The complete nuclear estrogen receptor family in the rainbow trout: discovery of the novel ERalpha2 and both ERbeta isoforms

Estrogen hormones interact with cellular ERs to exert their biological effects in vertebrate animals. Similar to other animals, fishes have two distinct ER subtypes, ERalpha (NR3A1) and ERbeta (NR3A2). The ERbeta subtype is found as two different isoforms in several fish species because of a gene duplication event. Although predicted, two different isoforms of ERalpha have not been demonstrated in any fish species. In the rainbow trout (Oncorhynchus mykiss), the only ER described is an isoform of the ERalpha subtype (i.e. ERalpha1, NR3A1a). The purpose of this study was to determine whether the gene for the other ERalpha isoform, ERalpha2 (i.e., NR3A1b), exists in the rainbow trout. A RT-PCR and cloning strategy, followed by screening a rainbow trout BAC library yielded a unique DNA sequence coding for 558 amino acids. The deduced amino acid sequence had a 75.4% overall similarity to ERalpha1. Both the rainbow trout ERbeta subtypes, ERbeta1 [NR3A2a] and ERbeta2, [NR3A2b] which were previously unknown in this species, were also sequenced as part of this study, and the amino acid sequences were found to be very different from the ERalphas (approximately 40% similarity). ERbeta1 and ERbeta2 had 594 and 604 amino acids, respectively, and had 57.6% sequence similarity when compared to one another. This information provides what we expect to be the first complete nuclear ER gene family in a fish. A comprehensive phylogenetic analysis with all other known fish ER gene sequences was undertaken to understand the evolution of fish ERs. The results show a single ERalpha subtype clade, with the closest relative to rainbow trout ERalpha2 being rainbow trout ERalpha1, suggesting a recent, unique duplication event to create these two isoforms. For the ERbeta subtype there are two distinct subclades, one represented by the ERbeta1 isoform and the other by the ERbeta2 isoform. The rainbow trout ERbeta1 and ERbeta2 are not closely associated with each other, but instead fall into their respective ERbeta subclades with other known fish species. Real-time RT-PCR was used to measure the mRNA levels of all four ER isoforms (ERalpha1, ERalpha2, ERbeta1, and ERbeta2) in stomach, spleen, heart, brain, pituitary, muscle, anterior kidney, posterior kidney, liver, gill, testis and ovary samples from rainbow trout. The mRNAs for each of the four ERs were detected in every tissue examined. The liver tended to have the highest ER mRNA levels along with the testes, while the lowest levels were generally found in the stomach or heart. The nuclear ERs have a significant and ubiquitous distribution in the rainbow trout providing the potential for complex interactions that involve the functioning of many organ systems.     

Establishment of estrogen receptor 1 (ESR1)‐knockout medaka: ESR1 is dispensable for sexual development and reproduction in medaka,Oryzias latipes

Estrogens play fundamental roles in regulating reproductive activities and they act through estrogen receptor (ESR) in all vertebrates. Most vertebrates have two ESR subtypes (ESR1 and ESR2), whereas teleost fish have at least three (Esr1, Esr2a and Esr2b). Intricate functionalization has been suggested among the Esr subtypes, but to date, distinct roles of Esr have been characterized in only a limited number of species. Study of loss‐of‐function in animal models is a powerful tool for application to understanding vertebrate reproductive biology. In the current study, we established esr1 knockout (KO) medaka using a TALEN approach and examined the effects of Esr1 ablation. Unexpectedly, esr1 KO medaka did not show any significant defects in their gonadal development or in their sexual characteristics. Neither male or female esr1 KO medaka exhibited any significant changes in sexual differentiation or reproductive activity compared with wild type controls. Interestingly, however, estrogen‐induced vitellogenin gene expression, an estrogen‐responsive biomarker in fish, was limited in the liver of esr1 KO males. Our findings, in contrast to mammals, indicate that Esr1 is dispensable for normal development and reproduction in medaka. We thus provide an evidence for estrogen receptor functionalization between mammals and fish. Our findings will also benefit interpretation of studies into the toxicological effects of estrogenic chemicals in fish.     

