Estrogen attenuates postexercise HSP70 expression in skeletal muscle

Exercise has been demonstrated as aphysiological inducer of heat shock protein (HSP)70. Many of theproposed signals of this response exhibit sexual dimorphism. Thus thepresent objectives were to determine whether HSP70 induction afterexercise exhibits gender specificity and to elucidate the mechanismsunderlying such a phenomenon. Postexercise HSP70 induction in skeletalmuscle was greater in male than female rats at the level of protein and mRNA (P = 0.005). Moreover, placebo-treatedovariectomized animals demonstrated a greater HSP70 response toexercise than those treated with estrogen (P = 0.015 and 0.019 for protein and mRNA, respectively). These findings indicatethat the gender-specific HSP70 response to exercise is mediated by thefemale-specific hormone estrogen. Compounds structurally related to17-estradiol, the major endogenous estrogen, but which do notactivate the estrogen receptor, also attenuated HSP70 induction withexercise (P < 0.01), indicating a nongenomic hormonalmechanism. These findings highlight a specific example of thebiological differences between males and females and reiterate thephysiological effects of sex hormones extending beyond their roles inreproductive function.

     

Endocrine-related reproductive effects in molluscs

Research on endocrine disruption has been a major topic of the past decade. Although most studies concentrated on vertebrate species, invertebrates are now gaining more attention. In particular, data on molluscs is increasing. One of the best-documented and more relevant examples of endocrine disruption is the imposex phenomenon affecting some gastropod species. But the increasing interest is also due to the fact that molluscs, especially bivalves, are good bioindicators used for decades in environmental studies and that progress have been made in the understanding of the physiology and endocrinology of some mollusc species. Recent results suggest that molluscs can be adversely affected by compounds that alter their reproduction and that vertebrate-type sex-steroids metabolism or mechanism of action could be involved in these effects. Nevertheless, the endocrine system of molluscs appears to be dissimilar in many aspects to those of vertebrates and sex-steroids might not have the same importance in all mollusc species. This diversity constitutes an important opportunity to examine and understand new and alternative mechanisms for endocrine disruption.     

环境雌激素双酚A的研究进展

环境荷尔蒙是现代生命科学领域研究的热点之一,如今越来越多的人开始关注这一话题。在我们的生活环境中充斥着各种化学有毒试剂,其中,有一类物质能够模拟或抑制内分泌激素的活动,我们称之为内分泌干扰物。内分泌干扰物有能力改变内分泌系统的结构和功能。双酚A作为一种环境雌激素,属于内分泌干扰物的一种。双酚A被广泛应用于聚碳酸酯塑料和环氧树脂的制造。双酚A具有弱雌激素效应,能够与雌激素受体结合,引起内分泌系统的应答。目前的研究表明,双酚A会透过血胎屏障影响到胚胎发育,会对神经内分泌系统、肝组织功能以及生殖器的发育造成损伤。本文主要综述了环境雌激素双酚A在小鼠发育阶段所引起的诸多不利影响,并对环境荷尔蒙未来的研究方向进行了展望。     

Mammalian development in a changing environment: exposure to endocrine disruptors reveals the developmental plasticity of steroid-hormone target organs

Recent findings in the field of environmental endocrine disruption have revealed that developmental exposure to estrogenic chemicals induces morphological, functional, and behavioral anomalies associated with reproduction. The aim of the present study was to determine the effects of in utero exposure to low doses of the estrogenic chemical bisphenol A (BPA) on the development of the female reproductive tissues and mammary glands in CD-1 mice. Humans are exposed to BPA, which leaches from dental materials and plastic food and beverage containers. Here we report that prenatal exposure to BPA induces alterations in tissue organization within the ovaries and mammary glands and disrupts estrous cyclicity in adulthood. Because estrogen receptors are expressed developmentally in these estrogen-target organs, we propose that BPA may directly affect the expression of genes involved in their morphogenesis. In addition, alterations in the sexual differentiation of the brain, and thus the hypothalamic-pituitary-gonadal axis, may further contribute to the observed phenotype. The emerging field of endocrine disruptors promises to provide new insights into the mechanisms underlying the development of hormone-target organs and demonstrates that the environment plays important roles in the making of phenotypes.     

