mice, lacking ER‐α (ERKO), ER‐β (BERKO), or both receptors (DERKO), were orchidectomized (orx) and treated for 3 weeks with 0.7 μg/mouse per day of 17β‐estradiol or vehicle. No reduction in trabecular bone mineral density (BMD) was seen in ERKO, BERKO, or DERKO mice before orx, showing that neither ER‐α nor ER‐β is required for the maintenance of a normal trabecular BMD in male mice. After orx, there was a pronounced decrease in trabecular BMD, similar for all groups, resulting in equal levels of trabecular BMD in all genotypes. This reduction was reversed completely in wild‐type (WT) and BERKO mice treated with estrogen, and no significant effect of estrogen was found in ERKO or DERKO mice. In summary, the trabecular bone is preserved both by a testicular factor, presumably testosterone acting via AR and by an estrogen‐induced activation of ER‐α. These results indicate that AR and ER‐α are redundant in the maintenance of the trabecular bone in male mice. In contrast, ER‐β is of no importance for the regulation of trabecular bone in male mice.

Role of the Ada adaptor complex in gene activation by the glucocorticoid receptor.

We have shown that the Ada adaptor complex is important for the gene activation capacity of the glucocorticoid receptor in yeast. The recently isolated human Ada2 protein also increases the potency of the receptor protein in mammalian cells. The Ada pathway is of key significance for the tau1 core transactivation domain (tau1c) of the receptor, which requires Ada for activity in vivo and in vitro. Ada2 can be precipitated from nuclear extracts by a glutathione S-transferase-tau1 fusion protein coupled to agarose beads, and a direct interaction between Ada2 and tau1c can be shown by using purified proteins. This interaction is strongly reduced by a mutation in tau1c that reduces transactivation activity. Mutations affecting the Ada complex do not reverse transcriptional squelching by the tau1 domain, as they do for the VP16 transactivation domain, and thus these powerful acidic activators differ in at least some important aspects of gene activation. Mutations that reduce the activity of the tau1c domain in wild-type yeast strains cause similar reductions in ada mutants that contain little or no Ada activity. Thus, gene activation mechanisms, in addition to the Ada pathway, are involved in the activity of the tau1c domain.