Molecular characterization and sex-specific tissue expression of estrogen receptor alpha (esr1), estrogen receptor betaa (esr2a) and ovarian aromatase (cyp19a1a) in yellow perch (Perca flavescens)

Yellow perch (Perca flavescens) exhibits an estrogen-stimulated sexual size dimorphism (SSD) wherein females grow faster and larger than males. To aid in the examination of this phenomenon, the cDNA sequences encoding estrogen receptor-alpha (esr1), estrogen receptor-betaa (esr2a) and ovarian aromatase (cyp19a1a) for the teleost yellow perch were obtained. Several tissues were analyzed from both male and female adult yellow perch for sex-specific tissue expression. The full length cDNAs of yellow perch esr1, esr2a and cyp19a1a consist of 3052 bp, 2462 bp and 1859 bp with open reading frames encoding putative proteins of 576 amino acids, 555 amino acids and 518 amino acids, respectively. Esr1 and esr2a expression was highest in female ovary and liver tissues with low to moderate expression in other tissues. Esr2a showed a more global tissue expression pattern than esr1, particularly in males but also in females. Cyp19a1a expression was highest in both male and female spleen tissue and oocytes with moderate expression in male pituitary and gill tissue. Cyp19a1a expression was moderately high in female liver tissue with undetectable expression in male liver tissue, suggesting its involvement in sexually dimorphic growth. These sequences are valuable molecular tools that can be used in future studies investigating estrogen mechanisms and actions, such as SSD, in yellow perch.     

Design, synthesis, and evaluation of peptides with estrogen-like activity

Currently used antiestrogenic drugs against hormone-dependent breast cancer, and estrogenic drugs used in treatment of osteoporosis, are associated with risk factors. Therefore, there is a strong need to develop selective estrogen receptor modulators with better tissue selectivity. In a recent study (Peptides, 2002, Vol. 3, 573-580), we used a monoclonal antibody to estradiol (mAb-E2) to screen a phage-display peptide library. We identified a 15-mer peptide (peptide H5) that recognizes mAb-E2 (IC(50) 1 microM) and estrogen receptor (ER)alpha (IC(50) 500 microM) but not ERbeta, and displays estrogen-like activity in vitro and in vivo. In this study, we designed and prepared peptides based on peptide H5, which possess improved estrogenic activity, by evaluating their binding to mAb-E2 and to ERs. Initially, we determined the minimal binding sequence of peptide H5 capable of binding mAb-E2 and ER. Subsequently, systematic single-residue replacements of the minimal sequence, followed by multiple-residue replacements, yielded hexa- and heptapeptides with increased affinities to mAb-E2 and to ER. The most promising peptides, VSWFFE (EMP-1) and VSWFFED (EMP-2) (EMP: estrogen-mimetic peptide), bind mAb-E2 with high affinity (IC(50) of 6 and 30 nM, respectively), recognize ERs with increased affinity (IC(50) of 100 microM for ERalpha, and 100-250 microM for ERbeta), and possess estrogenic activity in vivo. The short peptides described in this study may be used as potential lead compounds for developing new ER ligands.     

The kisspeptin/gonadotropin-releasing hormone pathway and molecular signaling of puberty in fish