Gender bent but not in the mind of fish

There is strong evidence that environmental exposure to endocrine disrupting chemicals (EDCs) is resulting in significant alterations to the reproductive system of many wildlife populations. Most of these studies measure chemically induced changes to the endocrine system or reproductive morphology and mostly provide simple markers of exposure. The heightened concern over the effects of EDCs is however primarily driven by the hypothesis that this disruption may have serious deleterious consequences on reproductive success. In extensive laboratory studies on breeding populations of zebrafish, I have shown that multigenerational exposure to environmentally relevant levels of endocrine disruptors cause very significant reductions in reproductive success. Lifetime exposure to 5 ng/l of ethynylestradiol, for example, caused complete reproductive failure. These reproductive failures were not caused by exposure proximate to the timing of spawning but by the disruption of development during earlier embryonic and larval sexual differentiation. Histology revealed that male gonads had not differentiated into functional testes. Significantly, these sterile males still initiated spawning in females and resulted in unfertilized eggs. This differential in the sensitivity of behaviour compared to gonadal disruption raises important issues in understanding the implications of endocrine disruption in wild populations. Moreover, the particular mode of reproduction behaviour that is used by a species fundamentally affects the population level impact of endocrine disruptors. This paper will discuss these results and how a greater understanding of the dynamics of group spawning may help in assessing the potential impact of endocrine disruption     

Endocrine Toxicants and Reproductive Success in Fish

There is compelling evidence on a global scale for compromised growth and reproduction, altered development, and abnormal behaviour in feral fish that can be correlated or in some cases causally linked with exposure to endocrine disrupting chemicals (EDCs). Attributing cause and effect relationships for EDCs is a specific challenge for studies with feral fish as many factors including food availability, disease, competition and loss of habitat also affect reproduction and development. Even in cases where there are physiological responses of fish exposed to EDCs (e.g., changes in reproductive hormone titres, vitellogenin levels), the utility of these measures in extrapolating to whole animal reproductive or developmental outcomes is often limited. Although fish differ from other vertebrates in certain aspects of their endocrinology, there is little evidence that fish are more sensitive to the effects of EDCs. Therefore, to address why endocrine disruption seems so widespread in fish, it is necessary to consider aspects of fish physiology and their environment that may increase their exposure to EDCs. Dependence on aquatic respiration, strategies for iono-osmotic regulation, and maternal transfer of contaminants to eggs creates additional avenues by which fish are exposed to EDCs. This paper provides an overview of responses observed in feral fish populations that have been attributed to EDCs and illustrates many of the factors that need consideration in evaluating the risks posed by these chemicals.     

Pollutants increase song complexity and the volume of the brain area HVC in a songbird

Environmental pollutants which alter endocrine function are now known to decrease vertebrate reproductive success. There is considerable evidence for endocrine disruption from aquatic ecosystems, but knowledge is lacking with regard to the interface between terrestrial and aquatic ecosystems. Here, we show for the first time that birds foraging on invertebrates contaminated with environmental pollutants, show marked changes in both brain and behaviour. We found that male European starlings (Sturnus vulgaris) exposed to environmentally relevant levels of synthetic and natural estrogen mimics developed longer and more complex songs compared to control males, a sexually selected trait important in attracting females for reproduction. Moreover, females preferred the song of males which had higher pollutant exposure, despite the fact that experimentally dosed males showed reduced immune function. We also show that the key brain area controlling male song complexity (HVC) is significantly enlarged in the contaminated birds. This is the first evidence that environmental pollutants not only affect, but paradoxically enhance a signal of male quality such as song. Our data suggest that female starlings would bias their choice towards exposed males, with possible consequences at the population level. As the starling is a migratory species, our results suggest that transglobal effects of pollutants on terrestrial vertebrate physiology and reproduction could occur in birds.     

Sex in troubled waters: Widespread agricultural contaminant disrupts reproductive behaviour in fish

Chemical pollution is a pervasive and insidious agent of environmental change. One class of chemical pollutant threatening ecosystems globally is the endocrine disrupting chemicals (EDCs). The capacity of EDCs to disrupt development and reproduction is well established, but their effects on behaviour have received far less attention. Here, we investigate the impact of a widespread androgenic EDC on reproductive behaviour in the guppy, Poecilia reticulata. We found that short-term exposure of male guppies to an environmentally relevant concentration of 17β-trenbolone—a common environmental pollutant associated with livestock production—influenced the amount of male courtship and forced copulatory behaviour (sneaking) performed toward females, as well as the receptivity of females toward exposed males. Exposure to 17β-trenbolone was also associated with greater male mass. However, no effect of female exposure to 17β-trenbolone was detected on female reproductive behaviour, indicating sex-specific vulnerability at this dosage. Our study is the first to show altered male reproductive behaviour following exposure to an environmentally realistic concentration of 17β-trenbolone, demonstrating the possibility of widespread disruption of mating systems of aquatic organisms by common agricultural contaminants.     