The mechanisms underlying the initiation of puberty in fish are poorly understood, and whether the Kiss1 receptor (Kiss1r; previously designated G protein-coupled receptor 54; GPR54) and its ligands, kisspeptins, play a significant role, as has been established in mammals, is not yet known. We determined (via real-time PCR) temporal patterns of expression in the brain of kiss1r, gnrh2, and gnrh3 and a suite of related genes in the hypothalamo-pituitary-gonadal (HPG) axis and analyzed them against the timing of gonadal germ cell development in male and female fathead minnow (Pimephales promelas). Full- or partial-length cDNAs for kiss1r (736 bp), gnrh2 (698 bp), and gnrh3 (804 bp) cloned from fathead minnow were found to be expressed only in the brain, testis, and ovary of adult fish. Localization of kiss1r, gnrh2, and gnrh3 within the brain provided evidence for their physiological roles and a likely hypophysiotropic role for GnRH3 in this species (which, like other cyprinids, does not appear to express gnrh1). In both sexes, kiss1r expression in the brain increased at the onset of puberty and reached maximal expression in males when spermatagonia type B appeared in the testis and in females when cortical alveolus-stage oocytes first appeared in the ovary, the timings of which differed for the two sexes. However, kiss1r expression was considerably lower during more advanced stages of spermatogenesis and oogenesis. The expression of kiss1r closely aligned with that of the gnrh genes (gnrh3 in particular), suggesting the Kiss1r/kisspeptin system in fish has a similar role in puberty to that occurring in mammals, and this hypothesis was supported by the induction of gnrh3 (2.25-fold) and kiss1r (1.5-fold) in early-mid pubertal fish injected with mammalian kisspeptin-10 (2 nmol/g wet weight). An intriguing finding, and contrasting that in mammals, was an elevated expression of esr1, ar, and cyp19a2 (genes involved in sex steroid signaling) in the brain at the onset of puberty, and in females slightly in advance of the elevation in the expression of kiss1r.     

兴国红鲤ER基因克隆表达及EE2暴露对肝中ER表达的影响

为评估环境内分泌干扰物对鱼类的影响,研究克隆了兴国红鲤雌激素受体（Estrogen receptor,ER）4种亚型ERα、ERβ、ERβ1、ERβ2的全长cDNA序列,氨基酸序列比对发现兴国红鲤ERs分别与3种鲤科鱼类相应亚型具有较高的同源性。实时荧光定量PCR（qRT-PCR）检测结果表明,4种ER亚型mRNA在雌雄成体组织中呈现差异表达,雌性个体中,肝、卵巢和肠中4种ERs的表达量均较高;在雄性个体中,ERα和ERβ主要在肝中表达,ERβ1、ERβ2分别在肠和精巢中的表达量最高。将150日龄的兴国红鲤幼鱼分别暴露在0.01、0.1和1 nmol/L的17α-乙炔基雌二醇（EE2）中4周,检测了雌性幼鱼肝中4种ER基因的表达变化情况。在EE2中暴露1-2周后,兴国红鲤雌性幼鱼肝中ERα基因的表达水平有极显著的提升;各浓度EE2能持续显著促进其肝中ERβ的表达;在1-2周内各浓度EE2对ERβ1表达有所抑制;第1周EE2能够抑制ERβ2基因mRNA的表达,并在0.01 nmol/L时抑制作用达到了显著的水平。上述研究结果表明,EE2暴露能诱导或抑制兴国红鲤雌性幼鱼肝中ER亚型的表达,相对于ERβ、ERβ1和ERβ2、ERα可作为EE2短期（1-2周）敏感性生物学标记。     

Nonylphenol modulates expression of androgen receptor and estrogen receptor genes differently in gender types of the hermaphroditic fish Rivulus marmoratus