Purification and characterization of vitellin from the estuarine mysid Neomysis integer (Crustacea; Mysidacea)

Invertebrates account for roughly 95% of all animals, yet surprisingly, little effort has been invested to understand their value in signaling potential environmental endocrine disruption. There has been, however, much recent attention on vitellogenin induction in egg-laying invertebrates and vertebrates as indicators of exposure to estrogenic xenobiotics. Mysid shrimp (Crustacea: Mysidacea) have been put forward by several researchers and regulatory bodies (e.g., US-EPA) as suitable test organisms for the evaluation of environmental endocrine disruption. In view of developing sensitive assays to study endocrine disruption in the estuarine mysid Neomysis integer, we isolated and characterized vitellin, the major yolk protein in eggs. Vitellin was purified using gel filtration and characterized by electrophoresis using different staining procedures. Specific (as shown by Western blotting) polyclonal antibodies were produced in rabbit against the purified vitellin of N. integer. These antisera will be used to develop immunoassays to study vitellogenesis in mysids and to detect potential stimulatory or inhibitory effects of endocrine disruptors on the production of vitellin.     

内分泌干扰物的生物学检测和评价方法

内分泌干扰物(endocrine disrupters,EDs)是近年来环境科学研究的热点之一。EDs不仅对陆生动物和人类具有潜在的危害,还可以通过不同途径到达水环境中,影响水生动物的生长和繁殖等。因此,建立EDs快速、灵敏的检测和评价方法非常必要。此外,生物检测方法还能在一定程度上反映化学污染物对生物体的毒害效应。本文就研究EDs的离体和在体实验方法进行了介绍,并从个体、组织细胞、生化与分子(蛋白质、酶、RNA、激素)等不同水平上,重点综述了鱼类生物标志物在检测和评价EDs方面的研究进展。     

Endocrine disrupters and testicular dysgenesis syndrome

Over the last couple of generations, we have been exposed to an increasing number of endocrine disrupters in our environment, including dichlorodiphenyltrichloroethane (DDT), PCB, certain pesticides, the phthalate DBP, synthetic steroids in meat and many other agents (table 1), which act as agonists or antagonists of sex steroids. Although biologists working with wildlife have been concerned about the possible effects of these chemical agents on animal reproduction, it appears that clinicians have been less concerned about possible health effects in humans. However, the increasing incidence of hormone-dependent cancers, including cancer of the breast, prostate and testis, and signs of an increasing incidence of male reproductive health problems should alert us to the possible association between exposure to endocrine disrupters and the current high frequency of reproductive problems. In Denmark, for example, 5% of all children are now born after assisted reproduction (intracytoplasmic sperm injection, in vitro fertilization, donor insemination and intrauterine insemination) and 1% of all (mostly young) men develop testicular cancer. Evidence exists to support the concept that hypospadias, undescended testis, poor semen quality and testicular cancer are symptoms of an underlying testicular dysgenesis syndrome, which may be becoming increasingly common due to adverse environmental effects. Experimental and epidemiological evidence suggests that testicular dysgenesis syndrome is a result of disruption of foetal programming and gonadal development during foetal life.     

Metabolism of estrogens in breast cancer.

This extensive literature compilation reviews major studies on estrogen metabolism in cancer, studies which have led to proposed possible etiological roles of estrogens in human breast cancer. Urinary and plasma estrogen excretion patterns and profiles in women with breast cancer are the topics of part 1. Studies of estrogen profiles in women who are at high-risk for breast cancer are critiqued. The estriol hypothesis is presented and criticised in a chapter. The effects of endocrine ablation on urinary estrogen profiles in breast cancer patients are compiled. Production and metabolism of estrogens in women with breast cancer are rendered, including in vivo biotransformation rates and in vitro transformation data. And the search for estrogen metabolites in women with breast cancer is reviewed. In conclusion it is obvious that the question of whether breast cancer patients have an abnormal metabolism of estrogen has not been answered, but further investigations of estrogen metabolism in breast cancer should be continued because: 1) the possibility that estrogens are carcinogenic has not been ruled out; 2) receptors have been discovered which do correlate with hormone dependency of tumors; 3) present evidence suggests that neoplasm may induce abnormal estrogen metabolism; 4) directional changes of estrogen metabolism that occur in pregnancy may also occur in women with target tissue neoplasia; 5) hepatic tissue's relationship to breast cancer has not received attention; and 6) the role of peripheral aromatization in the pathogenesis of mammary cancer is not yet understood.     

Consequences of Parasitism to Marine Invertebrates: Host Evolution?

Parasitism among aquatic invertebrates is common, if not ubiquitous,and can be pathological to hosts. However, host evolution inresponse to parasitism has received little attention, particularlyfor marine invertebrates. Drawing on the rich literature demonstratingprey adaptations to predators, I develop analogous predictionsfor the ways in which host life histories may be molded by theirparasites. Such adaptations are expected when the effects ofparasites are severe and when the probability of infection ishigh. Predicted life history changes include the evolution ofsemelparity, reduced age at first reproduction and reduced sizeat first reproduction. Using Recent and fossil populations oftwo bivalves species in the genusTransennella, I show that theincidence of trematode parasites may explain a trend of reducedsize through time and contribute to the maintenance of sexualdimorphism for size.