To uncover the effect of estrogenic chemicals [4-nonylphenol (NP) and bisphenol A (BisA)] on the expression of androgen receptor (AR) and estrogen receptors (ERalpha and ERbeta) in the hermaphroditic fish Rivulus marmoratus, we cloned the full length of the cDNAs encoding AR, ERalpha, and ERbeta from gonadal tissue of R. marmoratus and analyzed the modulation of expression of these genes following exposure to estrogenic chemicals using real-time RT-PCR. R. marmoratus AR, ERalpha, and ERbeta genes showed a high similarity to the relevant fish species on amino acid residues, respectively. Rm-ERalpha and Rm-ERbeta cDNAs included a serine-rich region when compared to other teleost fish ER genes. Tissue-specific expression of Rm-AR and Rm-ERbeta mRNAs in adult hermaphrodite R. marmoratus was high in the gonad, while Rm-ERalpha mRNA was high in the liver based on real-time RT-PCR. In addition, Rm-AR and Rm-ERalpha mRNAs increased along with developmental stage from stage 3 (5 dpf) to hatching, while Rm-ERbeta mRNA increased from stage 2 (2 dpf). To uncover the effect of estrogenic chemicals on R. marmoratus, we exposed the fish to NP (300 microg/l) and BisA (600 microg/l) for 96 h. Significant down-regulation of Rm-AR, Rm-ERalpha, and Rm-ERbeta mRNA was observed in gonadal tissue after exposure to NP but not BisA. In the liver, there were gender differences in gene expression after EDC exposure. These results demonstrate that expression patterns of the Rm-AR, Rm-ERalpha, and Rm-ERbeta genes in the hermaphroditic fish, R. marmoratus, vary according to tissue and developmental stage as well as the specificity of environmental estrogenic chemicals. These genes can be useful as molecular biomarkers in assessing the potential impact of estrogenic compounds using this species as a model system.     

Comparison of ELISAs for detecting vitellogenin in the fathead minnow (Pimephales promelas)

Measurement of vitellogenin (VTG) concentrations in the fathead minnow (Pimephales promelas) is currently being considered and evaluated for screening of endocrine active substances. One of the proposed methods, an enzyme-linked immunosorbent assay (ELISA) based on VTG from carp (Cyprinus carpio), was recently evaluated in an inter-laboratory ring test using whole body homogenates from juvenile fathead minnows. The objective of the current study was to compare the performance of three different ELISAs for measuring fathead minnow VTG: (1) a heterologous carp VTG (cVTG) ELISA used in the ring test, (2) a homologous fathead minnow VTG (fVTG) ELISA, and (3) a hybrid ELISA with the antibody developed for cVTG, but using fVTG for coating the plates and preparing standard curves. VTG was measured in whole body homogenates from juvenile fathead minnows exposed to 17alpha-ethynylestradiol (EE(2); 10 ng/l) and whole body homogenates and plasma from adult fathead minnows exposed to 17beta-estradiol (E(2); 5 mg/kg; i.p.). The cVTG assay showed lower specificity for fathead minnow VTG in whole body homogenates and plasma from treated fish, compared to the fVTG assay. VTG concentrations in juvenile fathead minnow homogenates from the EE(2)-exposed group were approximately 50-fold higher when measured using the fVTG method compared to the cVTG method. Use of the homologous fVTG in the hybrid cVTG assay yielded VTG concentrations in the range of the fVTG assay but the low specificity persisted. The homologous fVTG assay is recommended to achieve accurate quantification of VTG levels in fathead minnows.     

Characterization of estrogen receptor beta2 and expression of the estrogen receptor subtypes alpha, beta1, and beta2 in the protandrous black porgy (Acanthopagrus schlegeli) during the sex change process

Estrogens play an important role in many physiological processes in both female and male vertebrates, mediated by specific nuclear receptor, estrogen receptors (ERs). We have isolated a third ER (ERbeta2), which was found to contain 2004 nucleotides including an open reading frame that encodes 667 amino acids. We have also cloned ERalpha and ERbeta1 from the published information (GenBank accession nos. AY074780 and AY074779) and investigated the expression pattern of these ER subtypes in the gonads during gonad sex change of black porgy by quantitative polymerase chain reaction. Maturity stages can be divided into five stages during the sex change process from immature male to female (immature male, mature male, male of mostly testis, male of mostly ovary and mature female). The expression of ERalpha mRNA was highest in the ovary of mature female, followed by the testis of mature male and testicular portion of mostly testis. ERbeta1 expression was higher in the mature testis and ovary than in the gonads of other maturity stages. In contrast to that, ERbeta2 was highest in the ovary of mature female, and significantly lower levels of ERbeta2 expression were observed in the gonads of the other maturity stages. The present study describes the molecular characterization of ERbeta2, and documents the expression changes of three ER subtypes during sex change process of the protandrous black porgy.